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KC705 Power Bus Monitoring © Copyright 2012 Xilinx.

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Presentation on theme: "KC705 Power Bus Monitoring © Copyright 2012 Xilinx."— Presentation transcript:

1 KC705 Power Bus Monitoring © Copyright 2012 Xilinx

2 Page 2 Contents Caution! Xilinx KC705 Board Hardware & Software Requirements Setup TI Fusion Digital Power Designer Tool Tutorial

3 Page 3 Caution! The Texas Instruments software used in this presentation can adjust the power supply outputs on the KC705 If used improperly, it may seriously damage your KC705 Before making any adjustments not specifically covered in this presentation: –Understand the power requirements for Kintex-7 Devices –Understand the consequences of the change you are making

4 Page 4 Xilinx KC705 Board

5 Page 5 Hardware Requirements Texas Instruments USB Interface Adapter EVM –TI Part Number: USB-TO-GPIOUSB-TO-GPIO

6 Page 6 Software Requirements Texas Instruments Power Software –TI Part Number: FUSION_DIGITAL_POWER_DESIGNERFUSION_DIGITAL_POWER_DESIGNER –Download: Latest Release at

7 Page 7 Software Setup Install the TI Fusion Digital Power Designer Software

8 Page 8 Connect TI USB Interface Adapter On the TI USB Adapter –Connect the Ribbon Cable –Connect the USB Cable

9 Page 9 Connect TI USB Interface Adapter (2) Connect the Ribbon Cable to the KC705 –Red Stripe towards pin 1 –Insert the “A” end of the USB cable into a PC USB port (do not use a docking station or USB hub port) –Turn on the KC705 board

10 Page 10 TI Fusion Digital Power Designer Open Digital Power Designer (DPD)

11 Page 11 TI Fusion Digital Power Designer (2) Click on UCD9XXX and Similar

12 Page 12 TI Fusion Digital Power Designer (3) The DPD opens; Click on Monitor

13 Page 13 TI Fusion Digital Power Designer (4) Address automatically set to Address 52 Rail #1 Select Vin and In – Input voltage and current from the Power Brick –12 V Input

14 TI Fusion Digital Power Designer (5) Select Vout Iout, Pout, and Ext Temp – Measurements for VCCINT_FPGA (1.0 V) –TI PTD08A020W – 20A, 0.6V to 3.6V, Non-Isolated, Digital PowerTrain Module (U21)PTD08A020W

15 TI Fusion Digital Power Designer (6) Select Address 52, Rail #2

16 TI Fusion Digital Power Designer (7) View VCCAUX (1.8 V) –TI PTD08D021W – Dual 10A, 0.6V to 3.6V, Non-Isolated, Digital PowerTrain Module (U103)

17 TI Fusion Digital Power Designer (8) At Address 52, Rail #3, view VCC3V3 (3.3 V) –TI PTD08A021W – Dual 10A, 0.6 to 3.6V, Non-Isolated, Digital PowerTrain Module (U103)

18 TI Fusion Digital Power Designer (9) Monitoring process can be repeated for Address 53: Select Address 53, Rail #1 –Click Monitor

19 TI Fusion Digital Power Designer (10) At Address 53, Rail #1, view VCC2V5_FPGA (2.5 V) - TI PTD08D021W – Dual 10A, 0.6 to 3.6V Non-Isolated Digital PowerTrain Module (U104) At Address 53, Rail #2, view VCC1V5_FPGA (1.5 V) - TI PTD08D021W – Dual 10A, 0.6 to 3.6V Non-Isolated Digital PowerTrain Module (U104) At Address 53, Rail #3, view MGTAVCC (1.00 V) - TI PTD08D021W – Dual 10A, 0.6 to 3.6V Non-Isolated Digital PowerTrain Module (U105) At Address 53, Rail #4, view MGTAVTT (1.20 V) - TI PTD08D021W – Dual 10A, 0.6 to 3.6V Non-Isolated Digital PowerTrain Module (U105)

20 TI Fusion Digital Power Designer (11) Monitoring process can be repeated for Address 54: Select Address 54, Rail #1 –Click Monitor

21 TI Fusion Digital Power Designer (12) At Address 54, Rail #1, view VCCAUX_IO (2.00 V) - TI PTD08A021W – Dual 10A, 0.6V to 3.6V, Non-Isolated, Digital PowerTrain Module (U106) At Address 54, Rail #2, view VCCBRAM (1.00 V) - TI PTD08A021W – Dual 10A, 0.6V to 3.6V, Non-Isolated, Digital PowerTrain Module (U106) At Address 54, Rail #3, view MGTVCCAUX (1.80 V) - TI PTD08A010W – 10A, 0.6V to 3.6V, Non-Isolated, Digital PowerTrain Module (U99)

22 Page 22 Complete When this Power Monitoring exercise is complete:  Close the TI Fusion Digital Power Designer GUI  Turn off the power to your KC705  Eject the TI USB Interface Adapter from your PC USB port


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