Analog for Xilinx FPGAs

Analog for Xilinx FPGAs ® www.ti.com/xilinx 3Q 2013 Analog for Xilinx® FPGAs Contents Contents Analog for Xilinx® FPGAS ADCs and DACs 3 Introduc...
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Analog for Xilinx FPGAs ®

www.ti.com/xilinx

3Q 2013

Analog for Xilinx® FPGAs Contents Contents Analog for Xilinx® FPGAS

ADCs and DACs

3 Introduction

13 High-Speed ADCs, DACs and RF-Sampling ADCs 15 Precision ADCs and DACs

Power Reference Designs ®

4 Integrated Inductor Solution for Xilinx Artix -7

Retimers and Redrivers

5 Discrete Solution for Xilinx Zynq®-7000

16 Extending Reach and Solving Jitter Issues ®

6 Integrated Inductor Solution for Xilinx Kintex -7

Serial Digital Interface (SDI) Solutions

7 Discrete Solution for Xilinx Kintex-7

17 Equalizers, Reclockers and Cable Drivers

Power Solutions for Xilinx FPGAs

18 SerDes Solutions

8 Integrated Inductor, Low-Noise LDOs, Sequencer

19 Signal Conditioning

9 High-Efficiency Integrated FETs, Multi-Rail Solution

Ethernet Solutions

10 Virtex®-7, Kintex-7, Artix-7 and Zynq Families

19 Ethernet PHYs for Xilinx-6 and -7 Series FPGAs

Clocking Solutions for FPGAs

Temperature Sensors

11 Introduction

20 Thermal-Management Products for Xilinx

12 Clock Recommendations for Xilinx

WEBENCH® FPGA Power Architect Get results faster with easy-to-use design tools that deliver custom results. Key Features • Save time and accuracy • Modify loads for system needs • Optimize the selection of preferred power topologies • Get to market faster

Get more information: www.ti.com/powerarchitect

Analog for Xilinx® FPGAs

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Texas Instruments 3Q 2013

Analog for Xilinx® FPGAs Introduction Introduction Texas Instruments (TI) is the approved and tested vendor of analog solutions for Xilinx® FPGAs and CPLDs. TI works closely with Xilinx to recommend the best power-management, clocking, data-converter and other analog solutions for a wide variety of applications. Xilinx chose TI as the power-solution vendor to power all its Series 7 FPGAs. Series 7 development kits from Xilinx come with TI’s power and telemetry solutions that include supporting logic, level shifters, ESD protection and much more. TI’s industry-leading analog products offer best-in-class features that range from high accuracy and low power to small size and high integration. TI’s analog portfolio for your FPGA designs include a wide range of products such as temperature sensors, current sensors, fan controllers, digital isolators, retimers, repeaters, control logic, level shifters, ESD protection and many more. Consider TI’s analog-product portfolios to help streamline your Xilinx FPGA design. For the latest from TI for Xilinx FPGAs, see www.ti.com/xilinx

About Xilinx FPGAs The Xilinx product portfolio includes five families: Virtex®-7 2000T, Virtex-7, Kintex®-7, Artix®-7 and the Zynq®-7000 Extensible Processing Platform (EPP). These products represent a breakout in programmable system integration and offer innovative solutions that enable customers to select from a broad range of devices that are optimized for their unique needs. The design scalability and portability of these products empowers designers in different markets and applications to maximize system performance. Lower power levels, reduced BOM costs and design flexibility are also supported by this family of Xilinx products. For more information, visit www.xilinx.com

Analog for Xilinx® FPGAs

3

Texas Instruments 3Q 2013

Power Reference Designs

Integrated Inductor Solution for Xilinx® Artix®-7 Texas Instruments is the preferred and approved power-management supplier to power the Xilinx® Artix®-7 (AC701). TI has closely worked with Xilinx to provide a compact, easy-to-use power solution with integrated inductor modules. The tested and proven solution below can be found in the AC701 development kit, and the design documentation is at www.xilinx.com/ac701

Devices Featured on the AC701 Board from Xilinx® Device

12-V Power Jack

Power Controller 1 (PMBUS 101)

UCD90120A

PMBus controller, PMBus addr = 101

LMZ22010TZ

10-A, 0.8- to 6­ -V adj. switching regulator

TPS84621RUQ TPS84320RUQ LMZ12002

6-A, 0.6­- to 3.3-V adj. switching regulator 3-A, 0.6- to 3.3-V adj. switching regulator 2-A, 0.8- to 6-V adj. linear regulator

TPS51200DR

3-A source/sink DDR termination regulator

TPS79433DCQ TPS73501 REF3012

0.25-A, 1.2- to 5.5-V adj. LDO linear regulator 0.5-A, 1.25- to 5-V adj. linear regulator 50-µA, fixed 1.25-V voltage reference

UCD90120A

LMZ22010 Switching Regulator 1.0 V at 8 A

VCCINT LM84621 Switching Module 1.8 V at 3 A

TPS84320 Switching Module 1.0 V at 3 A

Power Controller 2 (PMBUS 102)

FPGA_1V5

UCD90120A

TPS84621 Switching Module 1.2 to 3.3 V at 6 A

VCCO_VAJ LM84320 Switching Module 1.8 V at 6 A

TPS84621 Switching Module 3.3 V at 6 A

FPGA_1V8 VCC3V3

TPS84320 Switching Module 1.0 V at 6 A

TPS84320 Switching Module 1.2 V at 3 A

MGTAVCC MGTAVTT

LMZ12002 Switching Module 5.0 V at 2 A

1.5 V/2 = 0.75 V REFIN

VCCAUX VCCBRAM

TPS84621 Switching Module 1.5 V at 6 A

3.3 V POWER

Description

VCC5V0 TPS73501 Linear Regulator 1.7 to 2.0 V at 300 mA

TPS51200 Source/Sink Regulator 0.75 V at 3 A

3.3 V POWER

TPS51200 Switching Regulator 0.75 V at 3 A

1.5 V/2 = 0.75 V REFIN

XADC_VCC

VTTDDR

DDR3_VTERM

Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.xilinx.com/ac701 Analog for Xilinx® FPGAs

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Texas Instruments 3Q 2013

TXS02612

LP2951

TXS0108E

CSD16412

Power Reference Designs SN74LV541A

Discrete Solution for Xilinx® Zynq®-7000

LMC555

TCA9406DC

TS5A3359DC

LM3881MM

PCA9517D

®

PCA9548A TCA6416A When the Xilinx ZC702 development kit looks like a good choice, but a smaller or more cost-effective power solution is required, TXWS0104E TI’s alternative power solution is the answer. TXS0108EPWR

Power-Solution Alternative for the ZC702 Benefits • Tested and proven solution by Xilinx application engineers • Half the footprint size of the typical ZC702 power solution • A fifth of the cost of the typical ZC702 power solution • Available resources: schematics, BOM and Gerber files

LM25119

TXS02612

LP2951

TXS0108E

CSD16412

SN74LV541A LMC555

TCA9406DC

LMR12020XSD

TS5A3359DC

TPS51200DR

LM21305

LM3881MM

PCA9517D PCA9548A

TCA6416A

TXWS0104E

TXS0108EPWR

LM25119

Zynq® Block Diagram for TI Power

LMR12020XSD

12-V IN

VCC PINT 1 V at 5 A

TPS51200DR

LM21305

LM21305 VCC PAUX /VCC PLL 1.8 V at 2.5 A

LM25119

VCCO DDR 1.5 V at 6 A

VCCO DDR (IN)

3.3 V

TPS51200

VCCO #1 3.3 V at 5 A

DDR VTT 0.75 V at 3 A (Peak)

LM21305 VCCO #2 Adj. 1.2 to 3.3 V at 5 A

SYNCs USB

LM21305

LMC555 USB 5 V at 2 A

LMR12020

EN VCC PINT (1st) EN VCC PAUX (2nd) 3.3 V

LM3881

LP2951

EN VCCO DDRT VCCO DDR

VCCO #2 VCCO #1 USB

(3rd)

Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tool/pmp7877

Analog for Xilinx® FPGAs

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Texas Instruments 3Q 2013

Power Reference Designs

Integrated Inductor Solution for Xilinx® Kintex®-7 TI’s SIMPLE SWITCHER® power modules feature ease of use, excellent performance and scalability to meet the needs of the latest 7 series FPGAs from Xilinx®. All devices featured in the design are fully supported by WEBENCH® design tools, allowing for ease of use and optimization for different system requirements. 12 V

LMZ22008

EN LM20333

2 V at 2 A (3%)

EN LMZ22008

2.5 V at 8 A (5%)

EN (2)LMZ22010

LM21212 SIMPLE SWITCHER® power-module board for Kintex®-7 FPGAs.

LM21212

TI Power Products Featured in Avnet Kintex®-7 Development Board Device

1.8 V at 6 A (5%)

LM21212

3.3 V at 16.5 A (5%)

1.5 V/1.35 V at 4 A (5%)

1 V at 6 A (3%)

1.2 V at 4 A (2.5%)

Description ®

LMZ22008

8-A SIMPLE SWITCHER power module with 20-V maximum input voltage and current sharing

LM20333 LMZ22010 LM21212

36-V, 3-A, adjustable-frequency synchronous buck regulator 10-A SIMPLE SWITCHER power module with 20-V maximum input voltage and current sharing 12-A, high-efficiency, synchronous, point-of-load buck regulator with frequency synchronization

LM21212

1 V at 6 A (3%)

Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tool/pmp7804

Analog for Xilinx® FPGAs

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Texas Instruments 3Q 2013

Power Reference Designs

Discrete Solution for Xilinx® Kintex®-7 Texas Instruments provides robust power-management solutions for the new Xilinx® Kintex®-7 FPGA. TI’s power-management products simplify the power-design process while providing the lower power required for demanding, high-performance system designs.

Texas Instruments Kintex®-7 Mini Module for Xilinx®-7 Series

Input Voltage 6.0 to 14.5 VDC

TPS56121

3.3 V at 8 A

TPS56121

2.4 V at 8 A

TPS54620

1.0 V at 6 A

TPS54620

1.0 V at 6 A

TPS54425

1.35 to 1.5 V at 4 A

TPS54425

1.2 V at 4 A

TPS54225

2.0 V at 2 A

TPS54620

1.8 V at 6 A

TI’s PMP6776 board.

Devices Featured on the PMP6776 Board Device TPS54225  TPS54425  TPS54620  TPS56121 

VIN (V)

IOUT (A)

Features

4.5 to 18 4.5 to 18 4.5 to 17 4.5 to 14

2 4 6 15

D-CAP2™ mode D-CAP2 mode High power density High power density

Find this design and more at www.ti.com/powerlab Download schematics, BOM and test reports at www.ti.com/tool/pmp6776

Analog for Xilinx® FPGAs

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Texas Instruments 3Q 2013

Power Solutions for Xilinx® FPGAs

Integrated Inductor, Low-Noise LDOs, Sequencer Integrated Inductor

Low-Noise LDOs

Smallest 10-A Power Solution in Industry

Lowest-Noise LDO in Industry

TPS84A20 10-A DC/DC Module

TPS7A4901/4700 150-mA, 1-A LDO

• 10 x 10 x 4.3-mm QFN package, 205-mm2 total solution size • Input voltage: 2.95 to 17 V • Capable of current sharing up to 60 A • Flexible features: Class-B EMI compliant, synchronous external clock, adjustable frequency/soft start/ UVLO, PG, EN, 180° clockout signal, remote sense • 2Q12 RTM pin-compatible 7-A and 4-A devices

• Ultralow noise: 4 µVrms • High PSR: > 55 dB from 10 Hz to 10 MHz • Adjustable output: 1.2 to 33 V • Input voltage: 3 to 36 V

6- to 36-V, 10-A Integrated Inductor Power Module

Low-Dropout Regulator (LDO) TPS747/8/901 0.5-A, 1.5-A, 3-A LDO

LMZ23610 10-A DC/DC Module

• Adjustable output: 0.8 to 3.6 V • Input voltage: 0.8 to 5.5 V with external bias • Low noise: 25 µVrms x VOUT, 100 Hz to 100 kHz • 2% accuracy over line, load and temperature • Programmable soft start and Power Good output • Low dropout: 60 mV at 1.5 A

• Current-sharing capability • Low output-voltage ripple • Flexible start-up sequencing using external soft start, tracking and enable • Class-B EMI compliant

Sequencer Digital-Power PMBus Sequencer and System Health Monitor

Integrated Inductor Power Module TPS84621/ TPS84320 6-A DC/DC Module

UCD90120A 12-Rail Sequencer/ Monitor

• Input voltage: 2.95 to 14.5 V • 6-A/3-A modules in pin-compatible 9 x 15 x 2.8-mm packages • Capable of current sharing up to 6 devices at 36 A • Flexible features: Class-B EMI compliant, synchronous external clock, adjustable frequency/soft start/ UVLO, PG, EN, 180° clockout signal, remote sense

Analog for Xilinx® FPGAs

• • •

• Sequence up to 12 rails • JTAG and PMBus communication interface (free Fusion Digital Power™ software) • Overvoltage, undervoltage, current and temperature monitoring • Margin up to 10 rails • 9 x 9-mm QFN packaging

8

Texas Instruments 3Q 2013

Power Solutions for Xilinx® FPGAs

High-Efficiency Integrated FETs, Multi-Rail Solution High-Efficiency Integrated FETs High-Current DC/DC Converter with Integrated FETs

17-VIN , High-Efficiency Single Buck Converter TPS62130/40/50/60/70 17-VIN Buck 0.5 A, 1 A, 2 A, 3 A

LM21215A 15-A DC/DC Converter

• Up to 17 VIN • Adjustable and fixed VOUT versions • DCS-Control™ topology • Tracking and programmable soft start, PG pin • 100% duty cycle for lowest dropout • Small inductor and low-ESR capacitors

• Low input voltage: 2.95 to 5.5 V • Integrated FETs for small total solution • Adjustable frequency up to 1.5 MHz • Small 6.5 x 6.5-mm package

1-A DC/DC Nano Power Module in Tiny 2.5 x 3-mm Package

6-VIN , High-Efficiency Single Buck Converter TPS62230/065/080/090 15-A DC/DC Converter

LMZ10501 1-A DC/DC Nano Power Module

• VIN from 2.5 to 6 V • Adjustable and fixed VOUT versions • DCS-Control™ topology • Smallest solution size: 2.8 MHz with 0.47 µH (highest efficiency at 1.4 MHz with 1 µH) • 20-µA IQ in power-save mode • Small 5 x 6-mm QFN packaging

• Low input voltage: 2.7 to 5 V • Integrated inductor • Tiny packaging: 2.5 x 3 x 1.2 mm • Integrated compensation with current-limit protection • 0.6- to 3.6-V output

Multi-Rail Solution Dual Buck Converter with I2C and Current Sharing • High-current dual buck with optional current sharing • With and without I2C/DVS • VIN range: 4.5 to 18 V • VOUT range: 0.68 to 1.95 V • Feedback reference: 0.6 V ±1% • All devices are pin-to-pin compatible • ±1%, 600-mV reference

• TPS65273: 3.5 A/3.5 A, current sharing for 7 A • TPS65276: 6 A/3.5 A • TPS65279: 5 A/5 A, current sharing for 10 A • TPS65273V: 3.5 A/3.5 A, current sharing for 7 A, I2C/DVS • TPS65276V: 6 A/3.5 A, I2C/DVS • TPS65279V: 5 A/5 A, current sharing for 10 A, I2C/DVS

TPS6527x Dual Buck Family

Get more information: www.ti.com/xilinxfpga and www.ti.com/processorpower Analog for Xilinx® FPGAs

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Texas Instruments 3Q 2013

Power Solutions for Xilinx® FPGAs

Virtex®-7, Kintex®-7, Artix®-7 and Zynq® Families Power Products Input Voltage Range (V) Output Current

Analog for Xilinx® FPGAs

1.5 to 3.0

< 200 mA

LP5900 TPS720xx TPS712xx

≤ 500 mA

TPS720xx TPS7A7100

500 mA to 1.5 A

LP38500 TPS7A7200 TPS7A7100 TPS7A8001

1.5 A to 3 A

TPS7A7200 TPS7A7300 TPS7A7001

3.0 to 5.5

4.5 to 17

LP5900 TPS712xx TPS728

TPS715A TPS62170

TPS7A7100 TPS62140 TPS6223x LMZ10500 LMZ10510 LMR10501 TPS62290 TPS62140 TPS54218 TPS84210

TPS62170 TPS62160 LMZ12001 LMZ14201 LMR12010 TPS54294/5 Dual TPS62140 TPS54120 TPS54225/6

TPS54318 PTH04070W TPS84410

TPS5432x LMZ22003 TPS84320

3 A to 6 A

TPS54418 TPS54618 TPS84610

TPS5462x TPS5442x LMZ22005/8 TPS84621

6 A to 10 A

LM21212 PTH04T240W TPS40040

TPS56121 TPS54821 LMZ22008/10

≥ 10 A to 16 A

LM21215 TPS53353 PTH04T220W TPS40322

≥ 20 A

TPS53355 PTH05T210W TPS40322

TPS56121 PTH08T220W TPS40400 TPS40322 TPS56221 PTH08T255W TPS40322 PTH08T250W

10

> 17 TPS54062 TPS54040 LM5017 TPS7A16 LM22671 TPS54040/60 LM5017 LMZ14201 LMR24210 TPS54231 TPS54160 LM557x LMZ23603 TPS54331 TPS54260 LM22676 LMZ23603 TPS5450 LM3150 LMZ13610 LMZ23605/8 LM25116 LM22679 LM3150 LMZ23608/10 TPS40170 LMZ23610 TPS40061 TPS40170 LM3150 LM(2)5119 LMZ23610 TPS40140

Texas Instruments 3Q 2013

Clocking Solutions for FPGAs Introduction

Texas Instruments provides the industry’s cutting-edge PLL technology for FPGAs with a broad portfolio of clocking solutions that includes clock jitter cleaners, clock generators and clock buffers. The easy-to-use TI Clock Design Tool software simplifies clocking solutions for FPGA design by aiding in part selection, loop-filter design and simulation. The highperform­ance, low-power, flexible clocking solutions support existing and next-generation FPGA products from Xilinx,® moving to higher data rates and stringent clock requirements for various data-transmission standards. To see TI’s latest clocks and timers, visit www.ti.com/clocks

Clock Jitter Cleaners

Clock Generators

Clock Buffers

• Industry’s lowest RMS jitter; < 150 fs (10 kHz to 20 MHz) at 156.25 MHz • LOS alarm generation, reference switching, holdover, dynamic skew control • Programmable differential or CMOS outputs

• Superior performance with low power • Flexible frequency planning • Up to 14 outputs • Low jitter • Outstanding PSNR • Industry’s lowest noise floor • Programmable via I2C/SPI or pinselect holdover • Dynamic skew control • Programmable differential or CMOS outputs

• Low additive phase jitter: < 40 fs • Low output skew • LVPECL, LVDS, HCSL, HSTL and LVCMOS output support • Programmable digital delay • Low power consumption

Clocking Portfolio by Application

LMK04828

CDCE72010

CDCM7005

LMK03806

CDCM6208

CDCE62005/2

CDCM9102

LMK0030x

CDCLVD12xx/21xx

CDCLVP12xx/21xx

PCIe Gen1/Gen2

2.5/5

4

4

4

4

4

4

4

4

4

4

4

4

PCIe Gen3

8

4

4

4

4

4

4

4

4

4

4

4

4

1 GbE

1.25

4

4

4

4

4

4

4

4

4

4

4

CDCM6100x

Line Rate (Gbps)

LMK0480x

Clock Buffers

Protocol

Application

Communication Links

Clock Generators

LMK04906

Jitter Cleaners

4

40 GbE

10.3125

4

4

4

4

4

4

4

4

4

4

10 GbE/XAUI

3.125

4

4

4

4

4

4

4

4

4

4

10 GbE XFI

10.3125

4

4

4

4

4

4

4

4

4

4

Serial Rapid I/O

1.25/2.5/3.125/5/6.25

4

4

4

4

4

4

4

4

4

4

4

4

SAS/SATA

1.5/3/6

4

4

4

4

4

4

4

4

4

4

4

4

Fiber Channel

1.0625/2.125/4.25/ 8.5/10.52/14.025

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

JESD204B

12.5/6.375

4

OC-3/OC-12

0.155/0.622

4

OC-48

2.488

4

4

4

4

4

4

4

OC-192

9.953

4

4

4

4

4

4

4

CPRI

0.644/1.2288/2.4576/3.072/ 4.9152/6.144/9.8304

4

4

4

4

4

Optical

Wireless

4

OBSAI

0.768/1.536/3.072/6.144

4

4

4

4

4

4

4

4

4

4

SDI 3G/HD/SD

2.97/1.485/0.27

4

4

4

4

4

4

4

4

4

4

HDMI/DVI

0.25 to 3.4

4

4

4

4

4

4

4

4

4

4

DisplayPort

1.62/2.7/5.4

4

4

4

4

4

4

4

4

4

4

Video

Analog for Xilinx® FPGAs

11

Texas Instruments 3Q 2013

Clocking Solutions for FPGAs Clock Recommendations for Xilinx®

CDCM6208 The CDCM6208 can be used as a single multi-frequency generator to replace fixed/ programmable clock generators and fanout buffers, thereby minimizing board space and overall BOM cost. The device can be easily configured via an I2C/SPI programming interface. Pin-programming modes are additionally supported.

The Texas Instruments CDCM6208 is a highly versatile, low-jitter (< 300-fs RMS typical, 12 kHz to 20 MHz), low-power frequency synthesizer. It can generate up to eight clock outputs with flexible supply voltages of 1.8, 2.5 or 3.3 V. It features ultraflexible frequency planning with four fractional and two integer output dividers. A system clock, SGMII GTX clock, PS clock and user clock can be generated by a single CDCM6208, which can support any frequency rate up to 400 MHz.

For more information about TI’s CDCM6208, visit www.ti.com/product/ cdcm6208

LMK04906 pro­gram­mable through an SPI interface. The LMK04906 can also buffer a crystal or VCXO to generate a seventh unique clock frequency. With an output jitter performance of less than 100-fs RMS (10 kHz to 20 MHz), the LMK04906 is ideal for clock multiplication and jitter attenuation in high-performance clocking applications.

A jitter-attenuated clock can be generated by the Texas Instruments LMK04906, which is a clock jitter cleaner/multiplier featuring a dual-loop PLLatinum™ PLL architecture for ultralow jitter cleaning over the widest range of output frequencies (from 2.26 MHz to 2.6 GHz). It accepts three redundant input clocks with frequencies ranging from 1 kHz to 750 MHz and generates up to six outputs programmable as LVDS, LVPECL or LVCMOS. The input clock frequency and clock multiplication ratio are

For more information about TI’s LMK04906, visit www.ti.com/product/ lmk04906

Clocking Solutions for Xilinx® FPGAs

The following table summarizes TI’s clock­ing and timing solutions for Xilinx®-7 series FPGA evaluation platforms (Artix®-7 AC701, Kintex®-7 KC705, Virtex®-7 VC707) and the Xilinx programmable SoC platform (Zynq®-7000 ZC702). Clock Required

Virtex®-7 VC707

Kintex®-7 KC705

Artix®-7 AC701

Zynq®-7000 ZC702

Frequency (MHz)

Output Type

System Clock

4

4

4

4

200

LVDS

Fixed frequency

SGMII GTX Clock

4

4

4

125

LVDS

Fixed frequency

4

33.3333

CMOS

Fixed frequency

4

156.25

LVDS

User-configurable via I2C: 10 to 810 MHz

Up to 2600

LVDS

CPRI/OBSAI reference

PS Clock User Clock

4

4

4

Jitter-Attenuated Clock

4

4

4

Analog for Xilinx® FPGAs

12

Recommended TI Clocking Devices

Features

CDCM6208

LMK04906

Texas Instruments 3Q 2013

ADCs and DACs

High-Speed ADCs, DACs and RF-Sampling ADCs Texas Instruments evaluation modules for high-speed data converters seamlessly mate with Xilinx® evaluation kits.

JESD204B ADC—Highest Dynamic Performance to Maximize Receiver Sensitivity Total Power AVDD AVDD3V DRVDD + IOVDD

1400 1200 1000 800 600 400 200 0

0

50

100 150 200 Sampling Rate (Msps)

250

300

High-speed, wide bandwidth, singleand dual-channel DACs designed for applications requiring exact frequency placement and superior linearity, crosstalk and PLL phase-noise performance.

Power (dBm)

Power Consumption vs. Sampling Rate

1600 Power Consumption (mW)

The ADS42JB69 is the industry’s first dualchannel, 16-bit analogto-digital converter (ADC) featuring the JESD204B interface and is also the fastest at 250 MSPS.

High-Speed DAC34SH84 Family 10 0 −10 −20 −30 −40 −50 −60 −70 −80 −90 10

Single-Tone Spectral Plot PLL enabled w/PFD of 46.875 MHz fDAC = 1500 MSPS fout = 200 MHz

110 210 310 410 510 610 710 800 Frequency (MHz)

Get more information: www.ti.com/product/ADS42JB69

Get more information: www.ti.com/product/DAC34SH84

ADC12D1x00 Family

ADS5295 Family Lowest power, 8-channel, 10- to 12-bit ADCs capable of speeds to 80 MSPS in a 80-pin PQFP package.

–20 –40 –60 –80 –100

–145.5 dBm/Hz Noise Floor

52 dB NPR

0

200

400 600 800 Frequency, f (MHz)

85

Power/Channel (dB)

0

Magnitude (dBFS)

The ADS12D1x00 family offers excellent dynamic performance over large input bandwidths and sampling rates—up to 3.6 gigasamples per second (GSPS). The product plugs directly into a Xilinx evaluation board with no adapter cards required.

ADC12D1x00 Noise-Floor Performance

80 75

Total Power Per Channel Two−Wire One−Wire

70 65 60 55 50 45 40

1000

Get more information: www.ti.com/product/ADC12D1600

35 30 10

20

30 40 50 60 70 80 90 100 Sampling Frequency (MHz)

Get more information: www.ti.com/product/ADS5295

Get more information: www.ti.com/dataconverters

TI ADC evaluation module with FMC ADC adapter-card connection to Xilinx® evaluation kit.

TI DAC evaluation module with FMC DAC adapter-card connection to Xilinx® evaluation kit.

Get more information: www.ti.com/xilinx Analog for Xilinx® FPGAs

13

Texas Instruments 3Q 2013

ADCs and DACs

High-Speed ADCs, DACs and RF-Sampling ADCs RF Transceiver FMC 400 MHz to 3.0 GHz* FMC-LPC VITA 57.1 Compliant FMC30RF The FMC30RF is a small-footprint FMC daughter card that offers a low-power and fully featured Rx/Tx signal path for the development and deployment of advanced RF solutions. Key Features • RF coverage from 400 MHz to 3.0 GHz* • Conduction-cooled compatible

• ANSI/VITA 57.1-2010 compliant • LNA front end TX_CLK

TPS3720 AFE7205

TX/RX TPS3711

RX_IN

FMC LPC

LNA_OUT TRF3765

RX_CLK EXT_REF_IN

CDCE62005

EXT_REF_OUT

• Time domain duplex (TDD) and frequency domain duplex (FDD) compatible • Complete transceiver signal-chain solution for bandwidth of up to 60 MHz* • Dual-DAC IQ modulator for Tx • Dual-ADC IQ modulator with PGA, buffer and filters for Rx • Onboard clocking with integrated PLL/VCO • Low-pin-count (LPC), 160-pin connector • Phase locking for clocks and RF between two boards • MIL-I-46058c compliant (optional) Support • User manual and performance guide • Reference firmware design (VHDL) with Stellar IP framework • Reference ISE project for Virtex®-6 (ML605) and Zynq® Xilinx®/Avnet kits *Bandwidth is limited to 30 MHz when the TRF3711 low-pass filter is not bypassed.

Download schematics, BOM and test reports at www.4dsp.com/FMC30RF Dual 14-Bit, 250-MSPS ADC and Dual 16-Bit, 800-MSPS DAC FMC VITA 57.1 Compliant FMC150 The FMC150 daughter card contains a dual-channel ADC and a dual-channel DAC. The two 14-bit A/D channels and two 16-bit D/A channels can be clocked by an internal clock source or an externally supplied sample clock. Channel A

AC Coupling

A/D Channel B

AC Coupling

External Clock/ Reference

LVDS Clock (1) ADS62P49/ ADS4249 250 MSPS, 14-Bit

CDCE72010 Clock Tree

FMC150 LPC, 160-Pin LVDS/ LVCMOS

LVDS Clock (1) Control LVDS Trigger (1)

AC Coupling

D/A Channel D

Control AMC7823 Monitoring

External Trigger Channel C

LVDS Data (14)

AC Coupling

LVDS Clock (1) DAC3283 800 MSPS, 16-Bit

LVDS Data (8) LVDS Frame (1) Control

Key Features • Quad-channel operation: Dual 14-bit ADC, up to 250 MSPS Dual 16-bit DAC, up to 800 MSPS • ANSI/VITA 57.1-2010 compliant • Conduction-cooled (standard option) • Single-ended, AC-coupled analog signals • 6 MMCX/SSMC connectors available from the front panel • Low-pin-count (LPC), 160-pin connector • Clock source, sampling frequency and calibration settings through SPI communication buses Support • Stellar IP available for this product. A simple way to design FPGA firmware with automated code and bitstream generation. • Reference firmware design (VHDL) • ML605, SP605 and SP601 reference designs available • User manual • Reference ISE project for Virtex®-6 and Spartan-6

Download schematics, BOM and test reports at www.4dsp.com/FMC150 Analog for Xilinx® FPGAs

14

Texas Instruments 3Q 2013

ADCs and DACs

Precision ADCs and DACs Delta-Sigma Modulators—Current-Measurement Applications Inverter

Isolated ∆Σ Modulators for Shunt Resistors

Non-Isolated ∆Σ Modulators for Magnetic Sensors

Isolated Amplifiers for Shunt Resistors L o a d

Gate Drivers

Hall

ADS1204

AMC1204

ADS1205

AMC1203

AMC1200 ADS1209

ADC ADS794x ADS83xx

FPGA for Decimation and Filtering

MCU F28xx Series

Delta-Sigma Modulators—Motor-Control Applications Inverter Shunt Resistors

Resolver

Motor

Gate Drivers

Isolated ∆Σ Modulators

Isolated Amplifiers

AMC1204

ADS1200

Non-Isolated ∆Σ Modulators sin ADS1209 cos

AMC1203

ADS1205 PWM Excitation

MCU F28xx Series

FPGA for Decimation and Filtering

MCU F28xx Series

FPGA for Decimation and Filtering

MCU F28xx Series

Analog for Xilinx® FPGAs

15

Texas Instruments 3Q 2013

Retimers and Redrivers

Extending Reach and Solving Jitter Issues Telecom Switch/Router Solutions Line Card Switch Fabric

Retimers, LD, TIA, PA

Retimer (CDR)

Clock Generator

10GE, Fiber Channel, InfiniBand®, SONET, CPRI, Others

x4 DS110DF410 x4

Retimer with DFE

Optical Modules

DS125RT410

LMK04906 LMK03806

Active Copper Assemblies Repeater, Retimer

FPGA

ASIC Retimer with DFE

x4

DS100MB203 Clock Buffer Clock Generator Clock Buffer

x4

LMK0010x LMK0030x

DS100BR410 DS100BR111

Ethernet PHY DP838630 TLK105/106

Passive Copper

Retimer DS100DF410

LMK04906 LMK03806

LMK0010x LMK0030x Clean Signal

Noisy Signal

Repeaters/Redrivers and Retimers Device DS100KR401/800 DS100BR410 DS100DF410 DS110DF410 DS125DF410 DS100BR111/210 DS80PCI402/800 DS80PCI102 DS50PCI402 DS64BR401 SN75LVCP600S SN75LVCP601 SN65LVPE502CP DS42BR400 DS25BR440 DS25BR100

Channels

Protocol

Max Data Rate (Gbps)

Input SigCon (dB)

Output SigCon (dB)

Power/Ch (mW)

Package(s)

Up to 81 4 4 4 4 21 81 21 81 81 1 21 21 81 4 1

Multi-protocol2 Multi-protocol3 10GbE/1GbE retimer Multi-protocol retimer Multi-protocol retimer Multi-protocol2, 3 PCIe Gen-1/2/3 PCIe Gen-1/2/3 PCIe Gen-1/2 Multi-protocol1, 3 Multi-protocol3 Multi-protocol3 USB 3.0 Multi-protocol Multi-protocol Multi-protocol

10.3 10.3 10.3 11.3 12.5 10.3 8 8 5 6.4 6 6 5 4.2 3.125 3.125

36 36 36 36 36 36 36 36 26 33 15 14 15 5 5 8

–12 –9 –12 –12 –12 –12 –12 –12 –12 –12 –1.5 –7 –7 –9 6 6

65 55 175 175 175 65 65 65 95 95 106 110 165 163 134 115

QFN-54 QFN-48 QFN-48 QFN-48 QFN-48 QFN-24 QFN-54 QFN-24 QFN-54 QFN-54 QFN-10 QFN-20 QFN-24 QFN-60 QFN-40 QFN-8

1

Bidirectional channel. Includes support for 10G-KR link training. Includes SAS/SATA OOB support.

2 3

Analog for Xilinx® FPGAs

16

Texas Instruments 3Q 2013

Serial Digital Interface (SDI) Solutions Equalizers, Reclockers and Cable Drivers Triple-Rate Distribution Amplifier Key Features • Auto signal detection at equalizer input • Cable detection at driver output • Significant power savings • 95% power savings in power-save mode • Triple-rate SMPTE support • Supports SMPTE 424M (3G), 292M (HD), 259M/C (SD) and DVB-ASI

LMH0384 Carrier Detect

SD/HD

SDI In

ENABLE

CD

LMH0384

SDI

SDI Equalizer SPI

SDI

LMH0356

SDI Reclocker

Clock

ENABLE

LMH0303

SDO+

SDI Cable Driver SMBus

SDI Out SDO–

Enable Control SPA Board(s) (SPI, SMBus Control)

Equalizers, Reclockers and Cable Drivers1 Supply Voltage (V)

Typ Power (mW)

Data Rate (Mbps)

Temp Range2

Evaluation Board

Package(s)

3G/HD/SD extended-reach adaptive cable equalizer 3G/HD/SD adaptive cable equalizer HD/SD adaptive cable equalizer HD/SD adaptive cable equalizer SD adaptive cable equalizer with cable detect 3.3-V SD adaptive cable equalizer

3.3 3.3 3.3 3.3 3.3 3.3

230 280 208 208 208 198

143 to 2970 143 to 2970 143 to 1485 143 to 1485 143 to 540 143 to 540

Ind Ind Ext Ext Ind Ind

SD384EVK SD344EVK SD044EVK SD034EVK SD074EVK SD024EVK

LLP-16 microArray-25, LLP-16 LLP-16 SOIC-16 LLP-16 SOIC-16

3G/HD/SD reclocker with dual differential outputs

3.3

370

270 to 2970

Ind

SD3GDAEVK/ SD346EVK

eTSSOP-20, LLP-24

3.3

430

270 to 2970

Ind

SD356EVK

LLP-48, LLP-40

3.3 3.3 3.3 3.3

330 360 330 350

143 to 1485 143 to 1485 270 270

Ind Ind Ind Ind

SD046EVK SD046EVK SD046EVK SD046EVK

eTSSOP-20 LLP-48 eTSSOP-20 LLP-48

3.3

275

Up to 2970

Ind

SD307EVK

microArray-25, LLP-16

3.3

165

Up to 2970

Ind

SD302EVK

LLP-16

3.3

155

Up to 2970

Ind

SD303EVK

LLP-16

3.3 3.3

149 149

Up to 1485 Up to 1485

Com/Ind Ind

SOIC-8 LLP-16

3.3

298

Up to 1485

Com

SD002EVK SD002SQ-EVK SD202EVK/ DVB202-EVK

TSSOP-16

3.3

125

Up to 540

Ind

SD001SQ-EVK

LLP-16

Device

Description

Cable Equalizers LMH0384SQ LMH0344GR/SQ LMH0044SQ LMH0034MA LMH0074SQ LMH0024MA

Reclockers LMH0346MH/SQ

reclocker with 4:1 input MUX and FR4 LMH0356SQ/SQ-40 3G/HD/SD equalization LMH0046MH HD/SD reclocker with dual differential outputs LMH0056SQ HD/SD reclocker with 4:1 input MUX and FR4 equalization LMH0026MH SD reclocker with dual differential outputs LMH0036SQ SD reclocker with 4:1 input MUX and FR4 equalization

Cable Drivers LMH0307GR/SQ LMH0302SQ LMH0303SQ LMH0002MA/TMA LMH0002SQ LMH0202MT LMH0001SQ

3G/HD/SD SDI dual cable driver with cable detect, input LOS, selectable slew rate and 4-mW power-down mode 3G/HD/SD cable driver with enable feature 3G/HD/SD SDI cable driver with cable detect, input LOS, selectable slew rate and 4-mW power-down mode HD/SD serial digital cable driver with selectable slew rate HD/SD serial digital cable driver with selectable slew rate Dual SD/DS serial cable driver with dual differential input and output SD serial digital cable driver with adjustable output amplitude

1

Older products not shown in the table but still in production include CLC001AJE, CLC005AJE, CLC006AJE and CLC007AJE. Temperature ranges: Com = 0°C to 70°C, Ext = 0°C to 85°C, Ind = –40°C to 85°C.

2

Analog for Xilinx® FPGAs

17

Texas Instruments 3Q 2013

Serial Digital Interface (SDI) Solutions SerDes Solutions

TI’s Easy-to-Use Video Solutions For decades, Texas Instruments has been a trusted advisor and solutions provider to the professional and broadcast video industry. TI continues to offer the industry’s most comprehensive portfolio of serial digital interface (SDI) solutions. Energy-efficient, easy-to-use products save design time and reduce development costs to get your products to market more quickly. The following diagram and base portfolio table provide an overview of SDI solutions for 3-Gbps (3G), high-definition (HD) and standard-definition (SD) applications.

3G/HD/SD SDI Switcher Simplified Block Diagram

Coax

LMH0344 3G SDI Adaptive Cable Equalizer DS25CP104A 3G SDI 4 x 4 LVDS Crosspoint Switch

Coax

LMH0346 3G SDI Reclocker

LMH0302 3G SDI Cable Driver

LMH0356 3G SDI Reclocker with 4:1 Input MUX

LMH0307 3G SDI Dual Cable Driver with Cable Detect

LMH0341 3G SDI Reclocking Deserializer

LMH0384 3G SDI Adaptive Cable Equalizer

FPGA

Coax

Coax Coax

LMH0340 3G SDI Serializer and Driver

Coax

Base Portfolio SDI Family

3G

Equalizers

Reclockers

Cable Drivers

Serializers

Deserializers

Video Clocking Products

LMH0384

LMH0356

LMH0307

LMH0340

LMH0341

LMH1982

LMH0344

LMH0346

LMH0303

LMH1981

LMH0302 LMH0044

LMH0056

LMH0002

LMH0034

LMH0046

LMH0202

LMH0024

LMH0036

LMH0001

LMH0074

LMH0026

HD

SD

LMH0050 LMH0040 LMH0030

LMH0051 LMH0041 LMH0031

LMH0070

LMH0071

Get more information: www.ti.com/sdi

Analog for Xilinx® FPGAs

18

Texas Instruments 3Q 2013

Serial Digital Interface (SDI) Solutions Signal Conditioning

Processing

Cables

Serializer

Cables

Deserializer

Sensor/ Imager

Serializer

Camera

Key Features • Wide operating frequency • Integrated signal conditioning • Sends raw data easily • No reference clock required • Low EMI, high ESD protection • Supports FR4, cable, fiber

Deserializer

Signal Conditioning Extends Signal Integrity of FPGA Solutions

Display Monitor

Get more information: www.ti.com/lvds

SerDes Families Family FPGA-Link FPGA-Link Channel Link 2 Channel Link 2

Serializer

Deserializer

DS32EL0421 DS32ELX0421 DS92LV2411 DS92LV2421

DS32EL0124 DS32ELX0124 DS92LV2412 DS92LV2422

Parallel Interface

SigCon

CLK Min (MHz)

CLK Max (MHz)

Typ Reach (m)

5-bit LVDS 5-bit LVDS 24-bit LVCMOS 24-bit LVCMOS

TX De-E, RX EQ TX De-E, RX EQ RX EQ RX EQ

125 125 5 10

312.5 312.5 50 75

20 20 10 10

Special Features Redundant output, loop-through Supports embedded video control Supports embedded video control

Ethernet Solutions

Ethernet PHYs for Xilinx®-6 and -7 Series FPGAs Key Features • Supports IEEE1588 v1 and v2 precision time protocol (DP83640) • Enables IEEE 1588 with any MAC-based FPGA, ASIC or microcontroller

• Node-synchronization accuracy to < 10 ns • Replaces E1/T1 lines and expensive GPS clocks • Synchronized clock output • Synchronous Ethernet support • Industry’s lowest deterministic latency

Ethernet PHYs for Xilinx® Device DP83848I DP83848Q* TLK110 DP83630 TLK105 TLK105L TLK106 TLK106L DP83848J DP83848K DP83848M DP83848T DP83848H DP83848C TLK100 DP83620 DP83640 DP83848VYB DP83848YB

Interface

Cable Length (m)

No. of LEDs

MII, RMII, SNI MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII MII, RMII, SNI MII MII, RMII MII, RMII MII, RMII, SNI MII, RMII, SNI

150 150 150 150 150 150 150 150 137 137 137 137 137 137 200 150 150 150 150

3 1 3 3 1 2 1 2 2 2 1 1 1 3 3 3 3 3 3

JTAG

Cable Diagnostics

IEEE1588 HW Support

4

25-MHz Clock Out

Temp Range (ºC)

Package

4

–40 to 85 –40 to 105 –40 to 85 –40 to 85 –40 to 85 –40 to 85 –40 to 105 –40 to 105 0 to 70 –40 to 85 0 to 70 –40 to 85 –40 to 125 0 to 70 –40 to 85 –40 to 85 –40 to 85 –40 to 105 –40 to 125

QFP-48 QFN-40 QFP-48 QFN-48 QFN-32 QFN-32 QFN-32 QFN-32 QFN-40 QFN-40 QFN-40 QFN-40 QFN-40 QFP-48 QFP-48 QFN-48 QFP-48 QFP-48 QFP-48

4 4

4

4

4

4 4

4

4

4 4 4

4

4 4 4 4 4

4

4

4

4

4

4

4

4

4 4

4 4

4

4

New products are listed in bold red. Preview products are listed in bold teal.

* AEC–Q100 Grade 2

Analog for Xilinx® FPGAs

FX Support

19

Texas Instruments 3Q 2013

Temperature Sensors

Thermal-Management Products for Xilinx® TI offers a portfolio of thermal-management products that work well with Xilinx®-6 and -7 series FPGAs.

Remote Sensors TI’s remote sensors connect directly to the DXP_0 and DXN_0 pins to accurately measure the true temperature of your Xilinx FPGA. TI’s portfolio offers a wide array of multi-channel and enhanced-accuracy options such as Beta and N-Factor correction to meet your needs. Be sure to also check out the TMP512/TMP513, which combine precision current/power monitoring with a state-of-the-art remote sensor. Device Features TI Remote Sensor

Xilinx FPGA

®

TMP411

TMP432

TMP513

Channels N-Factor Correction

1 Yes

2 Yes

3 Yes

Beta Correction

No

Yes

Yes

Int. Power Monitor

No

No

Yes

TMP112

TMP103

TMP122

±0.5°C 10 µA 1.6 x 1.6 mm I2C

±0.3°C 3 µA 0.76 x 0.76 mm I2C

±1.5°C 75 µA 2.9 x 2.8 mm SPI

Local Sensors Simplify your design with a digital local temperature sensor. Unlike thermistors, these low-power devices offer noisefree measurements and require no additional components or calibration. Available in SPI or I2C interfaces, TI’s industryleading portfolio offers best-in-class accuracy, power and footprint size.

Device Features

Contactless Sensors

TMP006 Features

Accuracy Quiescent Current Size Interface

Measure the temperature of an object from the PCB without wires. Developed through TI’s expertise in MEMS technology, the TMP006 is the first of a new class of ultrasmall, low-power and low-cost passive-infrared temperature sensors. It has 90% lower power consumption and is more than 95% smaller than existing solutions. These features make contactless temperature measurement possible in completely new markets and applications.

Description

Measurement Range Power Package

• IR MEMS temperature sensor • IR spectrum sensitivity: 4 to 8 μm • 16-bit ADC with I2C SMBus interface • Integrated local temperature and voltage references • Local temperature sensor: –40° to 125°C (±0.5°C) • Passive IR sensor: –40° to 125°C (±1°C) • Quiescent power: 240 µA • Shutdown power: 1 µA • Supply: 2.4 to 5.5 V • 1.6 x 1.6-mm WCSP (0.625-mm profile)

TMP006 Functional Block Diagram V+

Gain

IR Thermopile Sensor

16-Bit ∆Σ ADC

Digital Control

Local Temperature

Voltage Reference

Sensor Amplifier

AGN

PHYTER, SIMPLE SWITCHER and WEBENCH are registered trademarks and the platform bar, D-CAP2, DCS-Control, E2E, Fusion Digital Power, PLLatinum and PowerLab are trademarks of Texas Instruments. Artix, Kintex, Virtex, Xilinx and Zynq are registered trademarks of Xilinx, Inc. InfiniBand is a registered trademark of the InfiniBand Trade Association. All other trademarks are the property of their respective owners.

© 2013 Texas Instruments Incorporated Printed in U.S.A. by (Printer, City, State)

I2C/SMBus Compatible

DRDY ADR0 ADR1 SCL SDA

TMP006

DGND

Important Notice: The products and services of Texas Instruments Incorporated and its subsidiaries described herein are sold subject to TI’s standard terms and conditions of sale. Customers are advised to obtain the most current and complete information about TI products and services before placing orders. TI assumes no liability for applications assistance, customer’s applications or product designs, software performance, or infringement of patents. The publication of information regarding any other company’s products or services does not constitute TI’s approval, warranty or endorsement thereof.

SLYT519

IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, enhancements, improvements and other changes to its semiconductor products and services per JESD46, latest issue, and to discontinue any product or service per JESD48, latest issue. Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All semiconductor products (also referred to herein as “components”) are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment. TI warrants performance of its components to the specifications applicable at the time of sale, in accordance with the warranty in TI’s terms and conditions of sale of semiconductor products. Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty. Except where mandated by applicable law, testing of all parameters of each component is not necessarily performed. TI assumes no liability for applications assistance or the design of Buyers’ products. Buyers are responsible for their products and applications using TI components. To minimize the risks associated with Buyers’ products and applications, Buyers should provide adequate design and operating safeguards. TI does not warrant or represent that any license, either express or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right relating to any combination, machine, or process in which TI components or services are used. Information published by TI regarding third-party products or services does not constitute a license to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI. Reproduction of significant portions of TI information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. TI is not responsible or liable for such altered documentation. Information of third parties may be subject to additional restrictions. Resale of TI components or services with statements different from or beyond the parameters stated by TI for that component or service voids all express and any implied warranties for the associated TI component or service and is an unfair and deceptive business practice. TI is not responsible or liable for any such statements. Buyer acknowledges and agrees that it is solely responsible for compliance with all legal, regulatory and safety-related requirements concerning its products, and any use of TI components in its applications, notwithstanding any applications-related information or support that may be provided by TI. Buyer represents and agrees that it has all the necessary expertise to create and implement safeguards which anticipate dangerous consequences of failures, monitor failures and their consequences, lessen the likelihood of failures that might cause harm and take appropriate remedial actions. Buyer will fully indemnify TI and its representatives against any damages arising out of the use of any TI components in safety-critical applications. In some cases, TI components may be promoted specifically to facilitate safety-related applications. With such components, TI’s goal is to help enable customers to design and create their own end-product solutions that meet applicable functional safety standards and requirements. Nonetheless, such components are subject to these terms. No TI components are authorized for use in FDA Class III (or similar life-critical medical equipment) unless authorized officers of the parties have executed a special agreement specifically governing such use. Only those TI components which TI has specifically designated as military grade or “enhanced plastic” are designed and intended for use in military/aerospace applications or environments. Buyer acknowledges and agrees that any military or aerospace use of TI components which have not been so designated is solely at the Buyer's risk, and that Buyer is solely responsible for compliance with all legal and regulatory requirements in connection with such use. TI has specifically designated certain components as meeting ISO/TS16949 requirements, mainly for automotive use. In any case of use of non-designated products, TI will not be responsible for any failure to meet ISO/TS16949. Products

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Amplifiers

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Communications and Telecom

www.ti.com/communications

Data Converters

dataconverter.ti.com

Computers and Peripherals

www.ti.com/computers

DLP® Products

www.dlp.com

Consumer Electronics

www.ti.com/consumer-apps

DSP

dsp.ti.com

Energy and Lighting

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Clocks and Timers

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Industrial

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Interface

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www.ti.com/medical

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logic.ti.com

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www.ti.com/security

Power Mgmt

power.ti.com

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www.ti.com/space-avionics-defense

Microcontrollers

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www.ti.com/video

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www.ti-rfid.com

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Wireless Connectivity

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