Department of Electronics & Communication Engg.B.I.T. Sindri, Dhanbad

Summery of Equipment list.

Req. Set No.

Lab Remarks

1 VLSI 2 Microprocessor3 DSP4 State of Art. (Calibration Lab.) 5 Communication6 Project and Research7 Microwave and RF Lab.

1. VLSI and Analog Circuit Design Lab.

Si. No

Description of the Items Unit Approx Price Remark

1. VLSI-FPGA Board:Xilinx Artix 7 Nexys 4 DDR Board with acessories:- 1.Pmod KYPD- 16-button Keypad-1 Nos 2.Pmod CLP- LCD,Parlell Interface- 1 Nos 3.Pmod CLS- LCD,Serial Interface-1 Nos

per Boards

2. Software: Prerequisite for all boardsUniversity VIVADO System Edition Software (25 User License,Permanent Software,latest Version) &UEF-SDSOC (25 User License,Permanent Software,latest Version)

25 user

3. Embedded System and Signal Processing:Xilinx Zynq 7 series Zedboard with acessories:- 1.PMOD AD2- 4 channel 12 bit ADC- 1 Nos 2.PMOD AD5- 24 bit ADC-1 Nos 3.PMOD DA3- 16 bit DAC-1 Nos 4.PMOD DA4- 8 channel 12 bit ADC- 1 Nos

Per unit

4. Audio Processing:Xilinx Kintex-7 FPGA KC705 Evaluation Kit With:a)AMS 101 Evaluation Card b)Ethernet Cable c)HDMI Cable d)Micro USB Cable e)USB Mini Cable f)PowerCords and Adapter

Per unit

5 Image Processing:Xilinx Zynq UltraScale+ MPSoC ZCU104 Evaluation Kit (Part Number:-EK-U1-ZCU104G) Included:- a) Access to a full seat of Node Locked Vivado®Design Suite: Design Edition - 1 Nos b) 1080p60 USB3 Camera- 1 Nos c) ZCU104 Evaluation Board- 1 Nos d)Ethernet Cable- 1 Nos e) 4-Port USB 3.0 Hub- 1 Nos f) Power Cord and Adapter- 1 Nos

Per unit

2. Microprocessor Lab.

Micro processor LaboratorySl No. Name of the Experiment & Specification Quantity Unit

Price(INR)1. 1. Study of 8085 Microprocessor with interface and study card

Technical Specification

Training & development kit with following features ;

High performance 8 bit 8085A CPU @ 3 MHz. Onboard 40x2 /16x2 / 20x4 LCD Interface options. On Board USB interface hardware. 16K powerful monitors FIRMWARE Including all standard

commands, codes, functions and utility subroutines, Assembler and Disassembler. 4K has been used for system firmware.

8K user RAM 6264 with battery backup for sockets using 3.6V Ni-Cd Battery.

Three 28 pin sockets provided for memory expansion up to a maximum of 56 K

Versatile Keyboard/Display controller using 8279 brought out on separate FRC connector.

24 Parallel I/O lines from 8255 are brought out on separate FRC connector.

22 Parallel I/O lines from 8155 are bough on separate FRC Connector. 2k-bit static RAM (256 bytes) and a timer also available.

On board 40x2 LCD display & connector for 104 Key Standard PC-compatible Keyboard.

Three 16 bit Timer / Counter channels are available on-board, using 8253. These channels are available on a 10 pin FRC connector.

Serial I/O through auto adjusting type RS-232 channel. Built-in audio cassette interface All address, data and control and hardware interrupt lines are

brought out on a Pin FRC connector for system interfacing and expansion.

All DYNA Study & PIO Cards are supported by this trainer kit. Switch Mode Power Supply : +5v 1A, +12v 1A, -12v 0.5A Supplied in attractive wooden enclosure. Documentation includes User Manual with details Cable & connector set for interfacing

Per unit

2. Study of 8086 Microprocessor

Technical Specification 8086 CPU operating @ 8 MHz in maximum mode. Onboard 40x2 /16x2 / 20x4 LCD Interface options. Onboard USB Interface Hardware

• Socket provision for co-processor. • 8284A clock generator. • 8288A bus controller. • Powerful monitor firmware in two 27256 EPROM’s(64 KB) organised as 16 bit words. Monitor EPROM’s expandable to 128 KB using two 27512 EPROM's. • 64 KB Static RAM in two 62256 RAM's organized as 16 bit words with battery back-up for data retention. • 40 X 2 LCD display & IBM compatible keyboard. • On-board 8254 timer/counter chip. Out of 3 channels of timer/counter to the user through a 7 pin relimate connector. • 48 TTL I/O lines using two 8255 PPI chips and all signals terminated on two 26 pin FRC connectors. • Printer interface provided through another 26 pin FRC connector. • RS-232C compatible serial port using 8251 and all serial terminated on 9 pin D-type male connector on the rear of Kit. • Software selectable baud rates 300 to 9600. • All 8086 bus signals terminated on 50 and 20 pin FRC connectors. • The peripheral Study Cards can be interface on 50 pin FRC bus. • 3.6 V Ni-Cad battery back-up circuit for static RAM’s. • Two modes of operation : > Monitor mode : Using on board Assembler / Dissasembler using the IBM compatible keyboard. > Serial Mode : Through RS-232 serial port with a terminal. •Supplied with Attractive wooden enclosure. • Switch Mode Power Supply : +5V 3A, +12V 1A, -12V 0.5ADocumentation includes User Manual with detailsCable & connector set for interfacing.

Per unit

Sl. No. Item

STUDY CARDS / PERIPHERAL INTERFACE CARDS (optional cards for Interfacing)

1 STUDY-8155 8155 Study Card.

2 STUDY-8255 8255 Study Card.

3 STUDY-8253 8253 Study Card.

4 STUDY-8251 8251 Study Card.

5 STUDY-LBDR Latch, Buffer, Decoder, RAM Study Card

6 STUDY-8259 8259 Study Card.

7 STUDY-8279 8279 Study Card.

8 STUDY-8237/57 8257/8237 DMA Control Study Card.

9 STUDY-TRAFFIC Traffic Control Study Card.

10 STUDY-DCM DC Motor Control Study Card.

11 STUDY-THUMBWH Thumbwheel control Study Card.

12 ILCV2CONV Converter for ILCV2 Bus to Study Card Compatible Bus

13 PIO-ADC01 8 bit, 1 channel A to D Converter Study Card

14 PIO-ADC08 8 bit, 8 channel A to D Converter Study Card.

15 PIO-ADC7109M 12 Bit, A to D Converter Study Card.

16 PIO-DAC01 D to A Converter Study Card.

17 PIO-SERDISP Display Interface Study Card.

18 PIO-ELESIM Elevator Simulator Study Card.

19 PIO-HEXPAD Keyboard Simulator Study Card.

20 PIO-LCI Logic Controller Study Card.

21 PIO-ADC7109S Multiplexer card with instrumentation amplifier.

22 PIO-OPTORLY Relay, Opto-isolator study card

23 PIO-RT/TC Temperature control study card

3. DSP Lab.

Digital Signal Processing Laboratory

Sl No. Name of the Experiment & Specification Quantity Unit Price(INR)

1. Introduction to multirate signal processing Application of DSP Per unit

Technical Specification TMS320C6748 micro controller (200MIPS/180MHz) based on

ARM926EJ-S core. DDR-II SDRAM – 128MB, 16 bit NAND FLASH – 4Gb, 16 bit Stereo Audio CODEC – Audio In, Audio Out, MIC In Video Decoder VGA Out USB to Serial Interface DIP Switch Status LED’s 10/100 Mbps Ethernet with RJ45 Jack One USB HOST One USB OTG Micro SD/MMC Connector SATA Connector 14 Pin JTAG Header Expansion Header Reset Push Button Power Management 5V/1.5A Power Supply Adapter Dimension – 180 x 155 mm JTAG Emulator

Applications : Building Automations Security and Access Control Application Home Entertainment Industrial Automations Consumer Electronics

4. New state of art Lab. (CALIBRATION)

A. Temperature Calibration System

S.N. Description Qty Unit Price(INR) 1. Dry Block Calibrator covering

temp range -25°C to 155°C with HART Communication and PROFIBUS. As per attached datasheet

Per unit

2. Furnace covering temp range 50°C to 1200°C. As per attached datasheet

Per unit

3. Industrial RTD 1/5 DIN R probe. As per attached datasheet

Per unit

B. Pressure Calibration System

S.N. Description Qty Unit Price(INR) 1. Handheld Pressure Pump to

generate pressure 0 to 10,000 PSI. As per attached datasheet

Per unit

2. Pressure Calibrator measure pressure 0 to 700bar. As per attached datasheet

Per unit

C. Electrical Calibration System

S.N. Description Qty Unit Price(INR) 1. 6 ½ digit DMM. As per attached

datasheet Per unit

2. Multi function calibrator Per unit

3. 50 turn current coil Per unit 4. Terminal Adaptor for tested

multimeter Per unit

Calibration Lab Technical Specification

Pre-Qualification Criteria

1. The vendor should quote for the entire system (part offer will not be accepted).2. The quoted product should be supplied with Accredited Calibration Certificate.3. The quoted product in the current manufacturing range and should be available in website (no

custom made products will be entertained).

01 Temperature Calibration SystemTemperature Source

Temp range: -25°C to 155°C or betterAccuracy: + 0.1°C with internal reference and + 0.7°C with external reference or betterResolution: 0.01°C or betterStability: + 0.02°C or betterAxial Uniformity( upto 40mm): + 0.05°C or betterRadial Uniformity: + 0.01°C or betterHeating Time: 30min or less from ambient to 140°CCooling Time: 20min or less from 25°C to -25°CInput Supply: 230V, 50HzThe instrument should be have built in process option( RTD,TC and Transmitter connection facility. Also Loop power and 4-20mA measurement facility and PROFIBUS and HART communication facility)

Temp range: 150°C to 1200°CAccuracy: + 2.5°C or better with internal sensorResolution: 0.1°C or betterStability: + 0.2°C or betterRadial Uniformity: + 0.05°C at 50°C or better/ + 0.18°C at 650°C/+ 0.25°C at 1100°CAxial Uniformity(40mm): + 0.05°C at 50°C or better/ + 0.18°C at 650°C/+ 0.25°C at 1100°CHeating Time: 60min( from 150°C to 1200°C)Cooling Time: 5hr or lessInput Supply: 230V, 50HzThe instrument should be have built in process optionTemperature SensorTemperature range: -200°C to 420°CResistance: 100Ω at 0°CTemperature Co-efficient: 0.00385Ω/Ω/°CSheath Material: Compacted mineral insulated of high purity sheath in 316 stainless steelInsulation Resistance: > 100MΩ @ 50Vdc @ 23°CLong Term Drift: + 0.035°C@ 0°C after 100Hr use or betterAccuracy: + 0.02°C @ -38°C / + 0.06°C @ 0°C /+ 0.3°C @ 232.0°C/ + 0.5°C @ 420°CMaster Thermocouple should be supplied with Temperature Calibration System

02. Pressure Calibration SystemPressure CalibratorThe Pressure calibrator should be portable and have facility to upgrade upto 4 pressure input sensor. The pressure calibrator have pressure measurement range of 0 to 700bar with accuracy of 0.025%FS. The pressure calibrator can measures pressure, mA and volts and generates mA and volts and provides a 24 Vdc power supply for 2-wire transmitters, and contact input for pressure switch verification and also temperature input.The instrument should have real time data acquisition capability when connected with PC. The pressure calibrator shall be supplied with

handheld pressure pump to generate pressure 0 to 700bar connector and hose.Specification:Input rangeVoltage: -10 to 45V with resolution of 0.0001V and accuracy of 0.02%FS or bettermA: -5 to 24.5mA with resolution of 0.0001mA and accuracy of 0.02%FS or betterOutput rangeVoltage: -1 to 11V with resolution of 0.0001V and accuracy of 0.02%FS or bettermA: 0 to 22mA with resolution of 0.0001mA and accuracy of 0.02%FS or betterPressure Unit: The instrument can display the pressure in psi, atm, kgf/cm2, inH2O, mH2O, cmH2O, mmH2O, inHg, cmHg, mmHg, bar, mbar, Pa, kPa and torr.The instrument should be supplied with carrying case, test leads, manual and battery charger

03. Electrical Calibration SystemMultiproduct CalibratorTechnical Specification:DC VoltageRange(Source): 0 to 1000V or betterAccuracy(best): + 30PPM/Year or better

AC VoltageRange(Source): 1mV to 1000V(20hz to 50KHz) sinusoidal and Non sinusoidal waveforms Accuracy(best): + 250PPM/Year or better

DC CurrentRange(Source): 0-20Amp(1000 Amp using current Coil) or betterAccuracy(best): ± 100 ppm / year or better

AC CurrentRange(Source): 1 uA - 20 A, 20 Hz - 5 kHz (1000 A using current coil)sinusoidal & non- sinusoidal waveforms or betterAccuracy(best): ± 500 ppm / year or better

DC Power & EnergyRange(Source): 0.4 mW - 2.4 kW (120 kW using Current Coil) 1.1-1999 s Accuracy(best): ± 510 ppm / year or better

AC Power & EnergyRange(Source): 0.4 mW - 2.4 kW, 40 - 400 Hz (120 kW using Current Coil)1.1-1999 s, power factor -1 to +1 or betterAccuracy(best): ± 635 ppm / year or better

ResistanceRange(Source): 0 Ω - 50 MΩ, resolution 4½ digits or betterAccuracy: ± 150 ppm / year or better

CapacitanceRange(Source): 900 pF - 50 uF, resolution 4½ digits or betterAccuracy(best): ± 0.5 % / year or better

Temperature

Simulation: TC BEJKNRST with cold junction compensation RTD

Accuracy(best): ± 0.7°C / year or better

FrequencyRange(Source): 0.1 Hz - 20 MHz or betterAccuracy(best): ± 50 ppm / year or better

Process Multimeter(built in with Calibrator)

DC Voltage range: 0 - 12 VmVDC resolution down to 100 nV or betterAccuracy(best): ± 100 ppm / year or better

DC Current range: 0-25mA or betterAccuracy(best): ± 150 ppm / year or better

Resistance range: 0 Ω - 2.5 kΩ, resolution 4½ digits or betterAccuracy(best): ± 200 ppm / year or better

Temperature: TC BEJKNRST and RTDAccuracy(best): ± 0.1°C / year or better

Frequency range: 1Hz to 15KHz or betterAccuracy(best): ± 50 ppm / year or better

Measurement Standard( 6 ½ digit Digital Multimeter)

DC VoltageRange: 100mV to 1000VAccuracy(best): 0.0030 + 0.0004AC VoltageRange: 100mV to 750V(3Hz to 300KHz)Accuracy(best): 0.05 + 0.02AC CurrentRange: 100µA to 10A(3Hz to 10KHz)Accuracy(best): 0.10 + 0.04DC CurrentRange: 1µA to 10AAccuracy(best): 0.050 + 0.005ResistanceRange: 100Ω to 1000MΩAccuracy: 0.0040 + 0.0005CapacitanceRange: 1 nF to 100μFAccuracy: 0.40 + 0.10Temperature Measurement: TD/PT100, thermistor, thermocouplesGraphical Display: The instrument should have color graphical display with Histogram, bar chart, trend chartConnectivity: LAN, USB

5. Communication Lab.

S.N. Description Qty Unit Price(INR) 1. Spectrum Analyzer Frequency

range, 10 Hz to 26.5 GHz Per unit

2. VSA SoftwareLicense Bundle 5User Perpetual license

Per unit

Note: Details of specifications have been attached.

Specifications for Spectrum / Signal Analyzer:

Frequency 10 Hz to 26.5 GHz

Frequency Resolution 2Hz

Up gradation Can be upgradable upto 44 GHz in same Instrument

Counter Frequency Resolution 0.001 Hz

Aging Rate ± 1 x 106 / year

Frequency Span (FFT and Swept mode) zero span, 10Hz to maximum frequency of instrument

Sweep Time

Span = 0 Hz 1µs to 6000s

Span >= 10 Hz 1ms to 4000s

Triggering Options Free run, line, video, external 1, external 2, RF Burst, Periodic timer.

Sweep Points (full range) 1 to 40001

Resolution Bandwidth 1 Hz to 3 MHz (10% steps), 4, 5, 6, 8 MHz

Analysis Bandwidth 25 MHz

Bandwidth Accuracy ±2%

Video Bandwidth 1 Hz to 3 MHz (10% steps), 4, 5, 6, 8 MHz and wide open

Maximum safe input level range +30 dBm

I/P VSWR <1.2:1 (Nominal)

DANL (Noise Floor) -150 dBm (10 MHz to 2.1 GHz)

-149 dBm (1-10 MHz, 2.1 – 3.6GHz)

- 149 (3.6 to 7.0 GHz)

- 147 dBm (7.0 to 13.6 GHz)

One - button power measurements Channel Power, Occupied Bandwidth, Power Statistics CCDF, Spurious Emission, Spectrum Emission Mask

Phase Noise Measurement Measurement modes – Spectrum Monitor

IQ Waveform, Log Plot, Spot frequency

Vector Signal Analysis demodulators AM/FM/PM/ FSK-2,4,8,16 level, MSK, EDGE,

Software should run on this platform QAM – 16, 32,64,128,256,512,1024, APSK, VSB -8 and 16

For demodulation (Mandatory Optional)

Vector Signal Analysis Display Formats Polar diagrams – constellation and vector, I-Q versus time – I or Q only, Eye diagramTrellis diagram, EVM, Errors table, Symbol Table. Up to 6 displays simultaneously

Multiformat Modulation Analysis (Optional) : Vector Modulation Analysis can be Measure more than 75 signal

standards and modulation types Like --

a) Cellular communications: LTE, W-CDMA HSPA+, GSM/ EDGE Evolution, cdma2000R, TD-SCDMA

b)Wireless connectivity: 802.11a/b/g, 802.11n, 802.16, OFDMA,

WiMAX™,BluetoothR, Zigbee, UWB, RFID

b) Aerospace, defense and satellite applications: FSK, BPSK, QPSK, QAM, StarQAM, APSK, VSB

c) Also supports MIMO and multichannel testd) This Software can be run on Instrument as well as

Server/Computer.e) This Software can be interfaced with MATLAB, SystemVueetc

Software f) Should have greater clarity with 20:20 trace/marker capabilities

g) Analyzeanalog and digital baseband; IF, RF and microwave; and narrowband to ultra-wideband, SISO, MIMO

Interface : GPIB, USB, LAN, for optional Keyboard, Mouse.Display : 10 inch capacitive multi-touch screen

Operating System : Windows 7 or higherStorage : Removeable solid state drive 80 GBConnectivity GPIB, LAN, USB, VGA out

RF Input Connector Type N (female), 50 Ohm

Probe power +15 Vdc, 150 mA max, -12.6 Vdc, 150 mA max

4. Project & research: Description of the Items

QuantityApprox Price

TEG (TG12-8) Per unit

Heat plate Per unit

Heat sink Per unit

Converters

1.5V-5.0V to 9V 1200mA max DC Converter Boost Step-up Power Supply Module

Input voltage: DC 1.5V-5.0VInput Current: 1200mA (MAX)Output voltage :12.3-12 .6 VOutput Current: 500mA (MAX)size: PCB: (length) 23mm * (W) 13mm * (height) 10mm.

IN: power input connector.

GND: power ground interface.

OUT: voltage output interface.

Per unit

DC fan

SUNON EE80251S2-0000-999 80x80x25mm DC Fan 12V 1.7W 37CFM 2pin Conncetor- MODEL : EE80251S2-0000-999- DIMENSIONS : 80x80x25mm- RATED VOLTAGE : 12V

Per unit

- RATED CURRENT : 120mA- RATED POWER CONSUMPTION : 1.4WTTS- OPERATING VOLTAGE RANGE : 4.5~13.8VDC- STARTING VOLTAGE : 4.5VDC- RATED SPEED : 2900 RPM- AIR FLOW : 37 CFM- ACOUSTIC NOISE : 30 dB(A).

Wire per mtr

K-type Thermocouples

Voltage: DC 6VLCD display: 3 1/2 digitsEasy switch between °F and °CTemperature Range: -328 to 2498 °F (-200.0 to 1370.0 °C)Resolution: 0.1°F or °C (up to 100 degree, after that 1 degree steps)K-type Thermocouple Accuracy: 1.5°C or 0.4% (Class 1 or Select Grade)Durable Thermocouple wire AWG8, 3.2 mmTemperature Sensor Cable Length: 90cm

USB pair per pairs

LED per packet

7. Microwave and RF Lab.

S.N. Description Qty Unit Price(INR) A. (i) Two port Vector Network

AnalyzerPer unit

(ii) ADS Standard University License Bundle 5User Perpetual license

5 user perpetual license

(iii) Vector network analyzer full 2-port S-parameters

Per unit

(iv) Vector network analyzer transmission/reflection

Per unit

(v) Calibration kit, 4-in-1, open, short, load and through, DC to 26.5 GHz, 3.5 mm(f)

Per unit

(vi) Adapter Kit, 3.5mm Precision Adapters

Per unit

B. Vector Signal Generator Per unit SystemVUE University License Bundle (Master) 5 User Perpetual license

Per unit

ARB baseband generator (60 MHz RF bandwidth, 32 Msa)

Per unit

Custom Digital Modulation Per unit

AM,FM,Phase Modulation Per unit

Note: Details of specifications have been attached.

A. Specifications for 24GHz Portable 2port Network Analyzer

1 Frequency range 2MHz to 24GHz , 2 Ports 2 RF Connector 3.5mm (male)3 Aging rate ± 1 ppm/yr

4Dynamic range:

90dB or better from 2MHz-18GHz, 74dB or better (18GHz-24Ghz) 24GHz

5Measurement Parameters S11, S21, S22, S12 (S-para) (both Magnitude & phase)

CAT (distance-to-fault (dB/VSWR), RL, VSWR, cable loss, insertion loss)

6Display Format LogMag, LinMag, VSWR, phase, Smith, Polar, Group delay, real

impedance, imaginary impedance

7 IF bandwidth 10 Hz to 100 kHz8 Directivity 35dB or better for entire frequency range 9 Source match 25dB or better for entire frequency range

10 Load Match 22dB or better for entire freqnency range11 Maximum no of Data Points 10001

12Test port output power (nominal) 3dBm or better : > 1GH to 3 GHz

0dBm or better : >3 to 9 GHz-12dBm or better : > 9 GHz to 24 GHz

13Minimum Output Power Level ≤ -45 dBm, nominal Power settable in 1 dB steps across power

range14 Trace Noise (-10 to 55 °C) at 300 Hz IF bandwidth 15 Magnitude ± 0.01dB (rms) (2MHz-24GHz)16 Phase ± 0.15degrees (2MHz-24GHz)

17Calibration Kit Required +Cables +Adaptors

Electronic cal kit to Support calibration type, Short, Open , Load & TRL

18

RF Accessories

Suitable 2xRF cable of OEM make with 3.5mm Connector + Adapters to use with SMA & N type devices, Troque Wrench

19 Warranty 3 years Below RF Design tool is integral part of the RFQ /NIT need to be provided as per required

specification

1.Supported Operating System: Software should support installation and usage of software natively on following operating systems:

a. Windows 7,8 and 10

b. Linux Redhat (RHEL) 6.x and 7.x

2.Design Environment Design Environment should be graphical user interface for capturing the Design Environment including the configuration of simulation and optimization, setting variables, viewing libraries etc.

3.Data Display Data Display should allow simulation results to be viewed either graphically and Support a full range of post processing automation.

1. The data display should provide multiple measurement graphs on the same display Page.

2. The data display should support content customization and custom Formatting.3. Single Data Display Window should support multiple pages to plot separate data

graphs in respective pages.4 Software should provide inbuilt RFIP encoder to encrypt design file for sharing with others to

protect the confidential design information.

5Linear Simulator:

1. Software should Linear Simulation capability such as S-Parameter and AC Simulator2. Software simulator should be able to perform Swept Parameter Analysis, such as noise

figure versus a change in a component value. 3. Software should provide in-built interactive Smith Chart utility for Broadband or

Narrow band impedance matching networks design. 4. Software Simulator should enable designer to create EM-based multi-dimensional,

parameterized models for passive planar components. Model types include standard interconnect components such as opens, stubs, bends, and tees on custom substrates.

6Non-Linear Simulator :(a) Non-Linear Simulator should support frequency-domain, steady-state, large signal analysis of non-linear circuits excited with multi-tone sources. (b) It should have capability to simulate noise, gain compression, harmonic distortion, oscillator spurs, phase noise, and inter-modulation products in non-linear circuits. (c) Simulation software should provide facility to perform RF System level simulation like Transmitters and Receivers etc. Software should have flexibility to include actual circuit level design as a sub-circuit that can be tuned or optimized to achieve System level specifications.(d) Should have X-Parameter Simulation capability.

7 3D Planar Electromagnetic Simulator (Method of Moments):3D planar EM simulation is needed for passive circuit analysis. It should accept arbitrary design geometries (including multi-layer structures) and accurately simulates complex EM effects including coupling and parasitic. Accurate EM simulation should enable MMIC designers to improve passive circuit performance and increases confidence that the manufactured product will function as simulated.

a) Software should provide RF and MW mode of EM simulationb) It should support automatic edge mesh for improved behavioral characterization of

current crowding in high frequency signals. c) Method of Moments EM Simulator should support simulation of Bond Wiresd) EM Simulator should allow minimum of 16-cores multithreaded simulatione) EM Simulator should support Distributed Computing simulation and should support

LSF, PBSPro and SunGrid environmentsf) EM Simulator must support following options for accurate High Frequency EM

simulations:

a. Hammerstad & Hemispherical roughness models for conductorsb. Frequency Dependent Dielectric Definitionc. Through Silicon VIAsd. Should support Differential Meshing where user can select:

i. Net Specific Meshing, where designer should have the capability to define meshing criteria of each Net in the design.

ii. Shape Specific Meshing, which shall allow user to select any shape in layout to be meshed differently than the global mesh setting.

iii. Layer Specific: User should be able to define different meshing criteria for different layers.

e. EM simulator should support Remote EM simulation on Linux Operating System where user on Windows machine should be able to send large EM simulation jobs on remote Linux machine for simulation as an extended capability.

8Electromagnetic Optimization:Software should support full range of 3D Planar Electromagnetic Optimization with min. of following optimization techniques:

a. Randomb. Gradientc. Hybridd. Genetice. Discrete

9 Statistical design:Software should have Statistical Design capabilities to provide designers with following capabilities:

a. Sensitivity Analysisb. Yield Analysisc. Yield Optimizationd. Design of Experiments (DOE)e. Yield Sensitivity Histograms.

10 Layout:Layout should be comprehensive physical design environment specifically geared for RF circuit development. It should support advanced layout editing features with many of the RF/Microwave technologies integrated in the software tool to be used in the development of RFIC, MMIC, PCB layouts.

a. Software should support import and export DXF and DWG file format in the layoutb. Software should provide DRC capability to run design rule checks to catch any potential

layout routing mistakes as per the foundry rules.c. Software should support direct import of Cadence Allegro .brd into layout for EM

simulationd. Software should support import & export of Gerber filese. Software should support import & export of ODB++ files

Layout features:a. Layout should provide command line editor feature to perform normal layout editing

operation directly from command line instead of using layout icon which are time consuming

b. Layout should provide following Views (mandatory):a. Component Palette: Common Items like Microstrip lines, Lumped

components, Transistors etc in Layout Windowb. Navigator Window: To see all the Nets in the layoutc. Info Window: To see all relevant information of select part in layoutd. Search Window: To search for any component throughout the hierarchy of

layout objects. 11. Advance Model composer:

Software should provide advanced model creator which shall allow generating custom, arbitrary shaped parameterized multilayer passive models library and not restricted to standard shapes and discontinuities created using 3D Planar EM or Full 3D EM solvers which can be used for more accurate circuit / system level designs.

14Mixed Signal System Simulator:(a) Mixed Signal system simulator should design solution based on a hybrid of dataflow and timed synchronous technologies. (b) It should support the design and simulation of digital (DSP), analog, and mixed-signal based RF systems and circuits including wireless and wireline receivers, transmitters, modems, cellular phones, and RADAR. (i) Should provide hybrid dataflow and time domain design and simulation capability for mixed DSP, analog and RF systems. (ii) Should come with extensive DSP, communications, analog and RF model libraries to assemble reference systems quickly. (iii) Should incorporate a user defined C or C++ model builder that provides a "plug and play" approach to adding custom models to software (iv) Should have ability to co-simulate with analog (High Frequency SPICE) and RF circuit Envelope level simulators to do true mixed signal analysis and design.

(v) It should be possible to read measured signal (e.g I&Q data from Vector Signal Analyzer) data into the simulation software System Simulator should support co-simulation of VHDL (ModelSim), Verilog (Cadence’s NCSim)

15 Transient or High Frequency SPICE Simulator:Transient Simulator should have following capabilities

Nonlinear, time-domain simulator for analyzing very large base-band circuits, start-up transients, oscillators, and high-speed digital and switching circuits.

Advanced time-domain simulator should extends the capability of the High Frequency SPICE module by accurately simulating frequency-dependent components (distributed elements, S-parameter data files, transmission lines, etc.) in a time-domain simulator.

I/O Buffer Information Specification (IBIS) models for modelling the nonlinear behaviour of IC drivers, outputs, and receivers, inputs

It should provide Broadband SPICE model generator which provides designers with the capability to convert measured or simulated S-parameter models to lumped equivalent or pole zero representations

Incorporate transceiver models complying with the IBIS I/O industry-standard (ANSI/EIA-656)

Should have convolution Simulator which allows Time Domain and RF domain Co-simulation.

16 Circuit Envelope Simulator:

Circuit Envelope sim ulator should provide efficient analysis of digitally modulated and transient RF excitation in circuits and systems

Accurate circuit simulation of error-vector magnitude (EVM), adjacent channel power ratio (ACPR), adjacent channel leakage ratio (ACLR) etc

Should support X-parameter based nonlinear model simulation under modulated RF excitation

Should enables circuit-system co-simulation with Mixed Signal System simulator

17Matrix Models :Software should provide powerful Matrix Models to add powerful matrix processing capability to the software simulator to co-simulate with MATLAB scripts and perform math routines such as matrix add, multiply, inversion, and singular value decomposition.(a) Should include variety of vector/matrix math functions for both fixed and floating point numeric data. (b) Should provide co-simulation link to MATLAB. (c) Should make it easy to model communication framing formats and block processing.

18 Antenna and Propagation Models: Software should incorporate Antenna and Propagation Models which should provide behavioral models for antenna and radio channels. Antenna models are identified by their coordinate and gain. For mobile antennas, the velocity vector is also included in the parameters. Antenna models have multiport input to provide flexibility in summing the contribution from noise and fading channels.

19 X-Parameter generator: Software should provide module to generate X-Parameter models from circuit designs (e.g. power amplifiers, mixers or any nonlinear RF block) for accurate circuit-level nonlinear simulation with the speed of a behavioral model.

20 FEM Simulator: Software should provide fully integrated full 3EM simulator in the design environment. 3D FEM EM simulator should provide advanced direct and iterative solver for speed and capacity, Adaptive frequency sweep to locate all resonant frequencies automatically and quickly with minimum frequency points. Should provide 3D parameterized components of commonly used structures such as wire bonds, solder balls, solder connectors and packages to speed up 3D design input and enables geometry sweeps and co-optimization.

21 Signal Integrity analysis: Provide signal integrity (SI) analysis of high-speed PCBs, to characterize loss and coupling of signal nets, and ultimately extract an EM-accurate model that can be used in the Transient and Channel Simulators

22 Power Integrity Analysis: Provide power integrity analysis of power distribution network (PDN), including DC IR drop analysis, AC impedance analysis and power plane resonance analysis. Should provide below features:

DC IR Drop including losses in ground planes Results overview with Voltage, Current, Current density per pin, via, layer, VRM and

sinks Results 'Compare-to', allowing easy comparison between results from different

simulations Voltage, Current Density and Power Loss visualization Easy 'copy-to' command to move current setup to new setup type (e.g. IR Drop to IR

Drop Electro-Thermal) Comprehensive output report format DC IR Drop Electro-Thermal Thermal-Only mode Wizard tools for synthesis of thermal parameters

PDN Z-impedance Simulation E & H-field visualization Real-time PDN impedance update (changing decap models doesn't need a new EM sim) Mesh Domain Optimization (optimally reduces mesh size to solve) Decap Optimization for Bill of Materials (reduce number of decaps, number of vendors,

cost etc) Power Plane Resonance Simulation Python scripting interface Power Tree results view

23 Intgerated Wireless LibrariesProvide Integrated Wireless Libraries for standards such as : 3GPP FDD W-CDMA & 3GPP LTE,802.11n,CDMA, CDMA 1xEV, & CDMA 2000Digital TV (DTV),EDGE, Fixed WiMAX, GSM,HSPA (High Speed Packet Access),Mobile WiMAX, TD-SCDMA, WiMedia, Wireless LAN.

24 Electro thermal simulator: Provide full 3D thermal analysis of the IC, utilizing power dissipation data from the ADS circuit simulator and device location information from the ADS layout design and material thermal properties from the process design kit (PDK). The thermal solver should iterate with the circuit simulator, with the thermal solver providing updated temperatures to the circuit simulator, and then the circuit simulation providing updated power dissipation values to the thermal solver, until a converged solution is reached. The “temperature aware” circuit simulation results (e.g., gain, distortion levels) should be viewable in the Data Display.

25 Localized support ; The EDA vendor shall offer strong regional technical support A web based knowledge center should be provided

B. Specification of Vector Signal generator:

Frequency range 9 kHz to 6 GHz Resolution 0.01 Hz Frequency switching speed ≤ 5 ms, typical Aging rate ± 1 ppm/yr, nominal Sweep modes Step sweep , List sweep , arbitrary list of frequency

and amplitude steps Dwell time 100 μs to 100 s Number of points 2 to 65535 (step sweep)

1 to 3201 (list sweep) Settable range +30 to –144 dBm with 0.01 dB resolutionMax output power +18 dBm Absolute level accuracy in CW mode 0.6 dB with External Reference input +21 to –60

dBmHarmonics (CW mode) < –35 dBc : 9KHz to 4 GHz, < –53dBc : 4 – 6 GHzSub harmonics –77dBc : up to 3 GHz ; - 74 dBm 3-6 GHzSSB Phase Noise –103dBc/Hz upto6 GHz (min), CW at 20 KHz offset.Modulations Amplitude modulation

Maximum Depth 100%Depth Resolution 0.1% of depthAM depth error @1 KHz rate and < 80% depth

< 3% of setting + 1 % at 5 MHz ≤ f ≤ 2 GHz

Frequency response 30% depth, 3 dB BW DC/10 Hz to 50 KHz Frequency Modulation Max deviation 20 MHz at 1.5 GHz - 3 GHz Modulation frequency response @ 100 KHz rate

1 dB bandwidth DC/5 Hz to 3 MHz, nominal 3 dB bandwidth DC/1 Hz to 7 MHz, nominal

Phase Modulation Maximum deviation 10 radians, Frequency response Normal bandwidth (3 dB) DC to 1 MHz, nominal

High-bandwidth mode (3 dB) DC to 4 MHz, nominal Pulse Modulation (Optional)Rise/fall times < 10 ns; 7 ns, typical Minimum pulse width ALC on/off ≥ 2 us/≥ 20 ns Repetition frequency ALC on/off 10 Hz to 500 kHz/DC to 10 MHz Vector ModulationBandwidth Baseband (I or Q) Up to 60 MHz baseband, 32 MsaResolution 16 bits [1/65,536]Sample Rate 100 Sa/s to 75 MSa/sArbitrary waveform memory 32 Msa (standard), upgradable upto 512 MsaMaximum storage capacity including markers 3 GBytes/800 Msa (standard)Waveform segments Segment length: 60 samples to 32 Msa (standard)

Maximum number of segments: 8192Optional Custom modulation Arb Mode PSK BPSK, QPSK, OQPSK, π/4DQPSK, gray coded

andunbalanced QPSK, 8PSK, 16PSK, D8PSK, QAM 4, 16, 32, 64, 128, 256, 1024, (and 89600 VSA mappings)FSK Selectable: 2, 4, 8, 16, C4FM, MSK - 0 to 100 °ASK 0 to 100%

Internally generated Pseudo-random patterns PN9, PN11, PN15, PN20, PN23

Others Two external or internal AM/FM/PM modulation inputs paths

Specification for Communication System Design Software

1. Software should be compatible to Windows 7 and Windows 8 operating systems.2. Software should provide block based design environment with following libraries:

a. DSP Blocks

b. Analog/RF blocksc. Communication blocksd. Adaptive Equalizers blockse. Filters – Digital and Analogf. Math – Scalar and Matrixg. ZigBee Transmitter, ZigBee Receiver and ZigBee Channel model etch. OFDM Library blockseti. Data Conversions models setj. Dynamic Matrix set – allows for changing the matrix size during run-time to see

the effects of Dynamic Channel conditions3. Software should provide Digital Filter Design Wizard to design IIR and FIR floating

point and Fixed Point filters with the capability to tune the Bit resolution on real time and see the resulting effects on Spectrum performance etc.

4. Software should provide complete communication Channel Models as below:a. Fading models – Ricean, Rayleighb. AWGN channelc. Capability to have user defined channel modelsd. Flat Earth Effect models

5. Software should provide following capabilities for Communication System Design:a. Integrated MATH language which should be fully compatible to MATLAB

program syntax which shall allow designers to write codes directly inside the platform rather than linking to other interface using Dynamic link approach

b. Capability to include MATLAB programs for additional DSP IP verificationsc. Convolution coder, Grady Encoder, Viterbi Decoder blocks

6. Software should provide Fixed Point DSP library which shall allow users to implement fixed point DSP/Digital design using the blocks available.

7. Software should provide automatic VHDL and Verilog code generation from the Fixed Point block design in the software. Generated HDL code should have following features:

a. Generated HDL code should be bit-true and cycle accurateb. HDL code should be fully synthesizable and user modifiablec. HDL code should not be vendor specific and it should be possible to port the

HDL code to various FPGA platform such as Xilinx, Altera, Acteletc8. Software should allow following codes to be co-simulated directly with rest of the

blocks in the software:a. MATLAB .m filesb. Fixed point VHDL codesc. Floating and Fixed point C/C++ codes

9. Software should provide ADC models with capability to vary Jitter parameters to analyze the effect of Jitter on system performance.

10. Software should allow performing Real Time Tuning of parameters so that users can see the effect of values change on the system performance immediately.

11. Software should provide direct links to various instruments so that it can download or read the data on/from:

a. Vector Signal Generators (VSG)b. Vector Signal Analyzers (VSA)c. Logic Analyzers (LA)d. Oscilloscopes e. Real Time Baseband Faders

12. It should be possible to directly include measured S-Parameters of RF components with rest of the DSP blocks so that complete mixed signal system can be characterized.

13. Software should provide RF Architecture tool with following capability:a. RF System Front End designb. RF Budget Planning capability with automated measurements such as Cascaded

Gain, Noise Figure, IIP3, OIP3, SNR, SFDR etcc. Software should have RF troubleshooting tool which allows taking care of

spectral propagation path to troubleshoot Spurious problems in complex multichannel System development.

d. True RF blocks library with atleast following blocks:i. Frequency Multipliers

ii. Upconverters & Downconvertersiii. RF LNA &, Power Amplifiersiv. Attenuators & Phase Shiftersv. RF Switches (SP2T, SP4T, SP8T etc)

vi. RF Oscillator sources with phase Noise.