xtran: excellence in transport -...
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XTran: eXcellence in TRANsport
OTN Systems XTran MPLS-TP based series
Introduction
The XTran network portfolio is designed for the power industry, railway authorities and other heavy industries that require an efficient packet based infrastructure. XTran network nodes are designed with specific mechan-ics and performance values to build a reliable multiservice network and comply to international standards as well as to the most demanding environmental standards like IEC 61850-3, IEEE 1613 and EN 50121-4.
Primary XTran features
• Rugged industrial design with no moving parts• Extended temperature range and EMC requirements• Compact, DIN-RAIL or 19” mountable • Modular• Front access• Supports meshed topologies• Hot pluggable power supplies• Substation compliance to IEC-61850-3• Highest reliability possible via dual common control• Sub 50ms protection switching in all network topologies (MPLS-TP)• Advanced monitoring capabilities based on MPLS-TP OAM enhancements• Advanced network management suite for total control during deployment, operation and maintenance• Built in features for fast deployment and easy replacement to reduce field interventions• Easy to install and maintain via TXCare and built in auto-configuration options• High level of security• Based on open and industrial accepted MPLS-TP standard
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MPLS-TP
The latest evolution of MPLS is called the Multi- Pro-tocol Label Switching - Transport Profile (MPLS-TP). This is the result of the joint effort by the Internet Engineering Task Force (IETF) and the International Telecommunication Union (ITU-T).
These new evolutions are used to make MPLS suited as transport technology. This is done by in-cluding Operation, Administration and Maintenance (OAM) tools that are well known in traditional trans-port technologies, such as SONET/SDH. Moreover, to inherit reliability and operational simplicity from SONET/SDH networks, MPLS-TP supports Auto-matic Protection Switching (APS) to provide 1:1 or 1+1 protection. It supports the static configuration of LSPs (label-switched paths) or PWs (pseudowires), by enabling SNMP based tools for service and cir-cuit provisioning.
MPLS-TP is the solution for new generation trans-port or aggregation networks for utilities. This is because MPLS-TP adds crucial elements to MPLS which make the network a perfect match:
• Transport-centric operational model based on a network management system and not based on an IP control plane: easy configuration resulting in low OPEX
• Protection switching triggered by OAM and not dependent on dynamic signalling or control plane liveliness: this significantly increases availability and predictability
• Comprehensive OAM fault and performance management: ability to ensure that strict timing requirements are met at service level
• A connection-oriented network with bidirectional label-switched and co-routed paths: guaranteed symmetrical delay under all circumstances
• Standard MPLS data paths and pseudowire constructs to allow dedicated programming and transparent connections between two points or multiple points
• Interoperability with Ethernet/IP, guaranteeing data-path interoperability and architectural soundness with IP/MPLS
Deployment scenarios
Depending on user requirements, the XTran portfolio can be used in at least two different scenarios. In both cases the XTran series ensures reliable and secure communication with low delay thanks to its connection oriented technology transmission paths with symmetrical delay.
The XTran node can perform all functions needed in an MPLS-TP network. The node can serve as an edge node where traffic is received on a LAN port, mapped into a pseudowire and forwarded to the correct label switched path on a WAN port. The label switched paths over the network are bidirectional and co-routed. This means a symmetrical delay under all circumstances which is important for time synchronization protocols or services that support teleprotection.
The different service types like E-LINE, E-LAN and Combinations allows the operator to create for each ap-plication a different logical network on top of the XTran physical infrastructure.
The entire setup of the network is fixed provisioned via a network management system (TXCare platform).
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Standalone operation
In standalone operation the XTran portfolio can be used to create an independent aggregation network that collects all necessary applications. In this setup you do not require any other network equipment in the core of the network. All necessary layer 2 and layer 3 features to build such a network are provided.
Aggregation for IP/MPLS
In this mode the XTran series is used to solve the complexity issue when an IP/MPLS core network is deployed from core to access. In this case the XTran portfolio is used to aggregate the traffic before it enters the core. A unified MPLS solution with IP/MPLS in the core and MPLS-TP in the aggregation or transport is made pos-sible due to the same pseudowire architecture and similar forwarding paradigm.
Key business benefits
The XTran portfolio is designed in such a way that you can create clever networks which are tailored to your environment. As a result the investment in the XTran portfolio is a safe investment.
Benefit DescriptionIntegrated functions Service segmentation, Authentication, Traffic shaping and Quality of
Service, Access router functions, large capacityRuggedized Compliancy with IEC-61850-3 and IEEE 1613, Fanless operation (no
moving parts)Scalability From Mbps to 10G aggregation of traffic. Scalability through MPLS-TP.Network management TXCare platform for user friendly and fast deployment of the network.
Supported by the automatic setup of the DCN and OAM features for continuous monitoring.
Network flexibility Its modular design and mounting options allows XTran to be deployed in various locations. Various redundancy schemes
Investment protection Long life cycle support 10G upgradable
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Benefit DescriptionLow TCO Fast deployment via auto configuration of DCN
Monitoring capabilitiesFast replacement feature (interchangeable flash memory)Hot swappable power supplies
Platform architecture and modularity
An XTran network is based on modular network nodes, which are interconnected via a fiber optic infrastruc-ture with speeds ranging from 1 Gbps to 10 Gbps (future) or copper-based cables covering several Mbps of capacity using SHDSL or E1/T1.
All applications are connected to the network nodes and a dedicated part of the infrastructure is devoted to each application. This enables the virtualization of all applications silos on a single physical network which is cost effective and secure.
Configuration and monitoring are carried out via a central point-and-click management system. This man-agement platform is connected to the network nodes via a dedicated in-band communication channel. The operator is guided through an extensive set of wizards, which enables coherent settings at network level.
The modular design allows the installation of today’s and tomorrow’s applications respecting the existing infrastructure. Modularity is the answer XTran provides to the multiple deployment scenarios required by utility customers.
The XTran portfolio meets the performance requirements you may expect as an operator. The modular design, chassis options and interface modules guarantees the investment in the XTran technology. This investment allows your network to grow in the legacy domain by adding new legacy modules or to grow in the future by adding more Ethernet features. The architecture of the XTran family is ready for all today’s and tomorrow’s demands. It grows together with your needs and at your pace.
Interface building blocks
Following interfaces are provided:
Name Description SpecificationNSM-1 Node Support Module • Alarm contacts for local notification (2 output contacts)
or alarm forwarding (2 input contacts) to the NMS.• Dual PoE power input for connecting an external
power over Ethernet source.CSM310-A Central Switching Module • Dual core CPU.
• MPLS-TP compliant switching fabric.• Synchronization via Sync-E.• Hardware support for time distribution via 1588
(Boundary and transparent clocking).• Y.1731 performance monitoring.• Automatic Protection Switching based on BFD.• ERPS ring protection for multipoint Ethernet services.• Easy CSM replacement feature via removable Micro-
SD Quick replace the CSM board in the field without manual reconfiguration.
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Name Description Specification4-GC-LW Gigabit Ethernet Interface • 3 x 10/100/1000 Cu Gigabit Ethernet ports.
• 1 x Combo 10/100/1000 Cu or 100/1000 Gigabit fiber port (SFP based).
• Sync-E, 1588v2• PoE according to 802.3at.• Operation as WAN or LAN per port.
1-10G-LW 10 Gigabit Ethernet Interface • 1 x 10gigabit Ethernet port• Sync-E, 1588v2• Operation as WAN or LAN
4-DSL-LW SHDL Interfaces • 4 x SHDSL ports.• Support for channel bonding.• Concentrator for demarcation devices• EFM based on 802.3ag.• Compliant with ETSI TS 101 524.• Protection according to ETSI EN300386 / ETSI ES
201 468.• LAN or WAN operation.
10-GL3-L Gigabit Ethernet Layer 3 • 10xGigabit Ethernet ports• Operate as LAN• Multiple VRF• VRRP, PIM-SM, OSPF v2
4-E1T1-L E1/T1 Interface - LAN • 4 x E1 or T1 ports• 64 kbps cross connect per card.• Up to 16 independent circuit emulated streams.• Circuit emulation according to CESoPSN or SAToP• Hitless switching (zero packet loss switchover
between active and backup connection).• LAN operation.
2-C37.94 C37.94 Interface • 2 x C37.94 ST ports• 2 x E1 or T1 RJ45 ports• Timeslot manipulation• Circuit Emulation Streams
2-CHA-LW SDH/SONET interface • Sonet/SDH selectable: OC3/12 or STM1/4• Up to 63 VC-12• Up to 256 streams CESoP/SAToP• 1+1 interface protection• MSSPRING
4-4WEM-L 2W and 4W voice card with E&M signaling • 4 x independent interfaces per card
• -48V for E&M signaling• Support SAToPSN and CESoPSN• Compatible with G.704 framing
7-SERIAL Serial interface card • up to 7 serial ports• configurable per port: RS233/422/485 Async or X.21,
V.35, RS232 Sync• CES mode with mapping into time slots• Portserver mode (RS to IP)
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Node building blocks
The XTran portfolio consists of 3 three different node types: XT1104A, XT2206A and XT2210A.
Name DescriptionXT1104A 1 PSU slot, 1 CSM slot, 4 interface positionsXT2206A 2 PSU slots, 2 CSM slots, 6 interface positionsXT2210A 2 PSU slots, 2 CSM slots, 10 interface positions
XT1104A
XT2206A
XT2210A
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All nodes are modular and can be mounted 19”or DIN Rail depending on the needs. Chassis 2210 and 2206 can be equipped with dual power supplies and dual Central Switching Modules for redundancy purposes. Chassis 1104 is ultra-compact and can host a single power supply and one Central Switching module.
All chassis are equipped with a node support module which hosts common functions like I/O contacts and inputs for power over Ethernet.
The XTran portfolio currently supports Gigabit Ethernet, E1/T1 and SHDSL interfaces to pick up applications or create the WAN interfaces for the network. Other legacy interfaces will be available soon like RS232, 422, 485, X.21, V.35, C37.94…)
The capacity per slot depends on the type of CSM card. It is therefore imperative to ensure that the interface cards are installed in the slot with the right capacity assigned to it. There are three different slot modes:
• 1G mode: The CSM activates a single Gigabit Ethernet port in the slot. This slot type is typically used for the low speed interfaces (4-DSL-LW, 4-E1T1-L)
• 4x1G mode: The CSM activates 4 gigabit Ethernet interfaces in the slot. This slot type is used for the gigabit Ethernet interface module (4-GC-LW)
• 10G mode: The CSM activates a 10G interface in the slot. This slot is used for a 10G interface module (future)
CSM310A possible slot configurations:
Slot 1 2 3 4 5 6 7 8 9 10
XT2210A1G 1G 1G 1G 1G 1G 1G 1G 1G 1G
4X1G 4X1G 4X1G 4X1G 10G 10G 10G 10G 4X1G
XT2206A1G 1G 1G 1G 1G 1G
4X1G 4X1G 4X1G 4X1G 10G 10G
XT1104A1G 1G 1G 1G
4X1G 4X1G 4X1G 4X1G
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Power options
The XTran nodes can be powered via one or two internal, hot pluggable power supplies. The power supplies have a wide input range. In case two power supplies are installed, they work in a load sharing mode. A single power supply has the capacity to power the entire chassis.
Name DescriptionACP-A • Input range: 90-264VAC
• Output Power: 175W
DCP-A • Input range: 18-60VDC• Output Power: 175W
DCP-B • Input range: 88-300VDC• Output Power: 175W
In case Power over Ethernet is needed an external PoE power supply must be attached via the NSM module. The two connectors allow operation in load sharing mode.
Demarcation device
The XTran portfolio also contains a DSL demarcation device. This device is in-tended to be connected to the DSL inter-face board as spur, a dual homed spur or chained to other demarcation devices. In case of chaining or dual homing the links can be protected to increase reliability.
Description SpecificationDSL ports 2
Ethernet ports 4x 10/100 Fast Ethernet port
Power options 2x18-72 VDC
DSL features • EFM-C (802.3ah)• ITU-T G.991.2 Annex G – 3.8 Mbps (TCPAM-16) 5.7 Mbps (TCPAM-32)• Compliant with ETSI TS 101 524• Protection according to ETSI EN300386 / ETSI ES 201 468
Ethernet features • 802.1Q – VLAN tagging• Port security (ACL)• 802.1x via RADIUS authentication• ITU G.8032 ERP• MSTP
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Description Specification
OAM features • Y.1731 performance management• 802.3ah• Dying Gasp
Management • CLI SNMP• Alarm contacts for triggering local alarms or forwarding local alarms
Managing your network with TXCareA network is a complex interworking of different nodes that require a lot of attention. It is imperative that this is planned carefully and thoughtfully. Network configurations should be done without adversely affecting your running applications. Network failures need to be detected, diagnosed and repaired. Service Level Agreements should be monitored and ensured. For security reasons it is important that users are logged and an audit trail is created. The OTN-Systems knowledge centre has taken all these aspects very seriously and under the XTran product family provides you with the TXCare management system
‚Takes‘-Care management has taken the fea-tures of the RFC 5951 and turned them into a workable Network Management System.
• C = Configuration management
• A = Assurance management
• R = Resilience management
• E = End-to-End management
This is a fully integrated element management and network management. The TXCare can be fully adjusted to your IT infrastructure, it has a modular design and gives the opportunity to either run on one server or spread the load over multiple servers. It runs in a Windows based environments with servers and clients.
Configuration
Under configuration OTN Systems understands an easy and rapid deployment of a new network, an auto-matic discovery of an existing network and the possibility to add nodes to a network without hassle. The operator is able to map his network unto a map and even the physical paths of the fiber can be shown on the same map. Security is of the utmost importance.
We give the choice to accomplish this in two ways. The first way is to make a configuration offline. Through a visual representation of the node the operator can add interface modules and set the port configura-tions (see fig.3). The physical connections, whether fiber or copper, can be made to the front ports of the interface modules.
The second way is through a dedicated management channel (DCN). Management IP addresses are au-tomatically given out to the deployed network upon startup. The in band communication channel is auto
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established between the different nodes. From a single location the TXCare will connect to all the individual nodes, interface modules and connection links. Thereupon a logical display of your network will be made available and the operator can start configuring the network further.
After the nodes, interface modules and links are created TXCare is ready to be further configured. Tunnels (Label Switched Paths) and Services (Pseudowires) are created through wizards. These wizards guide you through the different logical steps for a well-functioning network. This includes parameters like bandwidth, quality of service, protection, delay, paths… The operator is able to overrule the suggested parameters and fine tune the network to reach a better performance.
Layouts are used to further personalize the views on the network. These could be multiple logical as well as physical views. A picture file could be used as background and the nodes and fiber links are be mapped on it. Multiple views can be created and be used in the monitoring tab.
Monitoring
Advanced monitoring capabilities based on the OAM performance and fault management information. This gives a complete overview of the network in the layout that was setup in the configuration tab.
TXCare works with three layers of views. The first layer (in orange) are the physical connections, the fiber or copper links between the nodes or coming from applications. The second layer (in blue) are the tunnels or LSPs which run over the physical cables. The third layer (in yellow) are the services (Pseudowires) which on their turn run inside the tunnels. At any given time the operator will see what is going on with the net-work and what application that are or will be affected. Alarms are displayed, the working and protect path, the logical ring with the standby link etc… are just a few of the many features available in this application.
The events tile will give a complete overview of the undertaken action on the network. It provides an event log (system events) and an audit trail (user actions) to allow a reconstruction of actions that took place in the network and by whom.
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Alarm is a self-explanatory display of the alarms in the network. Four levels of alarms are defined depend-ing on the degree of failure.
The performance of your network can be seen through the counters tile. It will contain information on the way the data packets are send over the network. Charts are very useful in establishing the SLA’s.
Administration
All administrative tasks are in this part of TXCare. User management allows to create multiple user with different rights. Depending on the responsibilities and task description of the user, degrees of access will be given to the network. At all-time a trail will be kept of the actions the person has taken on the network. TXCare contains a network database with all kinds of information: node names, node configurations including installed network and interface cards. The database is based on Microsoft SQL technology. It is possible to use the database to restore the network in case the setting in one or more nodes are lost due to hardware failure. An overview of the services are possible and the individual services can be started or stopped. This gives you full control of your IT infrastructure.
Tools
TXCare servers and hardware can configured fully redundant. Database synchronization and redundancy via warm standby. Southbound interface is based on SNMPv3 including third party elements for monitoring. Northbound interfaces could be used for integration in umbrella management systems for alarm forwarding or monitoring; ex. OPC, SNMP…The firmware of the network en interface modules can be performed from any point in the network. These are upgrades simultaneously based on best effort network load. TXCare provides a full report of all the network elements and their firmware status.
Northbound integration
The north bound interfaces are organized as add-on software modules on the TXCare platform which receive their information through the TXCare server and forward the information if needed to the umbrella management layer.
The reason why we have chosen to always pass through the TXCare server is because in this setup the security and central login can be organized from a single point of configuration, just like any other client login.The north bound interface is always intended for monitoring only. In case there is a requirement for configuration through this interface we provide a client sensitive start up where the operator can open a normal TXCare client with a direct browse to the specific network element. The reason for only allowing to monitor the network via this information is to guarantee consistency and avoid configuration failures which might jeopardize the reliability of the network.OTN Systems is flexible developing north bound interfaces. Over the years we have done all kinds of integrations which vary between simple I/O contacts to forward alarm over serial connections to SNMP forwarding.
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Security
The XTran portfolio focuses on security features relevant for the utility industry. Based on the implemented standards the XTran ensures the connectivity and defends the network from unwanted access. It also provides the necessary logging and audit trails to guarantee compliancy with local legislation.
The security measures can be easily explained using RFC 5920 (MPLS/GMPLS Security Framework).
• Attacks on the control plane: � The XTran portfolio uses the MPLS-TP standard and does not rely on a dynamic control plane for
setting up or maintaining the network performance. Instead of a control plane the XTran network is managed through a network management layer. All management traffic is exchanged via an in band communication channel deployed over the XTran network. So it is not possible to fake signalling or reservation protocols which might lead to cross connecting VPN’s to tap traffic
� All traffic that is exchanged over the DCN is encrypted via IPsec. This ensures that no hacking is possible to take control over the network
• Attacks on the data plane � Unwanted access on user ports can be prevented via ACL’s (Access Control Lists) and or 802.1x via
RADIUS authentication. � The MPLS-TP network standard guarantees end-to-end delivery via CRC check on each transmission
path between XTran nodes. � Encapsulation of user data in pseudowires (Ethernet over MPLS over Ethernet) allows for CRC check
on user data by the end-devices � Denial of Service is avoided through traffic shaping and traffic engineering via the network
management system. � 100% provisioning of the network with sub 50ms reconfiguration in case of network failure on pre-
provisioned backup paths.• Attacks on the Management Plane
� SNMPv3 management to the network elements � Encryption of DCN channel (IPsec) � Radius authentication within TXCare platform � User management � Logging, reporting, audit trail
Protocol support
MPLS-TP compliancy (IETF/ITU)
• RFC5654: Requirements of a MPLS Transport Profile• RFC5462: Multiprotocol Label Switching (MPLS)• RFC5586: MPLS Generic Associated Channel• RFC5860: requirements for MPLS-TP• RFC5718: an in-band communication channel• RFC5950: network management for MPLS-TP• RFC5951: network management requirements for MPLS-based transport networks• RFC6372: MPLS-TP Survivability Framework• RFC6426: On demand connectivity verification• RFC6428: Proactive connectivity verification
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ITU
• G.8032 ERP
IETF
• RFC 2338 VRRP• RFC 2328 OSPFv2• RFC 2362 PIM-SM• RFC 1112 IGMP V1• RFC 2236 IGMP V2• RFC 3376 IGMP V3
IEEE
• 802.1s MSTP• 802.1w RSTP• 802.1D STP• 802.1Q VLAN• 802.3 10 BASE-T• 802.3z 1000 BASE-SX• 802.3z 1000 BASE-LX• 802.3z 1000 BASE-EX• 802.3z 1000 BASE-ZX• 802.3u 100 BASE-T• 802.3u 100 BASE-FX• 802.3ab 1000 BASE-T• 802.3-2008 10G-SR, LR, ER• 802.3x Full duplex on 10BASE-T, 100 BASE-TX and 1000 BASE-T• 802.3ad Link aggregation• 802.3at Power Over Ethernet
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Specifications
Characteristics
Name Description SpecificationUtility design Ruggedized design Extended temperature range: -20° to
+65°C (-4° to 149°F)XTD: -40° to +70°C (-40° to 158°F)Compact design (19”or DIN Rail mountable)Cu and fiber optic connectivityAlarm contacts for local alarm triggering or forwarding of local alarmsLegacy and Ethernet connectivity
Availability and scalability Hot pluggable power supplies50ms automatic protection switching (MPLS-TP)Hot pluggable interface boardsDual CSM for highest availability designs100% traffic engineering of services
MPLS-TP service types E-LINE Point to point service (VPWS)E-LAN Multipoint (VPLS)Ring Logical Ethernet RingProtection schemes 1:1, 1+1, ERP logical rings
Ethernet capabilities L2 Ethernet aggregation MSTP (multiple spanning tree)Multicast handling through IGMPVirtual forwarding instancesVLAN handlingBroadcast and multicast storm control
IP Routing Unicast routing protocols (OSPF)Multicast routing protocols (PIM-SM)Redundancy schemes VRRPIndividual routing schemes VRFInter VLAN routing
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Name Description SpecificationQoS 3 level hierarchical scheduler
4k Flexible queues2 rate, 3 color ingress policing802.1p priority evaluation (VLAN priority)Differential services based on IP headerHandling of priority queues Strict Priority Based, Weighted Deficit Round Robin scheduling
Network security Node IEEE 802.1x authentication (RADIUS)Access control lists based on MAC and IP addresses (black/white list)IPsec encryption of the DCN trafficConnection oriented networkDisable unused portsConnection oriented network (logical separation of services)
TX-Care Radius authentication for client server operation
Manageability Monitoring and configuration Auto provisioned and auto setup DCN for managementSNMP v1/v2/v3Management port on each CSM module2 input contacts allowing forwarding of local alarms to the TXCare platform
2 output contacts for local triggering of alarmsRemovable memory allowing easy replacement of CSM in the field
OAM Hardware supported OAMAutomatic protection switching via BFDPerformance monitoring based on Y.1731EFM support based on 802.1ah1k Local MEP, 4k Remote MEP
Indicators CSM Display Network ID, loadware version, fault codes
LED’s Status LEDs for power inputs and general status of interface boardsSpecific LEDs per interface card: link, synchronization, speed…LAN or WAN operation
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Name Description SpecificationPerformance indicators High performance switching
fabricNon-blocking 64 Gbps MTU up to 9k8k Routing entries32k MAC addresses4k IP Multicast entries2k Labels512 bidirectional pseudowires1k virtual forwarding instances128 VRF instances
Dimensions XT-2210-A: H=132,5mm/W=434mm/D=210mmXT-2210-A: H=5.21 in/W=17.08 in/D=8.26 inXT-2206-A: H=132,5mm/W=354mm/D=210mmXT-2206-A: H=5.21 in/W=13,93 in/D=8.26 inXT-1104-A: H=132,5mm/W=214mm/D=210mmXT-1104-A: H=5.21 in/W=8.42 in/D=8.26 in
Power consumption CSM-310-A (25W), 4-GC-LW (8W), 4-DSL-LW (10W), 4-E1T1-L (7,3W), NSM-A (2W)
Environmental
Phenomena Test Description Test Levels ClassImmunity (according to IEC61850-3)
ESD EN 61000-4-2 Enclosure contact + 6 kV B Enclosure air + 8 kV B RF field AM modulated
IEC 61000-4-3 Enclosure 10 V/m 80% AM (1 kHz), 80 – 1000 MHz
A
20 V/m 80% AM (1 kHz), 800 – 1000 MHz10 V/m 80% AM (1 kHz), 1400 – 2100 MHz5 V/m 80% AM (1 kHz), 2100 – 2500 MHz1V/m 80% AM (1 kHz), 2500 – 2700 MHz
Fast transient EN 61000-4-4 Signal ports + 4 kV B Power ports + 4 kV B
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Phenomena Test Description Test Levels Class Surge EN 61000-4-5 Signal ports + 4 kV line to earth,+ 2 kV line
to line C
AC Power ports + 4 kV line to earth, + 2 kV line to line
C
DC Power ports + 2 kV line to earth, + 1 kV line to line
C
RF conducted EN 61000-4-6 Signal ports 10 V 80% AM (1 kHz), 0,15 – 80 MHz
A
Power ports 10 V 80% AM (1 kHz), 0,15 – 80 MHz
A
Power frequency magnetic field
EN 61000-4-8 Enclosure (XT2210A, XT2206A, XT1104A)
100 A/m continuous A
EN 61000-4-8 Enclosure (XTD-4-D)
300 A/m continuous A
EN 61000-4-9 Enclosure 1000 A/m pulse CVoltage dips EN 61000-4-11 AC Power ports 30% 1 cycle B
60% 50 periods C
Voltage interruptions
EN 61000-4-11 AC Power ports 100% 5 periods C
100% 50 periods CDamped oscillatory wave
EN 61000-4-12 Signal ports 2,5 kV common mode, 1 kV differential mode
B
Power ports 2,5 kV common mode, 1 kV differential mode
B
Mains freq. voltage EN 61000-4-16 Signal ports 30 V continuous A300 V pulse C
DC Power ports 30 V continuous A300 V pulse C
AC voltage ripple EN 61000-4-17 DC Power ports 10% of voltage level A Voltage dips and interruption
EN 61000-4-29 DC power ports 30% and 60% reduction for 100 ms
C
100% reduction for 50 ms CImmunity (According to IEEE 1613)
ESD C37.90.3 Enclosure 2, 4, 8 kV class 1RF Field AM Modulated
C37.90.2 Enclosure Freq sweep test 20V/m 80% Amplitude Modulated @ 1kHz
class 1
Enclosure Keying test: 20V/m Pulse Modulated 100% 0,5sec on 0,5sec off
class 1
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Phenomena Test Description Test Levels Class Enclosure Spot frequency test: 20V/m, for
< 900 MHz 80% AM, for 900 MHz PM 50% @ 200 Hz
class 1
Fast transient C37.90.1 Power ports & output ports
4 kV CM, 4 kV TM class 1
Digital data ports 4 kV CM class 1Damped oscillatory wave
C37.90.1 Power ports & output ports
2,5 kV CM, 2,5 kV TM class 1
Digital data ports 2,5 kV CM class 1HV Impulse C37.90 Circuits rated >
50V5 kV
Dielectric strength C37.90 Signal port to other isolated port
1500 Vrms 50 Hz 1min
Signal port to other isolated port
1500 Vrms 50 Hz 1min
Signal port to ground
2000 Vac rms
Fast transient EN 61000-4-4 Signal ports 2 kV A Power ports 2 kV A Surge EN 61000-4-5 Signal ports 2 kV line to earth, B
1 kV line to line
AC Power ports 2 kV line to earth, B1 kV line to line
DC Power ports 2 kV line to earth, B1 kV line to line
Emission Radiated emission EN 55022 Enclosure Class A and Class B
EN 55016-2-3 Enclosure Class A and Class B FCC part 15 Enclosure Class A and Class B
Conducted emission
EN 55022 DC power ports Class A and Class B
TemperatureOperating temperature
Operating (XT2210A, XT2206A, XT1104A)
–20 to +65ºC (fan less) (-4° to 149°F)
Operating (XTD-4-D)
–40 to +70ºC (fanless) (-40° to 158°F)
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Phenomena Test Description Test Levels ClassOperating temperature: cold
60068-2-1 Operating (XT2210A, XT2206A, XT1104A)
-20ºC (-4°F) Ad
60068-2-1 Operating (XTD-4-D)
-40°C (-40°F)
Operating temperature: dry heat
60068-2-2 Operating (XT2210A, XT2206A, XT1104A)
+65ºC (149°F) Bd
60068-2-2 Operating (XTD-4-D)
+70°C (158°F)
Non-operating temperature: cold
60068-2-1 Non-operating (XT2210A, XT2206A, XT1104A)
–30ºC (-22°F) Ab
60068-2-1 Non-operating (XTD-4-D)
-40°C (-40°F)
Non-operating temperature: dry heat
60068-2-2 Non-operating (XT2210A, XT2206A, XT1104A)
+75ºC ( 167°F) Bb
60068-2-2 Non-operating (XTD-4-D)
+85°C (185°F)
Humidity 60068-2-30 Operating 5 to 95% relative humidity Vibration and Shock
Vibration 60870-2-2 and Operating 3 mm displacement 2-9 Hz 60721-3-3 or -4 10m/s^2 (~1 g) 9-200 Hz
15m/s^2(~1.5g) 200-500 Hz Vibration 60255-21-1 Operating 3 and 5mm displacement 2-9
Hz
60068-2 10m/s^2 (~1 g) 9-150 Hz Shock 60870-2-2 and
60721-3-3 or -4 Operating 11 ms half-sine duration
peak accel. 100m/s^2 (10g) Shock 60255-21-1 Operating 6 ms half-sine duration
60068-2 peak accel. 150m/s^2100 shocks per 6 directions
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Ordering Information
Hardware
Interface Module Order Number
XT-2210-A S30926-B2210-X1
XT-2206-A S30926-B2206-X1
XT-1104-A S30926-B1104-X1
ACP-A V30912-A5020-A1
DCP-A V30912-A5020-A2
DCP-B V30912-A5020-A3
NSM-A S30924-Q100-X101
CSM310-A S30924-Q500-X101
4-DSL-LW S30924-Q200-X101
4-E1T1-L S30924-Q201-X101
1-10G-LW S30924-Q202-X101
4-GC-LW S30924-Q203-X101
XTD-4C-D S30928-B1-X1
2-C37.94 S30924-Q204-X101
4-4WEM-L S30924-Q205-X101
7-SERIAL S30924-Q207-X101
Serial Drop cable (3m) - 2 per card S90927-C6-A30
2-CHA-LW S30924-Q211-X101
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Optical modules
SFP Type DistanceSFP 850nm - SX Typical distance: 1,5 km / 0.9 miles
SFP 1310nm - LX Typical distance:3 km / 1,8 miles
SFP 1310nm - EX Typical distance: 32 km / 20 miles
SFP 1550nm - ZX Typical distance: 70 km / 43.5 miles
SFP 1550nm - DWDM C-band Typical distance: 80 km / 50 miles
SFP 1550nm - DWDM C-band Typical distance: 120 km / 74.5 miles
SFP 1310 nm - BIDI Typical distance: 20 km / 12.5 miles
SFP 1550nm - BIDI Typical distance: 20 km / 12.5 miles
SFP 1310nm - BIDI Typical distance: 40 km / 24.8 miles
SFP 1550nm - BIDI Typical distance: 40 km / 24.8 miles
STM1/4-I optic SFP module Typical distance: 0.5 km / 0.31 mile
STM1/4-S1 optic SFP module Typical distance: 15 km / 9.3 miles
Software/Loadware
Name Order Number
OS License (one per node) OS License
Redundancy lic. (one per node) Redundancy License
TXCare license(one per node) up to 100 nodes TXCare Node License XT-2210-A
TXCare Node License XT-2206-A
TXCare Node License XT-1104-A
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Disclaimer: OTN Systems NV has written this document with the greatest care. Nevertheless, information published here may be incomplete, outdated or no longer correct. OTN Systems NV may amend published information at any time, without being required to give notice.
Liability:Users may not derive any rights from information published in this document. OTN Systems NV does not accept any liability for the contents and use of this document, or for any damage or losses resulting from its use. This Data Sheet is subject to change without notice.
Ref. No.: BA-S423-E-5Issued October, 2013.