Analog for Xilinx ® FPGAs 2015 www.ti.com/xilinx
Analog for Xilinx® FPGAs
2015www.ti.com/xilinx
Analog for Xilinx® FPGAsContents
WEBENCH® FPGA Power ArchitectGet 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
Contents
Analog for Xilinx® FPGAS3 Introduction
Power Reference Designs4 Power Solution for Xilinx Virtex® UltraScale™
5 Power Solution for Xilinx Virtex UltraScale MGT Rails
6 Power Solution for Xilinx Kintex® UltraScale
7 Power Solution for Xilinx Kintex UltraScale MGT Rails
8 Integrated Inductor Solution for Xilinx Artix®-7
9 Discrete Solution for Xilinx Zynq®-7000
10 Integrated Inductor Solution for Xilinx Kintex-7
11 Discrete Solution for Xilinx Kintex-7
12 Analog Solutions for Xilinx Virtex-7
Power Solutions 13 Power for UltraScale, Virtex-7, Kintex-7, Artix-7 and
Zynq Families
14 Integrated Inductor and Low-Noise LDOs
15 High-Efficiency Integrated FETs, High-Density, Multi-Rail Solution
System Health Monitoring Solutions16 Sequencers
17 Reset ICs & VID Controller
18 Current Shunt Monitors
19 Temperature Sensors
20 ESD Protection
Clocking Solutions21 Introduction
22 Clock Recommendations for Xilinx
Data Converter Solutions23 High-Speed ADCs, DACs and RF-Sampling ADCs
24 JESD204B Interface
25 TSW14J10 EVM for TI’s JESD204B Data Converters
26 4DSP FMC144 on Xilinx KCU105 Demo
27 Precision ADCs and DACs
Signal Conditioner Solutions28 Retimers and Redrivers
29 Serial Digital Interface (SDI)
30 SerDes
Ethernet Solutions30 Ethernet PHYs for Xilinx-6 and -7 Series FPGAs
2Analog for Xilinx® FPGAs 2015 Texas Instruments
Analog for Xilinx® FPGAsIntroduction
IntroductionTexas 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, repeat-ers, 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 six families: Kintex® UltraScale™, Virtex® UltraScale, Virtex-7, Kintex®-7, Artix®-7 and the Zynq®-7000 Extensible Processing Platform (EPP). These products represent a breakout in programmable system integra-tion 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
3Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsPower Solution for Xilinx® Virtex® UltraScale™
Devices Featured in the Xilinx® Virtex® UltraScale™ Board Design Device Description
TPS40428 Dual output, 2-phase, stackable PMBus sync buck driverless controller
CSD95378 Synchronous buck NexFET™ smart power stage
TPS51367 12-A, 22-V integrated FET converter with ultra-low quiescent
TPS544B20 20-A, 4.5- to 18-V SWIFT™ with PMBus programmability
TPS40400 3- to 20-V PMBus synchronous buck controller
CSD86330 Synchronous buck NexFET™ power block MOSFET pair
TPS53515 12-A, 1.5- to 18-V adj. sync step-down SWIFT™ converter
UCD90120A 12-rail power supply sequencer and monitor with ACPI support
INA333 Low power, precision instrumentation amplifier
The PMP9475 reference design provides all the power supply rails necessary to power the Xilinx® Virtex® UltraScale™ FPGA family of devices. It features a UCD90120A for flexible power up and power down sequencing as well as voltage monitoring, current monitoring, and voltage margining through the PMBus interface. This design uses a 12 V input.
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tools/PMP9475
Design Features• 12 V input voltage• Provides all the power supply
rails needed to power a Xilinx Virtex UltraScale FPGA
• Power-up and power-down sequencing
• PMBUS compatible interface• Low cost discrete IC design
PMP9475 Virtex® UltraScale™ FPGA Power Reference Design
1
3
2
4
x
4
1
2
4
4
TPS40428 + 2xCSD95378
2-phase Sync BuckController
TPS5136712 Buck Converter
TPS5136712 Buck Converter
TPS5136712 Buck Converter
TPS5136712 Buck Converter
TPS5351512 Buck Converter
TPS544B20PMBUS Synchronous
Buck Converter
TPS544B20PMBUS Synchronous
Buck Converter
TPS544B20PMBUS Synchronous
Buck Converter
TPS544B20PMBUS Synchronous
Buck Converter
TPS40400 + CSD86330Synch. Buck Controller
and NexFET
0.95V: 0 to 60AVCCINT
VCCAUX
VCCBRAM
VCCO_1p8V
UTIL_3p3V
UTIL_5V
VCCO_1p2V
MGTAVCC
MGTAVTT
MGTVCCAUX
VADJ_1V8
1.8V: 0 to 10A
1.8V: 0 to 10A
1.8V: 0 to 20A
1.2V: 0 to 10A
1.2V: 0 to 10A
1.0V: 0 to 20A
1.8V: 0 to 4A
3.3V: 0 to 20A
5V: 0 to 12A
0.95V: 0 to 60A
12V+
= Sequence Order
+3.3V
UCD90120A DigitalSequencer/System
Monitor
4Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsPower Solution for Xilinx® Virtex® UltraScale™ MGT Rails
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tools/PMP9407
Devices Featured in the Xilinx® Virtex® UltraScale™ MGT Board Design Device Description
TPS544B20 20-A, 4.5- to 18-V adj. SWIFT™ with PMBus
TPS40400 3- to 20-V adj. PMBus synchronous buck controller
CSD86330 Synchronous buck NexFET™ power block MOSFET pair
LM3880 Power sequencer
TS3A5017RGY 14-Ω dual SP4T analog switch 3.3-V/2.5-V analog multiplexer/demultiplexer
This TI Design demonstrates a proven design for the Multi-Gigabit Transceiver (MGT) power supply rails on the Xilinx® Virtex® UltraScale™ platform. It features +1.0 V/20 A output for the MGTAVCC, +1.2 V/10 A output for the MGTAVTT, and +1.8 V/4 A output for the MGTVCCAUX rails. This design is powered from a +5 V input voltage and also provides power-up and power-down sequenc-ing. The 20 A and 10 A rails feature integrated MOSFETs and lossless FET current sensing.
1
2
3
TPS544B20PMBUS Synchronous
Buck Converter
TPS544B20PMBUS Synchronous
Buck Converter
TPS40400 + CSD86330Sync. Buck Controller
and NexFET
1.0V: 0 to 20A
1.2V: 0 to 10A
1.8V: 0 to 4AMGTVCCAUX
MGTAVTT
MGTAVCC
+5V
= Sequence Orderx
Xilinx® Virtex® UltraScale™ MGT Reference Design
Design Features• 5 V input voltage• Full power solution for MGT rails
+1.0 V/20 A MGTAVCC+1.2 V/10 A MGTAVTT+1.8 V/4 A MGTVCCAUX
• Internal FET lossless current sensing• Power-up and power-down sequencing• PMBUS compatible interface• Selectable PMBUS address
5Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsPower Solution for Xilinx® Kintex® UltraScale™
Devices Featured in the Xilinx®
Kintex® UltraScale™ Board DesignDevice Description
TPS40428 Dual output, 2-phase, stackable PMBus synchronous buck driverless controller
CSD95378 Synchronous buck NexFET™ smart power stage
LMZ3171010-A, 2.95- to 17-V adj. SIMPLE SWITCHER® power module
LMZ315033-A, 4.5- to 14.5-V adj. SIMPLE SWITCHER® power module
LMZ315066-A, 2.95- to 14.5-V adj. SIMPLE SWITCHER® power module
UCD90120A12-rail power supply sequencer and monitor with ACPI support
INA333 Low power, precision instrumentation amplifier
The PMP9444 reference design provides all the power supply rails necessary to power the Xilinx® Kintex® UltraScale™ family of FPGAs. It features two UCD90120A’s for flexible power up and power down sequencing as well as voltage monitoring, current monitoring and voltage margining through the PMBus interface. This design uses a 12 V input.
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tools/PMP9444
1
3
2
4
x
4
1
2
4
4
TPS40428 + 2xCSD95378
2-phase Sync BuckController
LMZ315033A Power Module
LMZ315066A Power Module
LMZ315033A Power Module
LMZ315033A Power Module
LMZ315033A Power Module
LMZ3151010A Power Module
LMZ315066A Power Module
LMZ315033A Power Module
LMZ315033A Power Module
LMZ315033A Power Module
0.95V: 0 to 40AVCCINT
VCCAUX
VCCBRAM
VCCO_1p8V
UTIL_3p3V
UTIL_5V
VCCO_1p2V
MGTAVCC
MGTAVTT
MGTVCCAUX
VADI_18V
1.8V: 0 to 3A
1.8V: 0 to 2A
1.8V: 0 to 10A
1.2V: 0 to 2A
1.2V: 0 to 2A
1.0V: 0 to 4A
1.8V: 0 to 1A
3.3V: 0 to 1A
5V: 0 to 1A
0.95V: 0 to 5A
12V+
= Sequence Order
+3.3V
UCD90120A DigitalSequencer/System
Monitor
+3.3V
UCD90120A DigitalSequencer/System
Monitor
PMP9444 Xilinx® Kintex® UltraScale™ FPGA Power Reference Design
Design Features• 12V input voltage• Provides all the power supply
rails needed to power a Xilinx Kintex UltraScale FPGA
• Power-up and power-down sequencing
• PMBUS compatible interface• Module design for ease of use
6Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsPower Solution for Xilinx® Kintex® UltraScale™ MGT Rails
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tools/PMP9463
Devices Featured in the Xilinx® Kintex® UltraScale™ MGT Board Design Device Description
TPS40400 3- to 20-V PMBus synchronous buck controller
CSD86330 Synchronous buck NexFET™ power block MOSFET pair
LM3880 Power sequencer
TS3A5017RGY 14-Ω dual SP4T analog switch 3.3-V/2.5-V analog multiplexer/demultiplexer
This TI Design demonstrates a proven design for the Multi-Gigabit Transceiver (MGT) power supply rails on the Xilinx® Kintex® UltraScale™ platform. It features +1.0V/8A output for the MGTAVCC, +1.2V/8A output for the MGTAVTT, and +1.8V/1A output for the MGTVCCAUX rails. This design is powered from a +5V input voltage and also provides power-up and power-down sequencing. This design aims for a controller + external FET solution to lower costs vs. an integrated solution.
Design Features• 5 V input voltage• Full power solution for MGT rails
+1.0 V/8 A MGTAVCC+1.2 V/8 A MGTAVTT+1.8 V/1 A MGTVCCAUX
• Power-up and power-down sequencing
• PMBUS compatible interface• Selectable PMBUS address
Xilinx® Kintex® UltraScale™ MGT Reference Design
1
2
3 TPS40400 + CSD86330Sync. Buck Controller
and NexFET
TPS40400 + CSD86330Sync. Buck Controller
and NexFET
TPS40400 + CSD86330Sync. Buck Controller
and NexFETLM3880Power
Sequencer
1.0V: 0 to 8A
1.2V: 0 to 8A
1.8V: 0 to 1AMGTVCCAUX
MGTAVTT
MGTAVCC
+5V
= Sequence Orderx
7Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsIntegrated Inductor Solution for Xilinx® Artix®-7
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tool/pmp7977
Devices Featured on the AC701 Board from Xilinx®
Device Description
UCD90120A PMBus Controller
LMZ22010TZ 10 A, 0.8 to 6 V adj. switching regulator
LMZ31506RUQ 6 A, 0.6 to 5.5 V adj. switching regulator
LMZ31503RUQ 3 A, 0.6 to 5.5 V adj. switching regulator
LMZ12002 2 A, 0.8 to 6 V adj. linear regulator
TL1963ADCQR 1.5 A, 1.21 to 5 V adj. LDO linear regulator
TPS51200DR 3 A source/sink DDR termination regulator
TPS79433DCQ 0.25 A, 1.2 to 5.5 V adj. LDO linear regulator
TPS73501 0.3 A, 0.8 to 5 V adj. linear regulator
REF3012 50 μA fixed 1.25 V voltage reference
LMZ22010 Switching Regulator 1.0 V at 8 A
LMZ31506 Switching Module 1.8 V at 6 A
LMZ31503 Switching Module 1.0 V at 3 A
LMZ31506 Switching Module 1.5 V at 6 A
UCD90120A
VCCINT
VCCAUX
VCCBRAM
FPGA_1V5
Power Controller 1 (PMBUS 101)
LMZ31506 Switching Module1.2 to 3.3 V at 6 A
LMZ31503 Switching Module 1.8 V at 3 A
LMZ31506 Switching Module 3.3 V at 6 A
VCCO_VAJ
FPGA_1V8
VCC3V3
VCC5V0
XADC_VCC
MGTAVCC
MGTAVTT
DDR3_VTERM
VTTDDR1.5 V/2 = 0.75 V REFIN
3.3 V POWER
3.3 V POWER
1.5 V/2 = 0.75 V REFIN
12-V Power
Jack
LMZ31503 Switching Module 1.0 V at 3 A
LMZ31503 Switching Module 1.2 V at 3 A
LMZ12002 Switching Module 5.0 V at 2 A
TPS73501 Linear Regulator1.7 to 2.0 V at 300 mA
TPS51200 Source/Sink Regulator0.75 V at 3 A
TPS51200 Switching Regulator0.75 V at 3 A
UCD90120APower Controller 2 (PMBUS 102)
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.ti.com/tool/pmp7977
8Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsDiscrete Solution for Xilinx® Zynq®-7000
Zynq® Block Diagram for TI Power
12-V INVCC PINT1 V at 5 A
VCC PAUX/VCC PLL1.8 V at 2.5 A
VCCO DDR1.5 V at 6 A
VCCO DDR(IN)
VCCO #13.3 V at 5 A
VCCO #2Adj. 1.2 to3.3 V at 5 A
USB 5 V at 2 A
3.3 V
(3rd)
EN VCC PINT (1st)
SYNCs
EN VCC PAUX (2nd)
DDR VTT0.75 V at 3 A (Peak)
ENVCCO DDRTVCCO DDR
USB
3.3 V
LM21305
LM25119
LM21305
LM21305
LMR12020
LP2951
LM3881
LMC555
TPS51200
VCCO #2VCCO #1USB
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
TCA6416A
TXS0108EPWR
LM3881MM
LMC555
CSD16412
LP2951
TS5A3359DC
TXWS0104E
PCA9548A
PCA9517D
TCA9406DC
SN74LV541A
TXS0108E
TXS02612
TPS51200DRLM21305
LM25119
LMR12020XSD
TCA6416A
TXS0108EPWR
LM3881MM
LMC555
CSD16412
LP2951
TS5A3359DC
TXWS0104E
PCA9548A
PCA9517D
TCA9406DC
SN74LV541A
TXS0108E
TXS02612
TPS51200DRLM21305
LM25119
LMR12020XSD
When the Xilinx® ZC702 development kit looks like a good choice, but a smaller or more cost-effective power solution is required, TI’s alternative power solution is the answer.
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tool/pmp7877
9Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsIntegrated 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 1.8 V at 6 A (5%)LMZ22008
EN 2 V at 2 A (3%)
EN 2.5 V at 8 A (5%)LMZ22008
LM20333
(2)LMZ22010EN 3.3 V at 16.5 A (5%)
LM21212
LM21212
LM212121 V at 6 A (3%)
1.2 V at 4 A (2.5%)
1 V at 6 A (3%)
1.5 V/1.35 V at 4 A (5%)
LM21212
SIMPLE SWITCHER® power-module board for Kintex®-7 FPGAs.
TI Power Products Featured in Avnet Kintex®-7 Development BoardDevice Description
LMZ22008 8-A SIMPLE SWITCHER® power module with 20-V maximum input voltage and current sharing
LM20333 36-V, 3-A, adjustable-frequency synchronous buck regulator
LMZ22010 10-A SIMPLE SWITCHER power module with 20-V maximum input voltage and current sharing
LM21212 12-A, high-efficiency, synchronous, point-of-load buck regulator with frequency synchronization
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tool/pmp7804
10Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsDiscrete Solution for Xilinx® Kintex®-7
Texas Instruments provides robust power-management solutions for the new Xilinx® Kintex®-7 FPGA. TI’s power-management prod-ucts simplify the power-design process while providing the lower power required for demanding, high-performance system designs.
Devices Featured on the PMP6776 Board
DeviceVIN (V)
IOUT (A) Features
TPS54225 4.5 to 18 2 D-CAP2™ mode
TPS54425 4.5 to 18 4 D-CAP2 mode
TPS54620 4.5 to 17 6 High power density
TPS56121 4.5 to 14 15 High power density
TPS56121 3.3 V at 8 A
2.4 V at 8 A
1.0 V at 6 A
1.0 V at 6 A
1.35 to 1.5 Vat 4 A
1.2 V at 4 A
2.0 V at 2 A
1.8 V at 6 A
TPS56121
TPS54620
TPS54620
TPS54425
TPS54425
TPS54225
TPS54620
Input Voltage6.0 to 14.5 VDC
Find this design and more at www.ti.com/powerlabDownload schematics, BOM and test reports at www.ti.com/tool/pmp6776
TI’s PMP6776 board.
Texas Instruments Kintex®-7 Mini Module for Xilinx®-7 Series
11Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Reference DesignsAnalog Solutions For Xilinx® Virtex®-7
Approved, tested and recommended by Xilinx®. Download schematics, BOM and test reports at www.ti.com/tool/pmp7976
Devices Featured on the VC709 Board from Xilinx®
Device Description
UCD9248PFC PMBus Contoller
PTD08A020W 40-A, 0.6- to 3.6-V dual adj. switching regulators
PTD08D210W 10-A, 0.6- to 3.6-V adj. switching regulator
LMZ12002 2-A, 0.6- to 6-V adj. linear regulator
TPS51200DR 3-A source/sink DDR termination regulator
TLV71209 300-mA, fixed linear regulator
REF3012 50-μA, fixed 1.25-V voltage reference
Texas Instruments provides robust power-management solutions for the Xilinx® Virtex®-7 (VC709) FPGA. TI has closely worked with Xilinx to provide a compact, easy-to-use power solution for high-bandwidth and high-performance applications. The tested and proven solution below is found in the VC709 development kit and the design documentation is at www.ti.com/tool/pmp7976
Power Controller 1 PMBus Addr52
2XPTD08A020W Switching Regulator1.0 V at 40 A
PTD08D210W Switching Module1.8 V at 10 A
PTD08D210W Switching Module
3.3 V at 10 A
UCD9248PFC
VCCINT
VCCAUX
VCC3V3
Power Controller 2PMBus Addr53
PTD08D210W Switching Module2.5 V at 10 A
PTD08D210W Switching Module1.5 V at 10 A
PTD08D210W Switching Module1.0 V at 10 A
UCD9248PFC
VCC2V5
VCC1V5
MGTAVCC
PTD08D210W Switching Module1.2 V at 10 A MGTAVTT
Power Controller 3PMBus Addr54
PTD08D210W Switching Module2.0 V at 10 A
PTD08D210W Switching ModuleNot used at 10 A
PTD08D210W Switching Module1.8 V AT 10 A
UCD9248PFC
VCCAUX_10
(Not used at 10A)
MGTVCCAUX
PTD08D210W Switching Module1.2 V AT 10 A VCC1V8
LMZ12002 Switching Regulator5.0 V at 1.5 A Max
VCC5v0
XADC_VCC
TPS51200DR Switching Regulator0.75 V at 3 A Max VTTDDR
TLV71209 Linear Regulator1.7 - 2 V at 300 mA
12-VPower
Jack
VCC3V3
12Analog for Xilinx® FPGAs 2015 Texas Instruments
Power Products
Output Current
Input Voltage Range (V)
1.5 to 3.0 3.0 to 5.5 4.5 to 17 > 17
< 200 mA
TPS720xx LP5900TPS71202 (Dual)
TPS715A01TPS7A4901TPS62170
TPS7A1601TPS7A4901TPS54062
≤ 500 mATPS73501TPS74701 TPS8267x
TPS7A7100TPS6223x TPS62290
TPS62175LMZ14201LMZ21700TPS560200
LM3103LM5017
LMZ14203
500 mA to 1.5 ALP38500
TPS74201TPS74801
LP38500TPS7A8101TPS7A8300TPS54218TPS62140
LMZ10500/1LMZ30602TPS650250
TPS7A45TPS7A47TPS54120TPS54225TPS62160TPS62140
LMR10510/15
TPS7A47LM3100
LMR24210LMR14206LMR22007
LMR12007/10/15LMR14006LMZ12001LMZ14201
1.5 A to 3 A TPS74401
TPS74401TPS54318 TPS62065LMZ31704
TPS54320TPS62130
LMR10520/30 LMZ22003TPS65262
LM203x3LM3102
LMR24220LMR12020
LMZ14202/3LMZ35003LMZ34002
LMZ12002/3LMZ23603TPS54335LM25011
3 A to 6 A LM1084LM1085
TPS54478TPS54678LMZ31707
LMZ10503/4/5
TPS54622LMZ30604/6
LMZ31503/6/6HLMZ31704
LMZ23603/5LMZ22003/5LM(2)5117
LM3150 TPS40170
6 A to 10 A —LM21212LMZ31710TPS40040
TPS53915*TPS54020
LMZ22008/10LMZ31707/10
LMZ13608/10LMZ23608/10LMZ12008/10LMZ13808/10
LM3150TPS4017
≥ 10 A to 16 A —LM21215 TPS53353TPS40040
TPS56121LM27403
TPS40400*
LM3150 TPS40170LM(2)5117
≥ 20 A — TPS53355TPS40322
TPS544C20* TPS56221
LMZ31520/30LM27403
TPS40425*
LM(2)5117LM(2)5119 (Dual)
TPS40140
Color Code Key:Black = Low Dropout Regulators Green = DC/DC Converters (Switchers with Integrated FETs)Blue = Plug-In Power Modules Red = DC/DC Controllers (External FETs)Purple =PMIC
Power Solutions Power for UltraScale™, Virtex®-7, Kintex®-7, Artix®-7 and Zynq® Families
13Analog for Xilinx® FPGAs 2015 Texas Instruments
2-A DC/DC Nano Power Modulein Tiny 3.5 x 3.5-mm Package
• Low input voltage: 2.7 to 5V• Integrated inductor• Tiny Packaging: 3.5 x 3.5 x 1.7mm • Enable pin and power good pin• Output voltage: 0.8 to 3.6V with 1% accuracy
LMZ205022-A DC/DC Nano
Power Module
Power SolutionsIntegrated Inductor and Low-Noise LDOs
LMZ31704/07/10SIMPLE SWITCHER®
4-A, 7-A, 10-APower Module
Smallest 10-A Power Solution in Industry
• Input voltage: 2.95 to 17V• 4A/7A/10A modules in a 10x10x4.3mm QFN • Capable of current sharing up to 60A• Class B EMI compliant
LMZ31520/30SIMPLE SWITCHER®
20-A, 30-APower Module
20-A/30-A Complete Integrated Power Solution
• Input voltage: 3 to 14.5V• 15 mm × 16 mm × 5.8 mm package size• Wide-output voltage adjust 0.6 V to 3.6 V• Class B EMI compliant
TPS7A4901/4700 150-mA, 1-A LDO
Lowest-Noise LDO in Industry
• 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
TPS747/8/901 0.5-A, 1.5-A,
3-A LDO
Low-Dropout Regulator (LDO)
• 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
6-A/3-A Integrated Inductor Power Module
• Input voltage: 2.95 to 14.5V• 3A/6A modules in a 9mm x 15mm x 2.8mm
QFN package• Sharing up to 6 devices at 36A• Class B EMI compliant
LMZ31503/06SIMPLE SWITCHER®
3-A, 6-APower Module
Integrated Inductor
Low-Noise LDOs
14Analog for Xilinx® FPGAs 2015 Texas Instruments
Power SolutionsHigh-Efficiency Integrated FETs, High-Density, Multi-Rail Solution
High-Efficiency Integrated FETs
Multi-Rail Solution
TPS6527x Dual Buck Family
TPS62130/40/50/60/70 17-VIN Buck
0.5 A, 1 A, 2 A, 3 ALM21215A
15-A DC/DC Converter
High-Current DC/DC Converter with Integrated FETs
• Low input voltage: 2.95 to 5.5 V• Adjustable frequency up to 1.5 MHz• Small 6.5 x 6.5-mm package
17-VIN High-Efficiency Single Buck Converter
• Up to 17 VIN • Adjustable and fixed VOUT versions • DCS-ControlTM topology • Tracking and programmable soft start, PG pin• 100% duty cycle for lowest dropout• Small inductor and low-ESR capacitors
Dual Buck Converter
• High-current dual buck • 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
• 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
Get more information: www.ti.com/xilinx
High Density
TPS54320SWIFT™
3 A DC/DC Converter
TPS54622 SWIFT™
6 A DC/DCConverter
6-A Synchronous Step-Down Converter
• 4.5V to 17V input at 6A output• 1% reference accuracy over temperature• Synchronizes to external clock up to 1.6MHz• PG, EN, adj. soft-start and tracking pins• Small 3.5x3.5mm package• Compatible with 3A TPS5443320
3-A Synchronous Step-Down Converter
• 4.5V to 17V input at 3A output• 1% reference accuracy over temperature• Synchronizes to external clock up to 1.2MHz• PG, EN, adj. soft-start, and tracking pins• Small 3.5x3.5mm package• Compatible with 6A TPS54622
15Analog for Xilinx® FPGAs 2015 Texas Instruments
System Health Monitoring SolutionsSequencers
Vmarg
Closed LoopMargining
UCD9090
VMON
GPIO
12V
V33
A
V33
D
GPIO
3.3V OUT VMON
1.8V OUT
0.8V OUT
I0.8V
TEMP0.8V
VMON
VMON
VMON
VMON
I12V
TEMP12V VMON
VMON
I12V
12V OUT
3.3V OUT12V OUT
1.8V OUTGPIO
GPIO0.8V OUT
PWM 2MHz
I0.8V
WDI from mainprocessor GPIO
WDO GPIO
TEMP0.8V
TEMP12V
Power_Good GPIO
WARN_OC_0.8V_OR_12V GPIO
System Reset GPIO
OtherSequencer Done(Cascade Input)
GPIO
I2C/PMBUS
JTAG
/ENLDO1
VOUTVIN
/ENDC-DC 2
VOUT
VFB
VIN
3.3VSupply
/ENDC-DC 1
VOUT
VFB
VIN
INA196
TEMPIC
TEMPIC
INA196
Digital SequencersTo add telemetry to a system use external ICs such as a digital system health monitor, high precision current sensors, and temperature sensors. A digital system health monitor is an IC that includes rail sequencing, margining, UVLO, over-voltage protection (OVP), and a digital communication interface. It captures and logs data that can be utilized for controlling the fault conditions and other system controls. If current and temperature also need to be monitored, the system health monitor needs to be used in conjunction with a current sense amplifier and temperature sensor as shown.
Analog SequencersFor a simple and easy to use sequencing solution, consider the LM3880/1. This device is a good solution for power up and power down rails for FPGA designs.
EnAB
C
DEF
LM3880 #1
LM3880 #2
EnABCDEF
Power Up and Power Down Sequencing with Analog Solution
The OR gate ensures thatLM3880 #1 can’t see EN falling edge until D has fallen.
The AND gate ensures that LM3880 #2 see EN falling edge irrespective of output C
Device Features TMP112 TMP103 TMP122
Accuracy ±0.5°C ±0.3°C ±1.5°C
Quiescent Current 10 µA 3 µA 75 µA
Size 1.6 x 1.6 mm 0.76 x 0.76 mm 2.9 x 2.8 mm
Interface I2C I2C SPI
LMT84 LM94023 LMT85 LM57
Accuracy 0.4°C (typical) 1.5°C (typical) 0.3°C (typical) 0.7°C
Minimum supply voltage
1.5 V 1.5 V 1.8 V 2.4 V
Quiescent Current 5.4 µA 5.4 µA 5.4 µA 24 µA
Operating Temperature Range
-50 to 150°C -50 to 150°C -50 to 150°C -50 to 150°C
Sensor Gain -5.5 mV/°C -5.5 or -8.2 mV/°C -8.2 mV/°C -5.2, -7.8, -10.3
or -12.9 mV/°C
Size 2.0 x 2.1 mm 2.0 x 2.1 mm 2.0 x 2.1 mm 2.5 x 2.5 mm
16Analog for Xilinx® FPGAs 2015 Texas Instruments
Reset ICsTPS386000 is a quad-channel supply voltage supervisor that can monitor four independent power rails in a compact, low-power fashion. It can also be configured to behave like a sequencer so as to turn on, or turn off, the rails to an FPGA in a particular order.
System Health Monitoring SolutionsReset ICs & VID Controller
VID ControllerThe LM10011 VID bridge is a 15 A regulator with a VID interface. It allows an FPGA to control the DC/DC controller or converter output voltage. The LM10011 offers 1% IDAC output accuracy, 16 programmable output options during start-up and 4-bit/6-bit VID selection mode.
LM27403 25A
12V Input Vcore
Buck Controller
NexFET Power Block
FPGA
LM10011 VID Controller
TPS386000
DSPCPU
FPGA
WDO
SENSE1
CT1
CT1
CT2
CT2
CT3 CT4
CT3 CT4
GND
WDI
VCC
VCC1 VCC2 VCC3 VCC4
CLK
SENSE2
SENSE3
SENSE4L
SENSE4H
RP3RP4 RP2 RP1
VREF
RESET1 RESET
MR
RESET2
RESET3
RESET4
DC-DCLDO
DC-DCLDO
DC-DCLDO
DC-DCLDO
VCC4VIN
VCC3VCC4 VCC2 VCC1
EN3
EN4
VCC2
VCC3
EN2
VCC1
RS4L
RS4M
RS4H
RS3L RS2L RS1L
RS3H RS2H RS1H
RP5
17Analog for Xilinx® FPGAs 2015 Texas Instruments
System Health Monitoring SolutionsCurrent Shunt Monitors
TI’s Current Shunt Monitors are the perfect complement to Xilinx FPGAs with or without Xilinx’s Analog Mixed Signal (AMS) technol-ogy. TI’s industry leading portfolio offers unparalleled accuracy, integration, common mode range, power consumption and package technology.
Digital Output: Simple all-in-one solution integrating the ADC/MUX with program-mable switching. Provides measurements in amps, volts and watts across the I2C interface for a complete power monitoring solution.
GND
VBUS
V
I
V IN+
V IN
I CInterface
2
SDA
SCL
A0
A1Alert Register
AlertVoltage Register
Current RegisterADC
Power Register
VREF
VOUT
VIN+
VIN-
Voltage OutputHigh precision, lowest power and industry’s smallest form factors. Fixed gain options ranging from 14V/V to 1000V/V. Variable gain may be set through an external resistor.
Current Output: Variable gain set through external resistor. Highest bandwidth options.
VOUTVIN+
VIN-
Output Types
Device Description OutputCommon
Mode RangeCMRR
(Min)(dB)Gain (V/V)
OptionsInput Offset
(Max) (+/-to V)Iq
(max)(mA) Supply Packages
INA199 Voltage output, high or low-side measurement, bi-directional zero-drift series Voltage -0.3V to 26V 100 50, 100, 200 150 0.115 2.7V to 26V 10QFN,
6SC70
INA210 Voltage output, high/low-side measurement, bi-directional zero-drift series current shunt monitor Voltage -0.3V to 26V 105 50, 100, 200,
500, 1000 35 0.115 2.7V to 26V 10QFN,6SC70
INA226 High-side measurement, bi-directional current/voltage/power monitor w/I2C interface I2C 0V to 36V 126 1 10 0.33 2.7V to 5.5V 10VSSCP
INA282 Wide common mode range, bi-directional, high accuracy current shunt monitor Voltage -14V to 80V 120 50, 100, 200,
500, 1000 70 0.9 2.7V to 26V 8SOIC
LMP8640HV Precision high voltage current sense amplifier Voltage -2V to 76V 60 20, 50, 100 900 0.722 2.7V to 12V 6SOT
LMP8646 Precision current limiter Current -2V to 76V 55 1 to 100 1000 0.61 2.7V to 12V 6SOT
LMP92064 Precision, low-side, 125kSpi simultaneous sampling, current sensor and voltage monitor with SPI SPI -0.2V to 2V 110 25 60 13 (typ) 4.5V to 5.5V 16WSON
TMP512 All-in-one thermal and power monitoring solution (with 2-3 remote temperature sensors) I2C 0V to 26V 120 1, 2, 4, 8 100 1.4 2.7V to 26V 14SOIC,
16QFN
18Analog for Xilinx® FPGAs 2015 Texas Instruments
Device Features TMP411 TMP432 TMP513
Channels 1 2 3
N-Factor Correction Yes Yes Yes
Beta Correction No Yes Yes
Int. Power Monitor No No Yes
Local SensorsSimplify your design with a digital local temperature sensor. Unlike thermistors, these low-power devices offer noise-free measurements and require no additional components or calibration. Available in SPI or I2C interfaces, TI’s industry- leading portfolio offers best-in-class accuracy, power and footprint size.
System Health Monitoring SolutionsTemperature Sensors
Analog Temperature SensorsTI’s analog temperature sensors offer an easy and cost-effective way to replace thermistors. Linear and accurate across temperature and supply voltage, these devices have extremely low power consumption and require no calibration. TI’s analog temperature sensors are available as robust, automotive grade 0 solutions (150’C).
Digital Temperature SensorsUnlike thermistors, these low-power devices offer noise-free measurements and require no additional components or calibration. Available in SPI or I2C interfaces, TI’s industry-leading portfolio offers best-in-class accuracy, power and footprint size.
Device Features TMP112 TMP103 TMP122
Accuracy ±0.5°C ±0.3°C ±1.5°C
Quiescent Current 10 µA 3 µA 75 µA
Size 1.6 x 1.6 mm 0.76 x 0.76 mm 2.9 x 2.8 mm
Interface I2C I2C SPI
LMT84 LM94023 LMT85 LM57
Accuracy 0.4°C (typical) 1.5°C (typical) 0.3°C (typical) 0.7°C
Minimum supply voltage
1.5 V 1.5 V 1.8 V 2.4 V
Quiescent Current 5.4 µA 5.4 µA 5.4 µA 24 µA
Operating Temperature Range
-50 to 150°C -50 to 150°C -50 to 150°C -50 to 150°C
Sensor Gain -5.5 mV/°C -5.5 or -8.2 mV/°C -8.2 mV/°C -5.2, -7.8, -10.3
or -12.9 mV/°C
Size 2.0 x 2.1 mm 2.0 x 2.1 mm 2.0 x 2.1 mm 2.5 x 2.5 mm
19Analog for Xilinx® FPGAs 2015 Texas Instruments
System Health Monitoring SolutionsESD Protection
Data-Rate VRWM max # of Data Lines ESD Solutions
USB 2.0 480Mbps 3.3V 2 Data lines +1 VBUS + 1 ID pinTPD4E001/4E1U06TPD4S012/014/214TPD2S017/2E1B06/2E2U06
USB3.0, MHL Up to 5Gbps 3.3V 6 Data lines +1 VBUS + 1 ID pin2 Data lines + 1VBUS + 1 ID pin TPD1/4/6E05U06
DVI, HDMI1.4, DisplayPort 3.4Gbps Data Swing 2.7V to 3.3VControl Lines up to 5V 12 Data Lines
TPD12SxxseriesTPD13S523TPD5SxxseriesTPD4/6E05U06TPD4E1U06/4E1B06
MyDP, HDMI 2.0 Up to 6Gbps 3.3V 2 – 8 Lines TPD1E03B06
VGA <50Mbps Data line 0.7V Control line 5V
5 Line (9-pin connector)/ 9 line (15 pin connector)
TPD6E001TPD7S019
Ethernet 10/100/1000 Base T 3.3V 4 Lines TPD4E001, TPD4E1U06
RS-485/ 422/ 232/ CAN <200Mbps ±5V to ±15V 2 Line or multiples TPD2E007 (>12V)TPD1E10B09 (<12V)
Side Key, Memory, SDIO <100MHz 0V to 5V Multiples TPD6F002, TPDxF003,TPDxF202
Audio 20kHz -5V to 5V 2 Lines TPD2F702, TPD2E007TPD1E10B06/09
SIM Card <50MHz < 5V 4 Lines TPD3F303, TPD4E101
SATA Express Up to 8 Gbps 1V 4 Lines TPD1E02/03B06 (concepts)
ESD
TI produces ESD devices with solutions that protect the majority of external connections to the outside world. To learn more about our product protection portfolio, see the ESD/EMI Device Protection Solutions below.
20Analog for Xilinx® FPGAs 2015 Texas Instruments
Clocking SolutionsIntroduction
Texas Instruments provides the industry’s cutting-edge PLL technology for FPGAs with a broad portfolio of clocking solu-tions 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 high- perform ance, 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• 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
Clock Generators• 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 pin-
select holdover• Dynamic skew control• Programmable differential or CMOS
outputs
Clock Buffers• 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
Application ProtocolLine Rate
(Gbps)
Jitter Cleaners Clock Generators Clock Buffers
LMK0
4906
LMK0
480x
LMK0
4828
CDCE
7201
0
CDCM
7005
LMK0
3806
CDCM
6208
CDCE
6200
5/2
CDCM
6100
x
CDCM
9102
LMK0
030x
CDCL
VD12
xx/2
1xx
CDCL
VP12
xx/2
1xx
Communication Links
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 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 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
JESD204B 12.5/6.375 4
Optical
OC-3/OC-12 0.155/0.622 4 4 4 4 4 4 4 4
OC-48 2.488 4 4 4 4 4 4 4 4 4 4 4 4
OC-192 9.953 4 4 4 4 4 4 4 4 4 4
WirelessCPRI 0.644/1.2288/2.4576/3.072/
4.9152/6.144/9.8304 4 4 4 4 4 4 4 4
OBSAI 0.768/1.536/3.072/6.144 4 4 4 4 4 4 4 4 4 4
Video
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
21Analog for Xilinx® FPGAs 2015 Texas Instruments
Clocking SolutionsClock Recommendations for Xilinx®
CDCM6208The 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.
Clocking Solutions for Xilinx® FPGAsThe following table summarizes TI’s clock ing 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).
LMK04906A 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 clean-ing 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
Clock RequiredVirtex®-7
VC707Kintex®-7
KC705Artix®-7 AC701
Zynq®-7000 ZC702
Frequency (MHz) Output Type Features
Recommended TI Clocking Devices
System Clock 4 4 4 4 200 LVDS Fixed frequency
CDCM6208
SGMII GTX Clock 4 4 4 125 LVDS Fixed frequency
PS Clock 4 33.3333 CMOS Fixed frequency
User Clock 4 4 4 4 156.25 LVDS User-configurable via I2C: 10 to 810 MHz
Jitter-Attenuated Clock 4 4 4 Up to 2600 LVDS CPRI/OBSAI reference LMK04906
pro gram mable 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.
For more information about TI’s LMK04906, visit www.ti.com/product/lmk04906
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.
For more information about TI’s CDCM6208, visit www.ti.com/product/cdcm6208
22Analog for Xilinx® FPGAs 2015 Texas Instruments
Data Converter SolutionsHigh-Speed ADCs, DACs and RF-Sampling ADCs
Texas Instruments evaluation modules for high-speed data converters seamlessly mate with Xilinx® evaluation kits.
TI DAC evaluation module with FMC DAC adapter-card connection to Xilinx® evaluation kit.
TI ADC evaluation module with FMC ADC adapter-card connection to Xilinx® evaluation kit.
Get more information: www.ti.com/xilinx
Get more information: www.ti.com/dataconverters
JESD204B ADC—Highest Dynamic Performance to Maximize Receiver SensitivityThe ADS42JB69 is the industry’s first dual-channel, 16-bit analog-to-digital converter (ADC) featuring the JESD204B interface and is also the fastest at 250 MSPS.
ADC12J4000 FamilyThe ADC12J4000 family offers excellent dynamic performance over large input bandwidths and sampling rates—up to 4.0 gigasamples per second (GSPS). The product plugs directly into a Xilinx evaluation board with no adapter cards required.
ADS5295 FamilyLowest power, 8-channel, 10- to 12-bit ADCs capable of speeds to 80 MSPS in a 80-pin PQFP package.
Get more information: www.ti.com/product/ADS42JB69Get more information: www.ti.com/product/DAC38J84
Get more information: www.ti.com/product/ADC12J4000Get more information: www.ti.com/product/ADS5295
3035
40
45
50
55
60
65
70
7580
85
100908070605040302010Sampling Frequency (MHz)
Po
wer
/Cha
nnel
(dB
)
Two−WireOne−Wire
Total Power Per Channel
3002502000
200
400
600
800
1000
1200
1400
1600
150100500Sampling Rate (Msps)
Total PowerAVDDAVDD3VDRVDD + IOVDD
Power Consumption vs. Sampling Rate
Po
wer
Co
nsum
pti
on
(mW
)
High-speed, wide bandwidth, quad-channel DAC designed for applications requiring exact frequency placement and superior linearity, crosstalk and PLL phase-noise performance.
High-Speed DAC38J84 Family
23Analog for Xilinx® FPGAs 2015 Texas Instruments
Data Converter SolutionsJESD204B Interface
Overview
The JESD204B serial interface standard for data converters provides board area,FPGA/ASIC pin-count and latency improvements over traditional LVDS andCMOS interfaces. TI’s new generation of ADCs, DACs, Clock ICs and our arrayof development tools enable quick evaluation, design and implementation of projectsutilizing the JESD204B interface.
Key Features• Reduced I/O lanes and routing• Eased multi-chip, multi-board
synchronization• Deterministic latency• Smaller packages, smaller footprint• Maximize use of FPGA serial
transceivers
Support• TI High Speed Forum• TSW14J10• FMC144 for UltraScale platforms
by 4DSP
Get more information: www.ti.com/ww/en/xilinx/pg_jesd204b.html
24Analog for Xilinx® FPGAs 2015 Texas Instruments
Data Converter SolutionsTSW14J10 EVM for TI’s JESD204B Data Converters
The TSW14J10EVM allows users to rapidly evaluate and start developmentwith TI’s JESD204B data converters and Xilinx development kits.
Applications• Supports all Xilinx® FPGAs w/ HPC
FMC• Host TI HSDC Pro on FPGA
development kits• Development of system software/
firmware from standard EVM and development kits
• Interoperability testing and demonstra-tion of TI ADCs / DACs / AFEs with FPGAs
Compatible with Kintex™-7, Virtex®-7 and Zynq® development kitsCompatible with Xilinx UltraScale™ development kits
Specifications• Connects FMC input / output on TI
JES204B converter EVMs to FMC on FPGA development kits
• USB input to enable use of TI HSDC Pro converter evaluation suite through
SPI (register control)JTAG (firmware download)Data port for ADC / DAC data
• JTAG available for writing firmware to FPGA
Benefits• Directly connect TI high-speed converter
EVMs to FPGA development kits for rapid evaluation and prototyping
• Enable hosting of TI data converter test software and firmware on FPGA devel-opment kits
• Scalable TI solution from 7 series to UltraScale Xilinx platforms
EVM Data Converter Resolution SAmple Rate (Max) Channel Count Price (TI eStore) ($)ADC12J4000EVM ADC12J4000 12 4000 MSPS 1 1,999.00LM15851EVM LM15851 12 4000 MSPS(min decimate by 4) 1 1,999.00ADC12J2700EVM ADC12J2700 12 2700 MSPS 1 1,999.00ADC12J1600EVM ADC12J1600 12 1600 MSPS 1 1,999.00ADC16DX370EVM ADC16DX370 16 370 MSPS 2 499.00LM97937EVM LM97937 14 (w/SNR Boost) 370 MSPS 2 499.00ADS42JB69EVM ADS42JB69 16 250 MSPS 2 399.00ADS42JB49EVM ADS42JB49 14 250 MSPS 2 399.00ADS42JB46EVM ADS42JB46 14 160 MSPS 2 399.00ADC34J45EVM ADC34J45 14 160 MSPS 4 299.00ADC32J45EVM ADC32J45 14 160 MSPS 2 299.00ADC34J25EVM ADC34J25 12 160 MSPS 4 299.00ADC32J25EVM ADC32J25 12 160 MSPS 2 299.00ADC34J44EVM ADC34J44 14 125 MSPS 4 299.00ADC32J44EVM ADC32J44 14 125 MSPS 2 299.00ADC34J24EVM ADC34J24 12 125 MSPS 4 299.00ADC32J24EVM ADC32J24 12 125 MSPS 2 299.00ADC34J43EVM ADC34J43 14 80 MSPS 4 299.00ADC32J43EVM ADC32J43 14 80 MSPS 2 299.00ADC34J23EVM ADC34J23 12 80 MSPS 4 299.00ADC32J23EVM ADC32J23 12 80 MSPS 2 299.00ADC34J42EVM ADC34J42 14 50 MSPS 4 299.00ADC32J42EVM ADC32J42 14 50 MSPS 2 299.00ADC34J22EVM ADC34J22 12 50 MSPS 4 299.00ADC32J22EVM ADC32J22 12 50 MSPS 2 299.00
TSW14J10 Compatible EVMs: DACs and TSW (TI Solutions for the World)EVM Data Converter Resolution SAmple Rate (Max) Channel Count Price (TI eStore) ($)DAC38J84EVM DAC38J84 16 2500 MSPS 4 499.00DAC38J82EVM DAC38J82 16 2500 MSPS 2 499.00DAC37J84EVM DAC37J84 16 1600 MSPS 4 499.00DAC37J82EVM DAC37J82 16 1600 MSPS4 2 499.00
EVM Data Converter, RF, Amplifiers Description Signal Bandwidth (Max)
RF Frequency Range
Channel Count
Price (TI eStore) ($)
TSW38J84EVM DAC38J84, TRF3722, TRF3705 Main / diversity direct transmit reference design 1000 MHz 400MHz – 4.0 GHz 2 799.00TSW16DX370EVM ADC16DX370, TRF37B42,
LMH6521Main / diversity heterodyne receiver with AGC
amplifier125 MHz 500 MHz – 3.3GHz 2 799.00
New products are listed in bold red. Preview products are listed in bold teal.
TSW14J10 Compatible EVMs: ADCs
Get more information: www.ti.com/tool/tsw14j10evm
25Analog for Xilinx® FPGAs 2015 Texas Instruments
Data Converter Solutions4DSP FMC144 on Xilinx® KCU105 Demo
Board Highlights • 16-Channel Operation
Eight-channel, 16-bit A/D up to 370 MspsEight-channel, 16-bit D/A up to 2.5 Gsps
• VITA 57.1-2010 compliant• Conduction-cooled – Standard Option• AC or DC-coupled analog signals• 10 SSMC/MMCX front panel
connectors• Clock source, sampling frequency, and
calibration through SPI communication busses
• Flexible clock tree enables:Internal clock sourceExternal sampling or reference clock
• Power-down modes to switch off unused functions for system power savings
• Mil-I-46058c Conformal Coating Compliant (optional)
• HPC – High Pin Count connector• LVDS and 1.65V to 3.3V IO signaling
The FMC144 is an eight-channel ADC/DAC FMC daughter card for use with the Xilinx KCU105 Demo. The card provides four 16-bit A/D channels and four 16-bit D/A chan-nels clocked by an internal clock source (optionally locked to an external reference) or by an externally supplied sample clock. .
Get more information: www.ti.com/fmc144
Specifications • TI DAC38J84 and T1 ADC16DX370
with JESD2048• Flexible clock circuitry with onboard
external clocking options• Independent waveform selection for
each DAC channel• Real-time software FFT analysis per
ADC channel• Real-time software FFT spectrum and
waveform display for all ADC channels• 10 frames / sec refresh rate at 64K
bursts
Applications • Software Defined Radio• Wireless Test• Digital Repeater• Radar• Base Station/Remote Radio
26Analog for Xilinx® FPGAs 2015 Texas Instruments
FPGAfor Decimation and
FilteringFPGAfor Decimationand Filtering
GateDrivers
sin
cos
AMC1204
Inverter
ADS1200
ADS1205
ADS1209
AMC1203
MCUF28xx Series
MCUF28xx Series
MCUF28xx Series
Shunt Resistors Resolver Motor
Non-Isolated∆Σ Modulators
Isolated∆Σ Modulators
Isolated Amplifiers
PWMExcitation
Data Converter SolutionsPrecision ADCs and DACs
Delta-Sigma Modulators—Current-Measurement Applications
Delta-Sigma Modulators—Motor-Control Applications
GateDrivers
Hall
Load
AMC1204
Inverter
ADS1204
AMC1200
ADCADS794xADS83xx
ADS1205
ADS1209
FPGAfor Decimation and Filtering
AMC1203
MCUF28xx Series
Isolated∆Σ Modulators
for Shunt Resistors
Non-Isolated∆Σ Modulators
for Magnetic Sensors
Isolated Amplifiers
for Shunt Resistors
www.ti.com/dataconverter
27Analog for Xilinx® FPGAs 2015 Texas Instruments
Signal Conditioner SolutionsRetimers and Redrivers
Clean Signal Noisy Signal
Line Card
Switch Fabric
DS110DF410
Retimer withDFE
Retimer withDFE
ASIC
ClockGenerator
ClockGenerator
ClockBuffer
ClockBuffer
LMK04906LMK03806
LMK04906LMK03806
LMK0010xLMK0030x
LMK0010xLMK0030x
x4
FPGA
x4
Retimer (CDR)
Retimer
Optical Modules
DS100DF410
x4
x4
10GE,Fiber Channel,InfiniBand®,SONET, CPRI,Others
DS100MB203
Retimers,LD, TIA, PA
Repeater,Retimer
Active CopperAssemblies
DS100BR410DS100BR111
PassiveCopper
DS125RT410
DP838630TLK105/106
EthernetPHY
Repeaters/Redrivers and RetimersDevice Channels Protocol Max Data Rate (Gbps) Input SigCon (dB) Output SigCon (dB) Power/Ch (mW) Package(s)
DS100KR401/800 Up to 81 Multi-protocol2 10.3 36 –12 65 QFN-54
DS100BR410 4 Multi-protocol3 10.3 36 –9 55 QFN-48
DS100DF410 4 10GbE/1GbE retimer 10.3 36 –12 175 QFN-48
DS110DF410 4 Multi-protocol retimer 11.3 36 –12 175 QFN-48
DS125DF410 4 Multi-protocol retimer 12.5 36 –12 175 QFN-48
DS100BR111/210 21 Multi-protocol2, 3 10.3 36 –12 65 QFN-24
DS80PCI402/800 81 PCIe Gen-1/2/3 8 36 –12 65 QFN-54
DS80PCI102 21 PCIe Gen-1/2/3 8 36 –12 65 QFN-24
DS50PCI402 81 PCIe Gen-1/2 5 26 –12 95 QFN-54
DS64BR401 81 Multi-protocol1, 3 6.4 33 –12 95 QFN-54
SN75LVCP600S 1 Multi-protocol3 6 15 –1.5 106 QFN-10
SN75LVCP601 21 Multi-protocol3 6 14 –7 110 QFN-20
SN65LVPE502CP 21 USB 3.0 5 15 –7 165 QFN-24
DS42BR400 81 Multi-protocol 4.2 5 –9 163 QFN-60
DS25BR440 4 Multi-protocol 3.125 5 6 134 QFN-40
DS25BR100 1 Multi-protocol 3.125 8 6 115 QFN-81Bidirectional channel.2Includes support for 10G-KR link training.3Includes SAS/SATA OOB support.
Telecom Switch/Router Solutions
28Analog for Xilinx® FPGAs 2015 Texas Instruments
Signal Conditioner SolutionsSerial Digital Interface (SDI)
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
SDISDI InENABLE
SMBus
SDI Out
SDO+
SDO–
LMH0303SDI Cable Driver
Enable Control
SDI
Clock
SD/HD
CD
SPI
LMH0384SDI Equalizer
ENABLE
LMH0356SDI Reclocker
SPA Board(s)(SPI, SMBus Control)
3G/HD/SD SDI Switcher Simplified Block Diagram
LMH03443G SDI AdaptiveCable Equalizer
LMH03463G SDI
Reclocker
LMH03023G SDI
Cable Driver
LMH03073G SDI
Dual CableDriver with
Cable Detect
LMH03563G SDI
Reclocker with4:1 Input MUX
LMH03413G SDI
ReclockingDeserializer
FPGA
LMH03403G SDI
Serializerand Driver
LMH03843G SDI AdaptiveCable Equalizer
DS25CP104A3G SDI
4 x 4 LVDSCrosspoint
Switch
Coax
Coax
Coax
Coax
Coax
Coax
TI’s Easy-to-Use Video SolutionsFor 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.
Base Portfolio
SDI Family Equalizers Reclockers Cable Drivers Serializers DeserializersVideo Clocking
Products
3G
LMH0384 LMH0356 LMH0307 LMH0340 LMH0341 LMH1982
LMH0344 LMH0346 LMH0303 LMH1981
LMH0302
HDLMH0044 LMH0056 LMH0002
LMH0050 LMH0040 LMH0030
LMH0051 LMH0041 LMH0031
LMH0034 LMH0046 LMH0202
SDLMH0024 LMH0036 LMH0001 LMH0070 LMH0071
LMH0074 LMH0026
Get more information: www.ti.com/sdi
29Analog for Xilinx® FPGAs 2015 Texas Instruments
Signal Conditioner SolutionsSerDes
Signal Conditioning Extends Signal Integrity of FPGA Solutions
Cables
Cam
era Cables
Sensor/Imager
ProcessingDisplayMonitor
Seria
lizer
Dese
rializ
er
Dese
rializ
er
Seria
lizer
SerDes Families
Family Serializer DeserializerParallel
Interface SigConCLK Min (MHz)
CLK Max (MHz)
Typ Reach (m) Special Features
FPGA-Link DS32EL0421 DS32EL0124 5-bit LVDS TX De-E, RX EQ 125 312.5 20
FPGA-Link DS32ELX0421 DS32ELX0124 5-bit LVDS TX De-E, RX EQ 125 312.5 20 Redundant output, loop-through
Channel Link 2 DS92LV2411 DS92LV2412 24-bit LVCMOS RX EQ 5 50 10 Supports embedded video control
Channel Link 2 DS92LV2421 DS92LV2422 24-bit LVCMOS RX EQ 10 75 10 Supports embedded video control
Key Features• Supports IEEE1588 v1 and v2 precision time protocol
(DP83640)• Enables IEEE 1588 with any MAC-based FPGA, ASIC or
microcontroller
Get more information: www.ti.com/lvds
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
Ethernet SolutionsEthernet PHYs for Xilinx®-6 and -7 Series FPGAs
Ethernet PHYs for Xilinx®
Device InterfaceCable
Length (m)No. of LEDs JTAG
Cable Diagnostics FX Support
IEEE1588 HW Support
25-MHz Clock Out
Temp Range (ºC) Package
DP83848I MII, RMII, SNI 150 3 4 4 –40 to 85 QFP-48
DP83848Q* MII, RMII 150 1 4 –40 to 105 QFN-40
TLK110 MII, RMII 150 3 4 4 4 –40 to 85 QFP-48
DP83630 MII, RMII 150 3 4 4 4 4 4 –40 to 85 QFN-48
TLK105 MII, RMII 150 1 –40 to 85 QFN-32
TLK106 MII, RMII 150 1 4 –40 to 105 QFN-32
DP83848J MII, RMII 137 2 0 to 70 QFN-40
DP83848K MII, RMII 137 2 –40 to 85 QFN-40
DP83848M MII, RMII 137 1 4 0 to 70 QFN-40
DP83848T MII, RMII 137 1 4 –40 to 85 QFN-40
DP83848H MII, RMII 137 1 4 –40 to 125 QFN-40
DP83848C MII, RMII, SNI 137 3 4 0 to 70 QFP-48
TLK100 MII 200 3 4 4 –40 to 85 QFP-48
DP83620 MII, RMII 150 3 4 4 4 4 –40 to 85 QFN-48
DP83640 MII, RMII 150 3 4 4 4 4 4 –40 to 85 QFP-48
DP83848VYB MII, RMII, SNI 150 3 4 4 –40 to 105 QFP-48
DP83848YB MII, RMII, SNI 150 3 4 4 –40 to 125 QFP-48* AEC–Q100 Grade 2 New products are listed in bold red. Preview products are listed in bold teal.
• 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
30Analog for Xilinx® FPGAs 2015 Texas Instruments
Jump start your design process• Comprehensive reference designs
• Complete schematics/block diagrams
• BOMs
• Design files and test reports
Search by product type, application or keyword to find inspiration for your next design www.ti.com/tidesigns
Notes
SLYT519B© 2015 Texas Instruments IncorporatedPrinted in U.S.A. by (Printer, City, State)
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.
TI Worldwide Technical Support
InternetTI Semiconductor Product Information Center Home Pagesupport.ti.com
TI E2E™ Community Home Pagee2e.ti.com
Product Information CentersAmericas Phone +1(512) 434-1560
Brazil Phone 0800-891-2616
Mexico Phone 0800-670-7544
Fax +1(972) 927-6377 Internet/Email support.ti.com/sc/pic/americas.htm
Europe, Middle East, and AfricaPhone European Free Call 00800-ASK-TEXAS (00800 275 83927) International +49 (0) 8161 80 2121 Russian Support +7 (4) 95 98 10 701
Note: The European Free Call (Toll Free) number is not active in all countries. If you have technical difficulty calling the free call number, please use the international number above.
Fax +(49) (0) 8161 80 2045Internet www.ti.com/asktexasDirect Email [email protected]
JapanFax International +81-3-3344-5317 Domestic 0120-81-0036
Internet/Email International support.ti.com/sc/pic/japan.htm Domestic www.tij.co.jp/pic
AsiaPhone Toll-Free Number Note: Toll-free numbers may not support
mobile and IP phones. Australia 1-800-999-084 China 800-820-8682 Hong Kong 800-96-5941 India 000-800-100-8888 Indonesia 001-803-8861-1006 Korea 080-551-2804 Malaysia 1-800-80-3973 New Zealand 0800-446-934 Philippines 1-800-765-7404 Singapore 800-886-1028 Taiwan 0800-006800 Thailand 001-800-886-0010International +86-21-23073444Fax +86-21-23073686Email [email protected] or [email protected] support.ti.com/sc/pic/asia.htm
A021014
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.
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