the future of mobile broadband lte 2014
TRANSCRIPT
Copyrightcopy ANRITSU
What about Test amp Measurements Simulations
Cezar Faria Application Engineer
November 2014
The Future of Mobile Broadband
LTE LTE-Advanced 5G
Copyrightcopy ANRITSU
Anritsu Company Profile
Anritsu
Confidential
Anritsu Brazil
bull First office out of Japan since 1977
bull Paid-up capital
19052 million yen (as march 31 2014)
bull Sales
101853 million yen (consolidated)
(year ended March 31 2014)
54091 million yen (non-consolidated)
(year ended March 31 2014)
bull Employees 3880 (as of March 31 2014)
5-1-1 Onna Atsugi-shi Kanagawa 243-8555 Japan
Tel (046) 223 -1111
wwwanritsucom
bull First founded as Sekisan-sha in 1895
bull Established as Anritsu Electric Corporation
on March 17 1931
Copyrightcopy ANRITSU
Global Operations
Copyrightcopy ANRITSU
Topics
4
bull LTE Trends
bull LTE Basics Overview
bull LTE R9 Enhancements
bull LTE R10 Enhancements
ndash LTE Advanced
ndash Anritsu Portfolio amp Support for LTE R10
bull R11 and Beyond
ndash LTE Advanced2
bull ANRITSU Portfolio
Copyrightcopy ANRITSU
Wireless Operator Trends and
Anritsu Alignment
Copyrightcopy ANRITSU
Anritsu Alignment with Americas Operators
bull Provide ATampT W-CDMA and LTE CAT per 10776
Requirements
bull Provide T-Mobile LTE and W-CDMA CAT (Sole Provider
for W-CDMA)
bull Provide Verizon LTE CAT per Open Development and
Branded Requirements
bull Launching Sprint CAT
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
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Trends in High Level OS
(HLOS)
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The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
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Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
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Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
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LTE Market Overview
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LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
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LTE Network Deployments Worldwide
18
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LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
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Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
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LTE Basics Overview
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What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
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Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
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Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
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LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
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LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
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IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
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R9 Enhancements
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Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
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IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
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Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
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- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
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Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
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Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
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Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
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Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
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Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
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R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
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R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
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LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
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LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
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Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
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MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
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MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
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ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
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ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
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ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
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SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu Company Profile
Anritsu
Confidential
Anritsu Brazil
bull First office out of Japan since 1977
bull Paid-up capital
19052 million yen (as march 31 2014)
bull Sales
101853 million yen (consolidated)
(year ended March 31 2014)
54091 million yen (non-consolidated)
(year ended March 31 2014)
bull Employees 3880 (as of March 31 2014)
5-1-1 Onna Atsugi-shi Kanagawa 243-8555 Japan
Tel (046) 223 -1111
wwwanritsucom
bull First founded as Sekisan-sha in 1895
bull Established as Anritsu Electric Corporation
on March 17 1931
Copyrightcopy ANRITSU
Global Operations
Copyrightcopy ANRITSU
Topics
4
bull LTE Trends
bull LTE Basics Overview
bull LTE R9 Enhancements
bull LTE R10 Enhancements
ndash LTE Advanced
ndash Anritsu Portfolio amp Support for LTE R10
bull R11 and Beyond
ndash LTE Advanced2
bull ANRITSU Portfolio
Copyrightcopy ANRITSU
Wireless Operator Trends and
Anritsu Alignment
Copyrightcopy ANRITSU
Anritsu Alignment with Americas Operators
bull Provide ATampT W-CDMA and LTE CAT per 10776
Requirements
bull Provide T-Mobile LTE and W-CDMA CAT (Sole Provider
for W-CDMA)
bull Provide Verizon LTE CAT per Open Development and
Branded Requirements
bull Launching Sprint CAT
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Global Operations
Copyrightcopy ANRITSU
Topics
4
bull LTE Trends
bull LTE Basics Overview
bull LTE R9 Enhancements
bull LTE R10 Enhancements
ndash LTE Advanced
ndash Anritsu Portfolio amp Support for LTE R10
bull R11 and Beyond
ndash LTE Advanced2
bull ANRITSU Portfolio
Copyrightcopy ANRITSU
Wireless Operator Trends and
Anritsu Alignment
Copyrightcopy ANRITSU
Anritsu Alignment with Americas Operators
bull Provide ATampT W-CDMA and LTE CAT per 10776
Requirements
bull Provide T-Mobile LTE and W-CDMA CAT (Sole Provider
for W-CDMA)
bull Provide Verizon LTE CAT per Open Development and
Branded Requirements
bull Launching Sprint CAT
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Topics
4
bull LTE Trends
bull LTE Basics Overview
bull LTE R9 Enhancements
bull LTE R10 Enhancements
ndash LTE Advanced
ndash Anritsu Portfolio amp Support for LTE R10
bull R11 and Beyond
ndash LTE Advanced2
bull ANRITSU Portfolio
Copyrightcopy ANRITSU
Wireless Operator Trends and
Anritsu Alignment
Copyrightcopy ANRITSU
Anritsu Alignment with Americas Operators
bull Provide ATampT W-CDMA and LTE CAT per 10776
Requirements
bull Provide T-Mobile LTE and W-CDMA CAT (Sole Provider
for W-CDMA)
bull Provide Verizon LTE CAT per Open Development and
Branded Requirements
bull Launching Sprint CAT
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Wireless Operator Trends and
Anritsu Alignment
Copyrightcopy ANRITSU
Anritsu Alignment with Americas Operators
bull Provide ATampT W-CDMA and LTE CAT per 10776
Requirements
bull Provide T-Mobile LTE and W-CDMA CAT (Sole Provider
for W-CDMA)
bull Provide Verizon LTE CAT per Open Development and
Branded Requirements
bull Launching Sprint CAT
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu Alignment with Americas Operators
bull Provide ATampT W-CDMA and LTE CAT per 10776
Requirements
bull Provide T-Mobile LTE and W-CDMA CAT (Sole Provider
for W-CDMA)
bull Provide Verizon LTE CAT per Open Development and
Branded Requirements
bull Launching Sprint CAT
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Market Trends in Wireless
Devices
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Smartphone Growth is Accelerating
bull Smartphones Lead Growth Over Feature Phones
ndash 100 GrowthYear (Gartner)
ndash 25B Smartphones to be Shipped in 2011-2014
bull 25 YOY Growth in Data Revenue (ATampTVerizon)
ndash Primarily Driven By Smartphone Access
bull Brazilian growth from 2011 to 2016 is expected to be 44 (IDC)
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
The Range of Devices is Expanding Far Beyond
Traditional Mobile Phones
bull Non-Handset Device Shipments are Expected to Grow 25 - 40 from 2009 to 2014 (ABI Research)
bull Integration into PCs Netbooks Tablets Game Stations and Other Consumer Devices is Highly Common
bull Embedded Applications Exist in
ndash Medical Monitoring (WMD)
ndash Telematics (Onstar Denatran)
ndash Smart Grid
ndash Oil and Gas
ndash Broadband to Wi-Fi Access Points
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Trends in High Level OS
(HLOS)
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
The UE HLOS Market is Highly Competitive
bull Many Different Competitors Including Windows Phone Android Apple iOS
bull Windows Phone Accelerated by Alliance with Nokia
ndash OVI Maps Bing Office X-Box Live and AdCenter will be Pooled
ndash Microsoft Marketplace and Nokia Apps Store will be Integrated
bull OS Success Will be Determined By Ability to Attract Developers and Develop an ldquoEnvironmentrdquo
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Trends in Application
Processors and Application
Software
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Application Processor Market
bull 25 YOY growth totaling $47 billion in Q1 2014
bull Qualcomm claimed the majority revenue share with 53 of the market
Samsung Hummingbird and iPhone A4 Share the Same ARM A8 Cortex
Core (UBM TechInsights)
bull Qualcomm Snapdragon ndash 55 Devices Including Tablets
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Applications are Driving the UE Market
bull 60B Application Downloads in 2012 Growing to 270B in 2017 (Gartner) ndash Real time gaming HD videoconferencing augmented reality etc
ndash 8 of Top 10 Downloads are Games (Distimo)
bull Developer Mindshare is Critical for Driving Application Development ndash Shift in Developer Activity from PCs and Game Consoles to Smartphones
ndash gt200 Growth
bull Future Smart Applications (Qualcomm) ndash Knows You and Your Surroundings
ndash Senses Local Content and Services
ndash Learns What you Like
ndash Interacts with Networks
ndash Discovers Relevant Things
ndash Sees with Augmented Reality UI
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Market Overview
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
United States
bull T-MobileMetroPCSndashSept 2010
bull Verizon ndash Dec 2010
bull ATampT ndash Sept 2011
bull LeapCricket ndash Dec 2011
bull US Cellular ndash March 2012
bull Sprint ndash July 2012
bull C Spire ndash Sept 2012
bull T-Mobile March 2013
16
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Network Deployments in the Americas
Canada bull Rogers (July 2011) Bell Telus
Eastlink Allstream amp Sasktel
(TDD)
Latin America bull Brazil ndash Claro On (TDD) Oi Sky
(TDD) VIVO amp TIM
bull Mexico ndash Telcel amp Movistar
bull Puerto Rico ndash ATampT Claro Open
Mobile Sprint amp T-Mobile
17
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Network Deployments Worldwide
18
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Device Availability
19
bull 2216 Devices Overall
ndash 978 New Devices in One Year
bull LTE Smartphones are Available in the Largest Number
bull RoutersHotspots are the Second Highest in Availability
bull 644 TD-LTE Devices
Oct 2014
Gsacomcom
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Baseband Market
bull Revenue from baseband processors for mobile phones and tablets will increase from $157 billion in 2012 to $221 billion in 2017 (Gartner)
ndash Qualcomm (66 Market Share ndash Q1 2014)
ndash MediaTek (15 Market Share ndash Q1 2014)
ndash Spreadtrum (5 Market Share ndash Q1 2014)
ndash ST-Ericsson
ndash Broadcom (200 Growth 2009 to 2010)
bull Renesas Marvell Intel Via Telecom and NvidiaIcera Round Out Top-10
bull Separate 2G 2G3G and 4G Market Segments
ndash Integration of 4G with 2G3G in the Future
ndash Qualcomm Leading
ndash Intel has announced that its paid $15 billion for a 20 percent share in two of Chinas biggest mobile chipmakers Spreadtrum and RDA Microelectronics
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Market Dynamics for LTE Basebands
bull LTE is Experiencing Rapid Growth Through 2014 ndash 100M LTE Subs by 2014 (Juniper Research)
bull LTE Upgrade Path ndash LTE Release 8 ndash In Networks Today
ndash LTE Release 9 ndash Interim Upgrade for Rel 8
ndash LTE Advanced ndash In Deployment Today
ndash 350 LTE networks by the end of 2014 (GSA Jul 2014)
bull Future Trends ndash Multiple Carriers Higher-Order MIMO (4x2 and 4x4)
Beamforming
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Wireless trends amp Anritsu technology strategies
22
bull Sustained growth of LTE worldwide deployment VoLTE and RCSe will become key technologies for operators
bull Rel 10 is the current standard for LTE network deployment
bull LTE-A development is accelerating and first commercial network have been deployed
ndash Carrier Aggregation Het Net (eICIC) WiFi offload and Small Cells are important
bull Subscriber numbers growing due to multi device ownership (eg tablets) and M2M growth
Anritsu Response
bull Enhance LTE-A test with advanced network simulation (MD8430A)
ndash All platforms support FDDTDD and LTE-A (CA) through software upgrades
bull Enable full VoLTE testing (RTD) with IMS test capability
ndash Full support for RCSe VoLTE SRVCC IMS and SIP
bull Combined UE signalling and IPEthernet applications test for best capability for our customers (MD8475A)
bull Multi-RAT network in one box that is easy to learn and easy to use (MD8475A)
ndash Wide ranging UE test capability via interactive GUI and scripted automation
bull Continue leading GCFPTCRB test case availability CAT systems (ME7834L ME7873L)
bull New platforms for field installation troubleshooting and PIM analysis (MW82119A)
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
MWC 2013
Future Baseband Trends
2006 2007 2008 2009 2010 2011
3GPP
Long Term Evolution
UMTSHSPA Radio Access Network Evolution
EDGE Radio Access Network Evolution
3GPP2 CDMA2000EV-DO Network Evolution
IEEE Mobile WiMAX Network Evolution
EDGE Evolved
DL 19 Mbps
UL 947 kbps
IEEE 80216m
LTE
DL 100 Mbps+
UL 50 Mbps+
R8 HSPA Evolution
DL 42 Mbps
UL 11 Mbps
R7 HSPA Evolution
DL 28 Mbps
UL 11 Mbps
EDGE
DL 474 kbps
UL 474 kbps
HSDPAHSUPA
DL 14 Mbps
UL 57 Mbps
Fixed WiMAX
80216d
Mobile WiMAX Wave2
DL 46 Mbps
UL 4 Mbps
Mobile WiMAX Wave1
DL 23 Mbps
UL 4 Mbps
HSDPA
DL 14 Mbps
UL 384 kbps
EV-DO Rev B
DL 147 Mbps
UL 49 Mbps
EV-DO Rev A
DL 31 Mbps
UL 18 Mbps
EV-DO Rev 0
DL 24 Mbps
UL 153 kbps
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Basics Overview
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
What are LTE SAE and EPC
25
bull Long Term Evolution (LTE) is an umbrella expression describing
the work of the 3GPP RAN Working Groups
a) Create a new evolved RAN (E-UTRAN)
b) Create a technology to replace UTRAN (W-CDMA)
bull System Architecture Evolution (SAE) describes the work of the
3GPP SA2 Working Group
ndash Develop a framework for an evolution of the 3GPP system to
bull Higher-data-rates
bull Lower-latency
bull Packet-optimized architecture
bull Support for multiple Radio Access Technologies (RATs)
ndash The work focuses on creating an Evolved Packet Core (EPC)
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Version History for LTESAE
26
bull The Study Item that led to R8 LTE (39G) was started in
late 2004
ndash Work Item complete in late 2008 (core and test specs frozen)
ndash TeliaSonera launched the 1st commercial R8 LTE networks in Oslo
and Stockholm in December 2009
bull R9 LTE (39G) was completed in March 2010
bull R10 LTE Advanced (4G) was completed in April 2011
ndash Focus on Carrier Aggregation and enhanced MIMO to increase
data rates
ndash Carrier Aggregation Demonstrated to the FCC by Qualcomm and
ATampT in May 2011
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Version History for LTESAE
27
bull R11 LTE Advanced was completed in December 2012
ndash Focus on Heterogeneous Networks (HetNets) and Coordinated
Multipoint (CoMP)
bull R12 LTE Advanced was scheduled for completion in June
2014 (but now delayed)
ndash Focus on enhanced small cells enhanced MIMO (massive MIMO)
higher-order Carrier Aggregation (3 carrier downlink 2 carrier
uplink and FDDTDD) and new services (Machine-Type
Communications Device-to-Device communications etc)
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Basic Performance for LTESAE
28
Rel 8
LTE
Rel 10
LTE Advanced
ldquo4Grdquo
IMT-Advanced
Targets
Peak Data Rate DL 300 MBs 1200 MBs 1 GBs
UL 75 MBs 600 MBs 500 MBs
Peak Spectrum
Efficiency
DL 15 bpsHz 30 bpsHz 15 bpsHz
UL 375 bpsHz 15 bpsHz 675 bpsHz
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Physical Layer Highlights for R8 LTE
29
bull Downlink
ndash Orthogonal Frequency Division Multiple Access (OFDMA)
ndash Single Input Single Output (SISO) and Multiple Input Multiple Output
(MIMO) operation
bull Uplink
ndash Single Carrier Frequency Division Multiple Access (SC-FDMA)
ndash SISO only
bull Support for multiple channel bandwidths
ndash 14 3 5 10 15 and 20 MHz
bull Low latency
ndash Supporting real-time voice and gaming
bull Duplex options
ndash Frequency Division Duplex (FDD) and Time Division Duplex (TDD)
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Frequency Bands
30
TDD
FDD
Band 2 US Canada S America
Band 38 Europe Japan Taiwan Band 39 China
Band 17 ATampT US Band 14 US Canada Public safety
Band 25 26 27 US Canada
South America
Band 4 Americas Canada
Band 13 Verizon US Canada
Band 1 Japan Asia EU
Band 5 US Canada Aus Korea
Band 3 France Poland Nordic Korea
Band 7 Europe HK
Band 18 Japan KDDI
Band 11 Japan
Band 41 US China Japan
Band 40 Australia China India
Band 20 Europe Germany
Band 8 Korea
Band 19 21 28 Japan
Band 12 US Canada (AWS)
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
bull Multiple Input Multiple Output (MIMO)
ndash Refers to use of multiple antennas both at the TX and RX
bull LTE MIMO can be subdivided into three categories
ndash Beamforming
ndash Space Frequency Coding bull Same data streams on all antennas
bull Increased SN at cell edge
ndash Spatial Multiplexing bull Different data streams on all antennas
bull Higher data rates
MIMO in LTE
31
Serial
to
Parallel
Parallel
to
Serial
Data 2 R bps
Two Spatial Streams
R bps
R bps
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE UE Categories
32
9 450 50 60 X X
10 450 100 60 X X
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
IP Multimedia Subsystem (IMS) and VoLTE
33
bull IMS supports a wide variety of services
ndash Including voice (VoLTE) video presence geo-location and others
bull In an LTE network IMS is enabled by Call Session Control Function
(CSCF) servers
bull Handover from VoLTE to CS services is enabled by Single Radio
Voice Call Continuity (SRVCC)
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
R9 Enhancements
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Multimedia Broadcast Multicast Services (eMBMS)
35
bull Point-to-multipoint service
bull New network elements are required for eMBMS
ndash Broadcast-Multicast Service Center (BMSC)
ndash MBMS Gateway
ndash Multi-Cell Coordination Entity (MCE)
bull Deployment options include single cell or Multimedia Broadcast Single
Frequency Network (MBSFN) using multiple eNBs
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
IMS Service Continuity
bull Single Radio Voice Call Continuity
(SRVCC) first defined in R8 -
seamless session continuity as
the user moves between access
networks
bull In R9 functionality enhanced by
allowing transfer of a userrsquos
sessions to and from other
devices belonging to the user
ndash eg Video stream transferred to a
large-screen TV
bull In addition a user can add or
delete sessions on multiple
devices controlled from a single
device
36
Eric Macioszcyk
catis-blogcom
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
IMS Emergency Services
bull For LTE devices 911190 and other emergency calls need to be routed to local emergency services in the serving network
ndash Device could be at home or roaming nationallyglobally
bull Emergency services should be supplied to at least validated devices and possibly barred USIM-less and other devices
bull Mobility handovers SRVCC etc should be allowed for emergency calls
37
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Enhanced Downlink Beamforming
bull R8 includes 5 types of multi-antenna techniques that can be used ndash Transmission Mode 1 to 7
(TM1-TM7)
ndash Dynamically adjusted based on feedback from the UE
bull R9 adds an extension of Single Layer Beamforming (TM7) called Dual-layer Beamforming (TM8) ndash Allows the transmitter to apply
beamforming on top of dual layer downlink transmissions
38
Electronics Products
April 3 2012
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
39
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu Support for LTE R9
40
bull eMBMS ndash MD8430A + RTD
bull IMS Service Continuity ndash MD8430A + MD8480C + RTD + Radvision supports SRVCC
ndash MD8475A supports SRVCC
ndash ME7834L (Protocol Conf and Carrier Acceptance) supports SRVCC
bull IMS Emergency Services ndash MD8430A + RTD + Radvision ProLab
bull Dual-Layer Beamforming (TM8) ndash MD8430A + RTD
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
- LTE Advanced
R10 Enhancements
Mobile Devices Solutions
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Carrier Aggregation
42
bull LTE Advanced must support bandwidth of 100 MHz to achieve IMT-
Advanced targets of 1 GBS DL and 500 MBs UL
bull Itrsquos difficult to find 100 MHz of contiguous spectrum so Carrier
Aggregation enables joining spectrum ldquotogetherrdquo
ndash Multiple options including Contiguous Non-ContiguousIn-Band and Non-
ContiguousOut-of-Band
bull Backwards compatible with LTE R8
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Enhanced Downlink MIMO and Uplink MIMO
bull LTE R8 supports up to 4x4 MIMO on the downlink with 4 Layers ndash eg 4 Cat 4 streams could
support 4 x 150 MBs = 600 MBs
bull LTE R10 doubles R8 capabilities with up to 8x8 MIMO on the downlink with 8 layers ndash eg 8 Cat 4 streams could
support 8 x 150 MBs = 1200 MBs
bull LTE R8 uplink supported only SISO but R9 enables up to 4x4 MIMO
43
Anirban Das
MTT Global Services
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Heterogeneous Networks (HetNets)
44
bull Concept is that lower power cells are placed as underlays in higher
power macrocells
ndash Lower power cells include micro pico femto RRHs and relay
bull Two concepts to avoid interference
ndash Carrier Aggregation-based (frequency domain)
o Control Channels to schedule RBs located in alternate carriers (cross-
carrier scheduling)
ndash Non Carrier-Aggregation-based (time domain)
o Offset control channels in time and transmit Almost Blank Subframes (ABS)
4g-lte-worldblogspotcom
June 11 2012
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Relay Nodes
45
bull Relay Nodes are essentially base station repeaters at cell edges
ndash Interface between the eNB and Relay Node can be in-band or out-of-band
LTE
bull Extends high data rate coverage area and cell edge coverage
bull Two primary types of relay
ndash L1 relay ndash Amplify and forward
ndash L2 relay ndash Decode and forward
o Reduces interference and noise
over L1 relay
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Interworking with WiFi
46
bull A typical smartphone can connect to one PDN over LTE and a 2nd
PDN over WiFi but mobility and transfer of PDNs between
connections is undefined before R10
bull R10 Solutions include
ndash WiFi authentication with USIM credentials
bull IP address allocated to be used only at that hotspot No mobility to
LTE
ndash Multi-Access PDN Connection (MAPCON)
bull Multiple connections to different PDNs allowed over LTE and WiFi
bull Inter-system handover enables transfer of PDN connections between
technologies
ndash IP Flow Mobility (IPFOM)
bull UE can access a PDN connection over LTE while maintaining
connectivity to the same PDN over WiFi
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu LTE Portfolio
47
MT8870A
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu Support for LTE R10
bull Downlink Carrier Aggregation ndash MD8430A+ RTD
ndash MD8475
ndash MT8820C
bull Uplink Carrier Aggregation ndash MD8430A + RTD
bull Downlink MIMO ndash MD8430A + RTD (8x2 Today)
bull Uplink MIMO ndash MD8430A + RTD
bull Heterogeneous Networks ndash MD8430A + RTD
bull Relay Nodes
bull Interworking with WiFi
- MD8475A (with AP)
48
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
R11 and R12 Mobile Devices Solutions
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Coordinated Multipoint (CoMP)
bull When a UE is at the cell edge region
ndash The UE may be able to receive signals from multiple eNBs
ndash The UErsquos transmitted signals may be received at multiple eNBs
bull If downlink signaling is coordinated performance can be increased
ndash Techniques include interference avoidance or transmission of the same data from multiple cell sites
bull For the uplink if scheduling is coordinated from multiple sites system performance can be increased with multiple receptions
50
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
R12 Highlights
51 Slide Title or URL
Unwiredinsightcom
Alastair Brydon
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu test amp monitoring portfolio
bull Broad portfolio covering a wide range of the
mobile broadband industry
ndash Base station amp backhaul RampD manufacture
ndash Cell site installation amp maintenance
ndash Chipsetdevice RampD certification and production
ndash Network service assurance amp performance
monitoring
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Devices
For RampD For Maintenance
bull Smartphones
bull Tablets
bull Chipset Reference Designs
Verification LTE RampD
Application
Enablers
LTE Global Commercialization
For Manufacturing
- LTE 3G including TD-SCDMA and 2G
- CP and non-CP Test Options
Continuing 3G Dominance and LTE Growth
For Certification
Protocol and
Carrier Tests RF amp RRM
Device certification launched
IP Test
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
LTE Infrastructure
Rapidly increasing Mobile Data Traffic
- Network Construction
- Service Area
For Installation For Coverage For Manufacturing
Service Area Verification
and Assists Service Area
Map Creation
Accurately and Quickly Test and Verify the Installation and Commissioning of Base Stations
Faster Network Rollout Minimized Investment Fast and efficient for
accurate measurements
Radio transceiver tests in
production and repair
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu Wireless Test
Portfolio
MWC 2013
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Anritsu Wireless Portfolio
Conformance
Test
Carrier
Acceptance
Test (CAT)
Production Integration
Functional Test
Chipset Design
Core UE RampD
MS269xA amp MS2830A
Signal Analyzer
MG3710A
Signal Generator
MD1230B
Data Quality Analyzer
MT8820C
Radio Communication
Analyzer
(UE Calibration and
RF Parametric Test)
MT8820C
Radio Communication
Analyzer
(RF Parametric Test)
ME7873L
RF Conformance
Test System
ME7834L
Mobile Device
Test Platform
MD8475A
Signaling Tester
(Application Test)
MD8430A
Signaling Tester with RTD
(L1L2 Protocol Stack Test)
MD8475A
Signaling Tester
(Application Test)
ME7873L
RFRRM
Conformance
Test System
ME7834L
Mobile Device
Test Platform
MT8870A
Universal Wireless
Test Set
(UE Calibration and
RF Parametric Test)
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
MD8430A LTE Signaling Tester Overview
Supports FDD TDD and Inter-working
UE Category 1 2 3 4 5 6 and 7
DL Throughput 300 MBs (IP)
UL Throughput 100 Mbps (IP)
DL - 2x2 4x2 and 8x2 MIMO
4 Full-Stack + 2 Partial-Stack eNode Bs
RF and Digital IQ interface
VoLTE-Related Features
RoHC SPS TTI Bundling DRX
3GPP Rel 9 10 and 11 Support
Transmission Mode 8 and 9
Positioning Reference Signal
eMBMS
eICIC and feICIC
Carrier Aggregation (FDD and TDD)
MD8430A Signaling Tester
LTE
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
MD8430A Carrier Aggregation Demos at MWC
2012 ndash Intra-Band CA with
Signalion UEs
2013 ndash Inter-Band CA with
Qualcomm FFA B4 + B17
2014 ndash Cat 6 Inter-Band CA
Intel and Qualcomm FFA
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
MD8430A ETM MasterSlave Architecture Example
Secondary Cell Handover Primary and Secondary Cell Handover
RTD
MF6900 MF6900
CC1 CC2
Master
MD8430A
(ETM)
Slave
MD8430A
(xTM)
CC3 CC4 CC3
CC4
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
ME7873L RFRRM Conformance Test System Overview
bull Scalable Configuration
ndash TX RX Performance and RRM
ndash FDD and TD-LTE Options
ndash Carrier Aggregation for Either FDD or TD-LTE
ndash R7 and R8 W-CDMA Options
ndash Optional Integrated Full LTE + W-CDMA
ndash Support for Bands 1-5 7-14 17-21 24-29 and 33-41
bull Most Validated Test Cases - GCF and PTCRB
bull LTE Inter-RAT to W-CDMA GSM C2K and TD-SCDMA Available
bull RF CAT Capability for Multiple Operators
bull RampD Functionality
ndash Search Mode Parameter Variability Protocol Logging and Analysis
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
ME7873L TRX Perf RRM LTE RF Conformance
61
TRX Basic
TS36521-1 CH67
(Except spuriousblocking measurement )
TRX Full
TS36521-1 CH67
TRXPerf
TS36521-1 CH6-9 (TRx amp PERF TCs)
TRXPerfRRM
TS36521-1 CH6-9 (TRx amp PERF TCs) +
TS36521-3 RRM TCs
Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
ME7834AL Mobile Device Test Platform
bull Delivers Protocol Conformance Test (PCT) and Carrier Acceptance Test (CAT) in a Single Scalable Platform ndash W-CDMA Signaling CT Based on
TTCN2 ndash LTE Signaling CT Based on TTCN3 ndash CAT Based on RTD
bull CAT for Multiple LTE and W-CDMA Operators Supported ndash Including ATampT and Others
bull Many Different CAT Test Packages ndash Data Performance ndash System Selection ndash LTE Inter-RAT ndash VoLTESRVCC ndash CSFB ndash LTE SMS
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Example
configuration
MD8480C
UTRANGERA
N Signalling
MD8430A
LTE Signalling
MF6900 Fading
Simulator
MN8141 RF
Combiner
MD8470A
CDMA200
0 Signalling UUT
(Unit Under
Test)
ME7834 Mobile Device Test Platform Multi-Application System Components
PC
PCT app
s
CAT app
s
Protocol
Applications
MD8475A
TD-
SCDMA Signalling
Software
IMS Signalling Scalable for Growing Technologies
and Budgets
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Built-in VoLTEIMS Capability ndash CSCF DHCP DNS Server functions
ndash NDP function XCAP function
ndash IMS Supplementary Service
ndash Rich Communication Services (RCS)
Built-in SMS Center
Built-in PWS Center ndash CMAS and ETWS
Built-in PHYIP layer throughput monitor
RF Measurements
LTE System Simulation for FDD and TDD
Supports 150MBs (Cat 6) throughput with 2x2 MIMO
Multi-System Capable Platform ndash W-CDMAHSPAHSPA evoDC-HSDPA GSMGPRSEGPRS
ndash CDMA2000 1XEV-DO TD-SCDMAHSPA
ldquoSmartStudiordquo State-Machine Based GUI
2-Cell Mobility Testing ndash 2-cell IntraRAT LTE 2-cell W-CDMA 2-cell GSM 2-cell TDS 2-cell
ndash 2-cell InterRAT LTEW LTEG LTE-TDDTDS WG TDSG
ndash LTE-cdma2000 (Hybrid mode) 2-box Interworking Optimized HO
ndash LTE-cdma2000 single-box Interworking with 2RF
TD-SCDMA
TD-HSPA
CDMA2000
1X1xEV-DO
GSM
GPRS
EGPRS
W-CDMA
HSPA evo
DC-HSDPA
LTE FDD
LTE TDD
MD8475A Signaling Tester Overview
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
SmartStudiorsquos Powerful Stack Enables A
Wide Range of Testing
Scenario Configurability
Operational
Ease
State-
Machine-
Based
Dynamic
Response
Network amp
UE Status
Monitoring
Latest 3GPP Features
1000s of Adjustable Parameters
Abnormal Network Behaviors
Smart Intelligent processing reacts to DUT actions like a real network
Studio Flexible setting generates a variety of scenarios
SmartStudio Radio
Access Technology
Simulation
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
SmartStudio Manager
Test Procedures in a Visual Environment
1 Configure RAT
amp Network
(Sim Parameters)
2 Configure BTS
(Cell Parameters)
3 Start Simulation
4 Wait Until UErsquos
in Communication
SmartStudiorsquos simple parameter-based manual operation
translates to compact linearly designed SSM tests
SmartStudiorsquos Manual Operation Scripted SmartStudio Manager Automation
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
MD8475A and Carrier Aggregation
bull LTE Carrier Aggregation (2CC SISO amp MIMO) ndash LTE FDDTDD mode will be supported
ndash Realize easy setup with GUI operation for commercial LTE-CA device verification
2CC SISO (Single-Box Solution) ndash Support functions
PHYIP Throughput DL 150MbpsUL 50Mbps ndash Test applications
Simple packet connectivity tests with CA ndash Operations
Single box support 2CC SISO
SmartStudio
(Master)
2CC 2x2 MIMO (2-Box Solution) ndash Support functions
RF Throughput DL 300MbpsUL 50Mbps IP Throughput DL 150MbpsUL 50Mbps
ndash Test applications Operatorrsquos device acceptance tests Battery consumption tests
ndash Operations Single GUI (SmartStudio on the master
MD8475A) controls slave box also
SmartStudio
(Master)
SmartStudio
(Slave)
New MX847550A-040 LTE Carrier Aggregation Option required
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Key Unique Points Ease of use
bull SmartStudio GUI allows users to set and configure the IMS test easy
bull No complicated test scripts are required for IMS setting
Comprehensive IMS Test
bull Supports a lot of tests including irregular tests and supplementary service
Analysis and Debug
bull Ethereal and Signalling protocol logging can be checked simultaneously
Built-in Servers
bull IMS and relevant application server can be installed within single platform
bull No external server required then realize small-footprint environment
Multi-RAT Expandability
bull Enough expandability for SR-VCC tests
MD8475A and IMS
VoLTE Device
CSCF DHCP DNS
IMS Supplementary
service
LTE RoHC
NDP XCAP IPsec
IMS Server
IMS Conference Call
RCS
Under Development
SMS over IMS
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
MD8475A and CMAS
bull Public Warning System (PWS) Message test
ndash Commercial Mobile Alert Service (CMAS) on LTEW-
CDMACDMA2000GSM
ndash Earthquake Tsunami Warning System (ETWS) on LTEWCDMA
bull Primary and Secondary Notification
PWS Center CMAS Message Editor
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
All-in-One Test Platform Supporting 2G 3G and LTE
Key Features
- Supports 2G3G to LTE with Signaling
LTE TDDFDD3(39G) W-CDMAHSPAHSPA EvolutionDC-HSDPA
GSMGPRSEGPRS CDMA20001 1X1xEV-DO Rev A TD-SCDMAHSPA PHSADVANCED PHS
- Excellent TD-SCDMA functions
- Backwards compatible with MT8820AB
- Supports all manufacturing requirements
- ParallelPhonetrade Mode (PPM) Measurement2
- MT8820B to MT8820C Upgrade
The MT8820C is Anritsursquos all-in-one test platform for
RampD and manufacturing of 2G 3G and LTE UEs
The MT8820C supports all manufacturing
requirements including
- RF calibration
- RF parametric testing
- Functional test
It is backwards compatible with the MT8820B15B
The MT8820C supports Dual Transceivers and
Measurement DSPs in ParallelPhone Mode (PPM)
configurations doubling measurement throughput
and enabling functional testing of SV-LTE DC-
HSDPA DC-HSUPA CSFB Carrier Aggregation etc
1 CDMA2000reg is a registered trademark of the Telecommunications
Industry Association (TIA-USA)
2 Parallelphonetrade is a registered trademark of Anritsu Corporation
3 Please contact our sales representative about LTE-A FDD DL CA
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Automation Tool covering 93 os Anatelrsquos
Requirements
71
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook
Copyrightcopy ANRITSU
Thank You
72
For more information on Anritsursquos products please visit
wwwanritsucom
or call
1-800-ANRITSU (267-4878)
Become a fan
on Facebook