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SLLU288 – March 2018

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Copyright © 2018, Texas Instruments Incorporated

TUSB564RNQ Evaluation Module

User's Guide

SLLU288 – March 2018

TUSB564RNQ Evaluation Module

This user's guide describes the characteristics and use of the TUSB564RNQ evaluation module. This
document describes how to power up the EVM and also includes schematics that can be used as
reference design for the Alternate mode implementations of the system with the TUSB564 device.

Contents

1

Introduction

...................................................................................................................

2

2

TUSB564RNQ EVM

.........................................................................................................

2

3

TUSB564RNQ EVM Configuration

........................................................................................

3

3.1

TUSB564RNQ EVM Default Configuration

......................................................................

3

3.2

TUSB564 Equalization Control

....................................................................................

3

3.3

Power

.................................................................................................................

4

4

TUSB564RNQ EVM Schematics and Bill of Materials

..................................................................

5

4.1

Schematics

..........................................................................................................

5

4.2

Bill of Materials

......................................................................................................

9

List of Figures

1

TUSB564RNQ EVM

.........................................................................................................

2

2

Test Board Setup

............................................................................................................

2

3

TUSB564RNQ EVM Main Schematic

.....................................................................................

5

4

TUSB564RNQ EVM Configuration Pins

..................................................................................

6

5

TPS65986

.....................................................................................................................

7

6

TUSB564RNQ EVM Power

................................................................................................

8

List of Tables

1

TUSB564 Configuration Pins

...............................................................................................

3

2

Configuration Pin Level Definitions

........................................................................................

3

3

USB 3.1 EQ Settings

........................................................................................................

3

4

DisplayPort™ EQ Settings

.................................................................................................

4

5

Bill of Materials

...............................................................................................................

9

Trademarks

USB Type-C is a trademark of USB Implementers Forum.
DisplayPort is a trademark of Video Electronics Standards Association.
VESA is a registered trademark of Video Electronics Standards Association.
All other trademarks are the property of their respective owners.

Содержание TUSB564RNQ

Страница 1: ...EVM Default Configuration 3 3 2 TUSB564 Equalization Control 3 3 3 Power 4 4 TUSB564RNQ EVM Schematics and Bill of Materials 5 4 1 Schematics 5 4 2 Bill of Materials 9 List of Figures 1 TUSB564RNQ EVM 2 2 Test Board Setup 2 3 TUSB564RNQ EVM Main Schematic 5 4 TUSB564RNQ EVM Configuration Pins 6 5 TPS65986 7 6 TUSB564RNQ EVM Power 8 List of Tables 1 TUSB564 Configuration Pins 3 2 Configuration Pin ...

Страница 2: ...for a USB Type C upstream facing port UFP 2 TUSB564RNQ EVM Figure 1 shows the TUSB564RNQ EVM Figure 1 TUSB564RNQ EVM The TUSB564RNQ EVM can be used with an Alternate mode USB Type C source such as the TUSB1046 EVM and or USB or DisplayPort USB Type C Host system to evaluate the USB Type C implementation Figure 2 shows a typical test setup Figure 2 Test Board Setup The TUSB564RNQ EVM has a legacy T...

Страница 3: ... on pin 2 4 R 20k to GND JMP5 DP EQ1 SHUNT on pin 2 4 R 20k to GND JMP6 DP EQ0 SHUNT on pin 2 4 R 20k to GND JMP7 I2C_EN SHUNT on pin 1 2 GND J1 FLIP No SHUNT J2 CTL0 No SHUNT J3 CTL1 No SHUNT J4 EN SHUNT on pin 1 2 PU 3 2 TUSB564 Equalization Control Equalization EQ can be controlled through I2C or pin strapping see Table 2 Each TUSB564 receiver lane has individual controls for receiver equalizat...

Страница 4: ... 6 F 1 8 1 1 0 7 1 1 0 8 5 1 R 7 6 1 R 9 1 1 F 8 0 1 F 9 5 1 1 8 5 1 1 9 9 Table 4 DisplayPort EQ Settings All DisplayPort Lanes DPEQ1 Pin Level DPEQ0 Pin Level EQ Gain at 5 GHz dB 0 0 0 3 0 R 1 6 0 F 3 0 0 1 4 4 R 0 5 4 R R 6 5 R F 7 3 R 1 8 1 F 0 8 9 F R 9 5 F F 10 0 F 1 10 6 1 0 11 0 1 R 11 4 1 F 11 8 1 1 12 1 3 3 Power The EVM is designed to operate off of the VBUS from a USB host connected th...

Страница 5: ...P_PWR 20 GND7 21 GND8 22 GND9 23 GND10 24 R18 0 DNI C15 470nF R12 1M DNI C20 100nF C7 100nF R3 0 DNI C1 100nF R83 2M C6 220nF R10 5M R4 100k DNI R5 0 DNI C26 10nF C10 100nF R13 1M DNI R7 0 FB2 26 100MHZ C21 1uF U1 TUSB564 NC 1 DPEQ1 2 SSEQ1 3 SSRXp 4 SSRXn 5 VCC 6 SSTXp 7 SSTXn 8 TX1p 9 TX1n 10 EQ0 11 RX1p 12 RX1n 13 EQ1 14 RX2n 15 RX2p 16 I2C_EN 17 TX2n 18 TX2p 19 VCC 20 FLIP SCL 21 CTL0 SDA 22 C...

Страница 6: ...3X1 M 1 1 2 3 R36 20K R28 1K R30 1K J3 HDR3X1 M 1 1 2 3 R31 20K R34 1K R27 20K R21 20K JMP2 4 Pin T Berg Jumper 1 2 3 4 R32 20K R22 1K J4 HDR3X1 M 1 1 2 3 R33 1K JMP3 4 Pin T Berg Jumper 1 2 3 4 JMP1 4 Pin T Berg Jumper 1 2 3 4 JMP7 4 Pin T Berg Jumper 1 2 3 4 JMP5 4 Pin T Berg Jumper 1 2 3 4 TUSB564RNQ EVM Schematics and Bill of Materials www ti com 6 SLLU288 March 2018 Submit Documentation Feedb...

Страница 7: ...IO5 E10 MRESET E11 I2C_ADDR F1 UART_RX F2 SWD_DAT F4 GND F5 GND F6 GND F7 GND F8 BUSPOWERZ F10 RESETZ F11 LDO_3V3 G1 R_OSC G2 SWD_CLK G4 GND G5 GND G6 GND G7 GND G8 GPIO6 G10 GPIO3 G11 VIN_3V3 H1 VOUT_3V3 H2 GND H4 GND H5 GPIO8 H6 SS H7 GND H8 PP_CABLE H10 VBUS1 H11 AUX_P J1 AUX_N J2 VBUS2 J10 VBUS3 J11 LDO_1V8A K1 DEBUG2 K2 DEBUG4 K3 NC4 K4 USB_RP_N K5 C_USB_TP K6 C_USB_BP K7 C_SBU1 K8 RPD_G1 K9 ...

Страница 8: ...30 U9 TPS7A4501 SHDN 1 IN 2 GND 3 OUT 4 ADJ 5 GND 6 R80 3 9K R85 0 C41 10uF R86 0 DNI C44 10uF R81 1 2K D2 LED Green R79 0 DNI C42 10uF C40 22uF U8 TPS7A4533 GND 6 IN 2 GND 3 SENSE 5 OUT 4 SHDN 1 PMEG3050EP 115 D1 1 2 C43 10uF TUSB564RNQ EVM Schematics and Bill of Materials www ti com 8 SLLU288 March 2018 Submit Documentation Feedback Copyright 2018 Texas Instruments Incorporated TUSB564RNQ Evalua...

Страница 9: ...M185R61E105KA12D CAP CER 1 µF 25 V X5R 0603 15 1 D1 SCHOTTKY DO 214AA NXP PMEG3050EP 115 DIODE SCHOTTKY 30 V 5 A SOD128 16 1 D2 LED green 805 Lumex LTST C170KGKT LED GREEN CLEAR 0805 SMD 17 1 D3 TPD1E10B06 DPY0001AA Texas Instruments TPD1E10B06DPYR Schottky 18 1 D4 LED green 0805 805 Lumex LTST C170KGKT LED GREEN CLEAR 0805 SMD 19 2 FB1 FB2 26 at 100 MHz 603 Murata BLM18SG260TN1D FERRITE BEAD 26 Ω...

Страница 10: ... R38 0 r0201 Panasonic Electronic Components ERJ 1GN0R00C RES SMD 0 Ω JUMPER 1 20W 0201 42 1 R39 15k 0 1 r0402 Panasonic Electronic Components ERA 2AEB153X RES SMD 15 kΩ 0 1 1 16W 0402 43 2 R40 R42 0 r0402 Panasonic Electronic Components ERJ 2GE0R00X RES SMD 0 Ω JUMPER 1 10W 0402 44 3 R53 R60 R87 100k r0402 Panasonic Electronic Components ERJ 2GEJ104X RES SMD 100 kΩ 5 1 10W 0402 45 1 R57 10k r0402...

Страница 11: ...4 POS 50 MIL SMT sw_smvt_dip_4pos_8 C K ITT CANNON TDA04H0SB1R SWITCH SLIDE DIP SPST 25MA 24 V 58 1 U1 TUSB564 RNQ0040A Texas Instruments TUSB564RNQ 59 4 U2 U3 U4 U5 TPD4E05U06 DQA Texas Instruments TPD4E05U06DQAR TVS DIODE 5 5 VWM 14VC 10SON 60 1 U6 TPS65986 ZQZ_BGA_96 Texas Instruments TPS65986ABZQZR IC PD CTLR USB Type C 96 BGA 61 1 U7 W25Q80 SOIC_8_197x157_50 WINBOND W25Q80DVSNIG IC FLASH 8Mb ...

Страница 12: ...y set forth above or credit User s account for such EVM TI s liability under this warranty shall be limited to EVMs that are returned during the warranty period to the address designated by TI and that are determined by TI not to conform to such warranty If TI elects to repair or replace such EVM TI shall have a reasonable time to repair such EVM or provide replacements Repaired EVMs shall be warr...

Страница 13: ...the user guide with the maximum permissible gain and required antenna impedance for each antenna type indicated Antenna types not included in this list having a gain greater than the maximum gain indicated for that type are strictly prohibited for use with this device Concernant les EVMs avec antennes détachables Conformément à la réglementation d Industrie Canada le présent émetteur radio peut fo...

Страница 14: ...ed loads Any loads applied outside of the specified output range may also result in unintended and or inaccurate operation and or possible permanent damage to the EVM and or interface electronics Please consult the EVM user guide prior to connecting any load to the EVM output If there is uncertainty as to the load specification please contact a TI field representative During normal operation even ...

Страница 15: ...COST OF REMOVAL OR REINSTALLATION ANCILLARY COSTS TO THE PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES RETESTING OUTSIDE COMPUTER TIME LABOR COSTS LOSS OF GOODWILL LOSS OF PROFITS LOSS OF SAVINGS LOSS OF USE LOSS OF DATA OR BUSINESS INTERRUPTION NO CLAIM SUIT OR ACTION SHALL BE BROUGHT AGAINST TI MORE THAN TWELVE 12 MONTHS AFTER THE EVENT THAT GAVE RISE TO THE CAUSE OF ACTION HAS OCCURRED 8 2 Specif...

Страница 16: ... TI Resource NO OTHER LICENSE EXPRESS OR IMPLIED BY ESTOPPEL OR OTHERWISE TO ANY OTHER TI INTELLECTUAL PROPERTY RIGHT AND NO LICENSE TO ANY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT OF TI OR ANY THIRD PARTY IS GRANTED HEREIN including but not limited to any patent right copyright mask work right or other intellectual property right relating to any combination machine or process in which TI product...

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