Texas Instruments TPS65988DK User Manual
Texas Instruments TPS65988DK User Manual

Texas Instruments TPS65988DK User Manual

Evaluation module
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User's Guide
TPS65988 Evaluation Module
This document is the user guide for the TPS65988 Evaluation Module (TPS65988EVM). The TPS65988EVM
allows for evaluation of the TPS65988 IC as part of a stand-alone testing kit and for development and testing of
USB Type-C and Power Delivery (PD) end products. Out of the box, the TPS65988EVM is configured to emulate
a dual-port laptop computer. Both ports can be used to source or sink power, and both are dual-role ports (DRP)
but only support data as a downstream-facing port (DFP) host. When different configurations are required to test
your system, use the TPS65988 Application Configuration software tool to create a configuration or load a
different configuration template (see
DisplayPort
(DP) and a USB HUB (TUSB8020) to route USB signals to the appropriate port A or port A (port
A/B). The control MUX and USB HUB are connected to a SuperSpeed (SS) MUX (TUSB546) which routes the
appropriate DP lanes and USB 3.0 signals according to cable orientation and Alternate Mode selection.
1-2
highlights these features.
SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020
Submit Document Feedback
ABSTRACT
Figure
1-1). The TPS65988EVM uses a control MUX (HD3SS3412) to route

Figure 1-1. TPS65988EVM

Copyright © 2020 Texas Instruments Incorporated
Figure
TPS65988 Evaluation Module
1

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Summary of Contents for Texas Instruments TPS65988DK

  • Page 1: Figure 1-1. Tps65988Evm

    DP lanes and USB 3.0 signals according to cable orientation and Alternate Mode selection. Figure highlights these features. Figure 1-1. TPS65988EVM SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 2: Table Of Contents

    MUX_CTR source L0-2 DP0-3 TUSB546 USB2 C_SSTX source USB3 Copyright © 2017, Texas Instruments Incorporated Figure 1-2. TPS65988EVM Block Diagram Table of Contents 1 About this Manual...................................5 2 Information About Cautions and Warnings..........................5 3 Items Required for Operation..............................Introduction.....................................5 Setup......................................6 5.1 Switch, Push Button, Connector, and Test Point Descriptions...................
  • Page 3 Figure 9-1. TPS65988EVM Block Diagram..........................Figure 9-2. TPS65988EVM Processor Block..........................39 Figure 9-3. TPS65988EVM Power Path Block.......................... Figure 9-4. TPS65988EVM Power Supply Block........................41 SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 4 Total Phase, Incorporated. DisplayPort ™ are trademarks of Video Electronics Standards Association. BoosterPack ™ is a trademark of Texas Instruments. FTDI ® and Future Technology Devices International ® , are registered trademarks of Future Technology Devices International Limited.
  • Page 5: About This Manual

    Future Technology Devices International ® ( FTDI ® ) board and Aardvark connector to SPI or I interfaces for debugging and development. SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 6: Setup

    5.1.1 Power Path Jumper Configuration The TPS65988EVM allows for analysis of TPS65987D and TPS65987S platforms through the adjustment of jumpers on J11 and J12. TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 7: Figure 5-1. Tps65988 Jumper Configuration

    Figure 5-1 Figure 5-2 the TPS65988 Jumper Configuration. Figure 5-1. TPS65988 Jumper Configuration Figure 5-2. TPS65988 Jumper Configuration Net Names SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 8: Figure 5-3. Tps65987D Jumper Configuration

    TPS65987D Jumper Configuration. When the TPS65988EVM is configured as a TPS65987D, only Port A is functional. Figure 5-3. TPS65987D Jumper Configuration Figure 5-4. TPS65987D Jumper Configuration Net Names TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 9: Figure 5-5. Tps65987S Jumper Configuration

    TPS65987D Jumper Configuration. When the TPS65988EVM is configured as a TPS65987S, only Port A is functional. Figure 5-5. TPS65987S Jumper Configuration SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 10: Figure 5-6. Tps65987S Jumper Configuration Net

    HD3SS3412 Port B BDP0 BDP1 TUSB546 BDP2 BDP3 Copyright © 2017, Texas Instruments Incorporated Figure 5-8. DisplayPort ™ Source Block Diagram TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 11: Figure 5-9. Displayport Source Receptacle

    HRESET ADCIN1 ADCIN2 HRESET P3V3 0.01µF 100k Figure 5-10. HRESET Push-Button (S1) Schematic Figure 5-11. HRESET Push-Button (S1) SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 12: Figure 5-12. Spi-Miso Pull Down Switch

    F_SPI_CLK R212 F_I2C_IRQ1 R215 I2C1_SCL R218 R219 F_SWD_DATA I2C1_SDA R222 R223 F_SWD_CLK ® Figure 5-13. FTDI Dip Switch (S3) Schematic TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 13: Figure 5-14. Ftdi Dip Switch (S3)

    Switch4 through Switch6 adjusts the BusPowerZ setting by adjusting the voltage divider on ADCIN1. Refer to the TPS65988 datasheet to see the different BusPowerZ configurations. Figure 5-15 highlights the default switch setting of S2. SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 14: Figure 5-15. I2C And Buspower Dip Switch (S2)

    PD contracts up to 60 W per port or 120 W, total. An appropriate power adapter greater than 120 W must TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 15: Figure 5-17. Barrel Jack (J1) Schematic

    SHIELD POWER SHIELD SHIELD SENSE POWER JPD1135-509-7F 100k 11.0k Figure 5-17. Barrel Jack (J1) Schematic Figure 5-18. Barrel Jack (J1) SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 16: Figure 5-19. Barrel Jack Detect Schematic

    TUSB546 Port B BDP0 BDP1 TUSB546 BDP2 BDP3 Copyright © 2017, Texas Instruments Incorporated Figure 5-21. USB (J11) Block Diagram TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 17: Figure 5-22. Usb Type-B Receptacle (J11)

    Setup Figure 5-22. USB Type-B Receptacle (J11) SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 18: Figure 5-23. Usb Type-C Receptacles (J2) Schematic

    Figure 5-24 highlight these features. Figure 5-23. USB Type-C ™ Receptacles (J2) Schematic Figure 5-24. USB Type-C ™ Receptacles (J2) TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 19: Figure 5-25. Usb Micro-B Receptacle (J9) Schematic

    F_USB_D_N 26 ohm F_5V_VBUS VBUS C143 0.01µF Figure 5-25. USB Micro-B Receptacle (J9) Schematic Figure 5-26. USB Micro-B Receptacle (J9) SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 20: Figure 5-27. Tp13 (5 V), Tp8 (3.3 V), And Tp12 (1.2 V)

    C or SPI pins when powered. TI recommends leaving the FT4232 in reset by having the Force Enable switches (switch 1 and switch 2) in the disabled (up) position. TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 21: Figure 5-28. Aardvark Connector (J10) Schematic

    GND planes through multiple vias.Figure 5-30 highlights these features. Figure 5-30. TP10, TP11, TP15, TP16, TP17, TP18, TP9: GND Test Points SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 22: Figure 5-31. Tp1, Tp2, Tp3 And Tp4 - Cc1 And Cc2 Test Points

    Figure 5-31. TP1, TP2, TP3 and TP4 – CC1 and CC2 Test Points Figure 5-32. TPS65988 BMC Data TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 23: Figure 5-33. Vbus Test Points: Tp14

    TPS65988 Configuration Tool User Guide for configuration instructions. Figure 5-33 Figure 5-34 highlights these features. Figure 5-33. VBUS Test Points: TP14 Figure 5-34. TPS65988 VBUS Voltage Transition SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 24: Figure 5-35. A-Var, B-Var And System Power Test Points: Tp7, Tp6, And Tp5

    Figure 5-35 highlights these features. Figure 5-35. A-Var, B-Var and System Power Test Points: TP7, TP6, and TP5 TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 25: Led Indicators Description

    100k R178 100k R179 100k Copyright © 2017, Texas Instruments Incorporated Figure 5-36. BoosterPack ™ Headers (J3 and J4) 5.2 LED Indicators Description The EVM has multiple LEDs to notify the user what type of connection is present. The LEDs are separated into two groups: MUX control LEDs (MXCTL0–2) and status LEDs.
  • Page 26: Figure 5-37. Mux Control Leds

    USB 3.0 event D18 - MXCTL1 GPIO5 DP mode event D19 - MXCTL2 GPIO7 Cable orientation event D24 - PA_HPD GPIO3 TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 27: Figure 5-39. Pdo Port A/B Leds

    D22 - PB_PDO0 GPIO_15 PDO TT bit 0 D5 - PA_VAR_DCDC GPIO_16 VAR-A enable D3 - PB_VAR_DCDC GPIO_17 VAR-B enable SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 28: Table 5-4. Pdo Led 0 And Pdo Led 1 Truth

    011b 0.90 Table 5-6. ADCIN1 Setting Switch On, Off Bits Divider Ratio 000b 0.00 001b 0.34 010b 0.50 011b 0.90 TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 29: Using The Tps65988Evm

    DFP. If different configurations are required to test your system, use the TPS65988 Application Configuration GUI tool to create a configuration or load a different configuration template. SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 30: Connecting The Evm

    C to DP directly plugged in port A/B, Type-A flash drive, USB Type-C to DP, HDMI dongle or USB Type-C docking system. Note The TPS65988 can only be DP and USB 3.0 host or source. TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 31: Figure 7-2. Connecting Evm To Usb Type-C Devices

    USB Type-C to Type-A Cable Flash Drive USB Type-C to DP/HDMI Dongle DP/HDMI Monitor TPS65988-EVM Figure 7-2. Connecting EVM to USB Type-C ™ Devices SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 32 USB Type-C flash drive to the other USB Type-C port on the TPS65988EVM. The monitor displays what is present from the DP source. The flash drive enumerates on the windows PC. Table 7-1 explains this test setup. TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 33: Table 7-1. Displayport And Usb Test Setup

    A/B with a USB Type-C to DP cable. USB can be connected to Port A/B directly with a Type-C Flash Drive SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 34 PC, it is confirmed that USB data is functioning properly. USB 3.0 data can be confirmed by observing LED MUX_CTRL0 in the high state. TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 35: Debugging The Evm

    Verify that VBUS is reaching 5 V when connected, (see Figure 7-4) Figure 7-3. DRP CC1 and CC2 Toggling Figure 7-4. USB Type-C ™ Connection and VBUS SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 36: Figure 7-5. Usb Type-C Connection And Pd Negotiation

    Check for a small spike on VBUS during a plug event to verify that the PP_HV or PP_EXT switch is closed and is then opened, once an overcurrent condition is detected. Figure 7-5. USB Type-C ™ Connection and PD Negotiation TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 37: Reach Compliance

    In compliance with the Article 33 provision of the EU REACH regulation, the user is notified that this EVM includes component(s) containing at least one Substance of Very High Concern (SVHC) above 0.1%. The substance use from Texas Instruments does not exceed 1 ton per year. The SVHCs are shown in Table 8-1.
  • Page 38: Tps65988Evm Schematic

    MUX_CTR source L0-2 DP0-3 TUSB546 USB2 C_SSTX source USB3 Copyright © 2017, Texas Instruments Incorporated Figure 9-1. TPS65988EVM Block Diagram TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 39: Figure 9-2. Tps65988Evm Processor Block

    USB Type-C PD controller and contains connections for GPIOs, D+ and D-, CC1 and CC2, HRESET, I C lines, SPI for flash memory, and ADC1 and ADC2. Figure 9-2. TPS65988EVM Processor Block SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 40: Figure 9-3. Tps65988Evm Power Path Block

    PMOS with RCP circuit. The internal power path is used for sourcing power and the external power path is used for sinking power. The TPS65988 power path can provide power to VBUS or consume power from VBUS. Figure 9-3. TPS65988EVM Power Path Block TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 41: Figure 9-4. Tps65988Evm Power Supply Block

    SYS_PWR is 5 V; however, this also decreases VBUS maximum power capabilities. When using a lower voltage, the comparator circuit may have to be adjusted to trip at a lower voltage for proper barrel jack detection. Figure 9-4. TPS65988EVM Power Supply Block SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 42: Figure 9-5. Tps65988Evm Displayport Mux

    DisplayPort Mux used to switch the DisplayPort signals to either USB Type-C Port. Figure 9-5. TPS65988EVM DisplayPort Mux TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 43: Figure 9-6. Tps65988Evm Ss Mux Block Port A

    USB 3.1 data rates up to 5 Gbps and DP 1.4 up to 8.1 Gbps with 2 or 4 DP lanes. Figure 9-6. TPS65988EVM SS MUX Block Port A SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 44: Figure 9-7. Tps65988Evm Ss Mux Block Port B

    USB 3.1 data rates up to 5 Gbps and DP 1.4 up to 8.1 Gbps with 2 or 4 DP lanes. Figure 9-7. TPS65988EVM SS MUX Block Port B TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 45: Figure 9-8. Tps65988Evm Usb Hub

    Figure 9-8 shows the USB HUB, which contains the connections from the USB source receptacle. Figure 9-8. TPS65988EVM USB HUB SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 46: Figure 9-9. Tps65988Evm Usb Type-C Port-A Block

    USB Type-C block, which includes the USB Type-C port A and ESD protection. Figure 9-9. TPS65988EVM USB Type-C ™ Port-A Block TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 47: Figure 9-10. Tps65988Evm Usb Type-C Port B Block

    USB Type-C block, which includes the USB Type-C port B and ESD protection. Figure 9-10. TPS65988EVM USB Type-C ™ Port B Block SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 48: Figure 9-11. Tps65988Evm Ftdi Connector

    Figure 9-11 shows the FTDI block, which contain the connections from the FTDI board. Figure 9-11. TPS65988EVM FTDI ® Connector Block TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 49: Figure 9-12. Tps65988Evm Current Sense Block Port A

    VBUS and VIN_3V3 for port A and port B. Figure 9-12. TPS65988EVM Current Sense Block Port A Figure 9-13. TPS65988EVM Current Sense Block Port B SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 50: Figure 9-14. Tps65988Evm Boosterpack Header

    Figure 9-14 shows the BoosterPack headers block, which contain the connections to the BoosterPack headers. Figure 9-14. TPS65988EVM BoosterPack Header Block TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 51: Tps65988Evm Board Layout

    Figure 10-1. TPS65988EVM Top Overlay Figure 10-2. TPS65988EVM Solder Figure 10-3. TPS65988EVM Top Layer SSTXRX1 Figure 10-4. TPS65988EVM GND Plane 1 SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 52: Figure 10-5. Tps65988Evm High Speed

    Figure 10-5. TPS65988EVM High Speed Figure 10-6. TPS65988EVM GND Plane 2 Figure 10-7. TPS65988EVM Power 1 Figure 10-8. TPS65988EVM Power 2 TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 53: Figure 10-9. Tps65988Evm Gnd Plane 3

    Figure 10-9. TPS65988EVM GND Plane 3 Figure 10-10. TPS65988EVM SSTXRX2 Figure 10-11. TPS65988EVM Solder Mask Figure 10-12. TPS65988EVM Bottom Layer Component View SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 54: Tps65988Evm Bill Of Materials

    Murata C53, C54, C62, C63 47uF CAP, TA, 47 µF, 35 V, +/- 10%, 0.3 ohm, SMD 7343-43 T521X107M025ATE060 Kemet TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 55 White LED, White, SMD 0402, White LW QH8G-Q2S2-3K5L-1 OSRAM D18_PA_SS, D18_PB_SS, D19_PA_SS, D19_PB_SS, D20, D21, D22, D23, D24, D25, D26 SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 56 RES, 3.83 k, 1%, 0.05 W, 0201 0201 CRCW02013K83FKED Vishay-Dale R7, R8 10.0k RES, 10.0 k, 1%, 0.05 W, 0201 0201 MCR006YRTF1002 Rohm TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 57 R308, R309, R310, R312, R313, R314, R323, R324, R325, R326 191k RES, 191 k, 1%, 0.05 W, 0201 0201 RC0201FR-07191KL Yageo America SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 58 RES, 10.0 k, 1%, 0.1 W, 0603 0603 RC0603FR-0710KL Yageo America R195 1.00k RES, 1.00 k, 1%, 0.1 W, 0603 0603 CRCW06031K00FKEA Vishay-Dale TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 59 U13_PA_CS, High-Accuracy, Wide Common-Mode Range, Bidirectional DGK0008A INA284AIDGKR Texas Instruments INA284AIDGKT Texas Instruments U13_PB_CS Current Shunt Monitors, Zero-Drift Series, DGK0008A SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 60 RES, 39 k, 5%, 0.063 W, 0402 0402 CRCW040239K0JNED Vishay-Dale R115 560k RES, 560 k, 5%, 0.063 W, 0402 0402 CRCW0402560KJNED Vishay-Dale TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 61 Notes: Unless otherwise noted in the Alternate Part Number or Alternate Manufacturer columns, all parts may be substituted with equivalents. SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 TPS65988 Evaluation Module Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 62: Revision History

    Changes from Revision * (June 2017) to Revision A (June 2018) Page • Overall rework of this user's guide for revision A from Section 4 Section 9............5 TPS65988 Evaluation Module SLVUB62B – JUNE 2017 – REVISED NOVEMBER 2020 Submit Document Feedback Copyright © 2020 Texas Instruments Incorporated...
  • Page 63 STANDARD TERMS FOR EVALUATION MODULES Delivery: TI delivers TI evaluation boards, kits, or modules, including any accompanying demonstration software, components, and/or documentation which may be provided together or separately (collectively, an “EVM” or “EVMs”) to the User (“User”) in accordance with the terms set forth herein.
  • Page 64 www.ti.com Regulatory Notices: 3.1 United States 3.1.1 Notice applicable to EVMs not FCC-Approved: FCC NOTICE: This kit is designed to allow product developers to evaluate electronic components, circuitry, or software associated with the kit to determine whether to incorporate such items in a finished product and software developers to write software applications for use with the end product.
  • Page 65 www.ti.com Concernant les EVMs avec antennes détachables Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique à...
  • Page 66 www.ti.com EVM Use Restrictions and Warnings: 4.1 EVMS ARE NOT FOR USE IN FUNCTIONAL SAFETY AND/OR SAFETY CRITICAL EVALUATIONS, INCLUDING BUT NOT LIMITED TO EVALUATIONS OF LIFE SUPPORT APPLICATIONS. 4.2 User must read and apply the user guide and other available documentation provided by TI regarding the EVM prior to handling or using the EVM, including without limitation any warning or restriction notices.
  • Page 67 Notwithstanding the foregoing, any judgment may be enforced in any United States or foreign court, and TI may seek injunctive relief in any United States or foreign court. Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265 Copyright © 2019, Texas Instruments Incorporated...
  • Page 68 TI products. TI’s provision of these resources does not expand or otherwise alter TI’s applicable warranties or warranty disclaimers for TI products. Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265 Copyright © 2020, Texas Instruments Incorporated...

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