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Setup

5.3.3.4

Configuration ID 3: Notebook (or Mobile Workstation) That can Pass AC-Adapted Power

Table 6. Configuration ID 3

5.3.3.4.1

Overview

The TPS65982-EVM will boot up and initialize into configuration ID 3 when the 1

st

and 2

nd

DIP switches

[B0] and [B1] on switch bank S1 are pushed to the right-hand side and the 3

rd

and 4

th

DIP switch [B2] and

[B3] on switch bank S1 is pushed to the left-hand side. Configuration ID 3 is designed to model a
notebook (or mobile workstation) application that can pass AC-adapted power as a provider.

A TPS65982-EVM configured as a notebook is capable of providing (sourcing) power or consuming
(sinking) power. A fully-featured Type-C port on a notebook can be capable as a downstream-facing port
(DFP) for DisplayPort video, which is also emulated by this EVM configuration. This configuration will also
initiate a PD power role swap to sink and/or a PD data role swap to DFP.

5.3.3.4.2

Source Capabilities

This configuration is capable of negotiating PD contracts to source 5 V at 3 A through the PP_5V0 internal
FET path and 20 V at 3 A through the PP_EXT external FET path.

5.3.3.4.3

Sink Capabilities

This configuration is capable of negotiating PD contracts to sink 5 V at 0 A and 20 V at 3 A through the
PP_HV internal FET path.

5.3.3.4.4

Video Capabilities

This configuration is capable of negotiating a USB PD alternate mode contract for DisplayPort video as a
downstream-facing port (DFP). An alternate mode contract will only be negotiated successfully when
connected to a product which is capable of DisplayPort video as an upstream-facing port (UFP).

5.3.3.4.5

Ideal Connections

This configuration pairs ideally with a TPS65982-EVM using configuration ID 0 for consuming or providing
power and entering DisplayPort alternate mode. This configuration is also compatible with a TPS65982-
EVM using configuration ID 4 for providing power and entering DisplayPort alternate mode. To test this
configuration as a power consumer which enters USB2.0 and 3.1 for data, pair it with a TPS65982-EVM
using configuration ID 6. These TPS65982-EVM configurations respectively emulate dock, dongle, and
charger-adapter applications and the same performance is expected when connected to actual
applications of these products.

17

SLVUAF8C – June 2015 – Revised November 2015

TPS65982 Evaluation Module

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Copyright © 2015, Texas Instruments Incorporated

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Summary of Contents for TPS65986

Page 1: ...tion About Cautions and Warnings 4 3 Items Required for Operation 4 4 Introduction 5 4 1 Using the TPS65986 on the TPS65982 EVM 5 5 Setup 8 5 1 Header Jumper Switch Push Button and Test Point Descript...

Page 2: ...nent View 34 13 Legend 38 14 Aardvark Wired to SPI Pins 39 15 Flash Center GUI 39 16 Add Adapters Button 40 17 Add Adapters Selection 40 18 Adapter Detection 40 19 Select Target Device 41 20 Loading D...

Page 3: ...nfiguration ID 14 27 18 Configuration ID 15 28 19 Bill of Materials 35 3 SLVUAF8C June 2015 Revised November 2015 TPS65982 Evaluation Module Submit Documentation Feedback Copyright 2015 Texas Instrume...

Page 4: ...tistatic work surface For more information on proper handling see the Electrostatic Discharge ESD application note SSYA008 The information in a caution or a warning is provided for your protection Rea...

Page 5: ...The TPS65982 EVM can be used to emulate other USB Type C and PD products such as a dock a notebook computer a tablet a dongle an AC charger adapter and a high power bus powered device The GPIOs of the...

Page 6: ...Introduction www ti com Figure 1 TPS65982 EVM Top View 6 TPS65982 Evaluation Module SLVUAF8C June 2015 Revised November 2015 Submit Documentation Feedback Copyright 2015 Texas Instruments Incorporated...

Page 7: ...w ti com Introduction Figure 2 TPS65982 EVM Bottom View 7 SLVUAF8C June 2015 Revised November 2015 TPS65982 Evaluation Module Submit Documentation Feedback Copyright 2015 Texas Instruments Incorporate...

Page 8: ...G_CTL2 pin of the TPS65982 IC U2 and is pulled low when the middle upper switch is pushed to the left hand side pin 2 of S1 Bit B1 is pulled high when the middle upper switch is pushed to the right ha...

Page 9: ...cable and the CC2 pin of the TPS65982 IC U2 5 1 10 TP1 CC1 CC1 Test Point Test point TP1 provides a location to probe the voltage on CC1 the primary Cable Connection signal connected at the Type C re...

Page 10: ...on the TPS65982 EVM When the TPS65982 EVM is powered up and connected to no other device and the App FW has successfully loaded it the LED will be ON This indicator will blink ON and OFF when a USB PD...

Page 11: ...ould be applied to System_5V at pin 2 of J5 and 3 3 V should be applied to System_3V3 at pin 3 of J5 5 3 1 5 Power the EVM from the USB Type C Port When a 0 resistor is installed at R10 and R11 RPD_G1...

Page 12: ...ing as a power provider and the voltage on VBUS is 5 V LED D8 5V will be ON If the TPS65982 is acting as a power provider and the voltage on VBUS is 12 V LED D9 HV will be ON If the TPS65982 is acting...

Page 13: ...ading the S1 DIP switch positions can be accomplished by pressing and releasing push button S3 A detailed description of each of the TPS65982 EVM configurations settings controlled by S1 can be found...

Page 14: ...ath 5 3 3 1 3 Sink Capabilities This configuration is capable of negotiating PD contracts to sink 5 V at 0 A 5 3 3 1 4 Video Capabilities This configuration is capable of negotiating a USB PD alternat...

Page 15: ...T path 5 3 3 2 4 Video Capabilities This configuration pairs ideally with a TPS65982 EVM using configuration ID 0 for consuming or providing power and entering DisplayPort alternate mode This configur...

Page 16: ...PD contracts to sink 5 V at 0 A and 20 V at 3 A through the PP_EXT external FET path 5 3 3 3 4 Video Capabilities This configuration is capable of negotiating a USB PD Thunderbolt Alternate Mode cont...

Page 17: ...rnal FET path 5 3 3 4 3 Sink Capabilities This configuration is capable of negotiating PD contracts to sink 5 V at 0 A and 20 V at 3 A through the PP_HV internal FET path 5 3 3 4 4 Video Capabilities...

Page 18: ...tiating PD contracts to sink 5 V at 900 milliamps through the PP_HV internal FET path only 5 3 3 5 4 Video Capabilities This configuration is capable of negotiating a USB PD alternate mode contract fo...

Page 19: ...T external FET path 5 3 3 6 3 Sink Capabilities This configuration is capable of negotiating a PD contract to sink 5 V at 0 A 5 3 3 6 4 Video Capabilities This configuration is capable of negotiating...

Page 20: ...nly and therefore does not have any sink capabilities 5 3 3 7 4 Video Capabilities This configuration is capable of USB 2 0 and USB 3 1 data only and therefore does not have any video capabilities 5 3...

Page 21: ...D contracts to sink 5 V at 3 A 12 V at 3 A 20 V at 5 A through the PP_EXT external FET path 5 3 3 8 4 Video Capabilities This configuration is capable of USB 2 0 and USB 3 1 data only and therefore do...

Page 22: ...path 5 3 3 9 3 Sink Capabilities This configuration is capable of negotiating a PD contract to sink 5 V at 0 A 5 3 3 9 4 Video Capabilities This configuration is capable of negotiating a USB PD Thunde...

Page 23: ...3 A through the PP_HV internal FET path 5 3 3 10 3 Sink Capabilities This configuration is capable of negotiating PD contracts to sink 5 V at 0 A and 20 V at 3 A through the PP_HV internal FET path 5...

Page 24: ...Thunderbolt alternate mode 5 3 3 11 2 Source Capabilities This configuration is not capable of providing power 5 3 3 11 3 Sink Capabilities This configuration is capable of negotiating a PD contract...

Page 25: ...contracts to source 5 V at 3 A and 20 V at 3 A through the PP_EXT external FET path 5 3 3 12 3 Sink Capabilities This configuration is capable of negotiating PD contracts to sink 5 V at 1 5 A and 20...

Page 26: ...capable of negotiating PD contracts to source 5 V at 3 A through the PP_5V0 internal FET path 12 V at 3 A through the PP_HV internal FET path 5 3 3 13 3 Sink Capabilities This configuration is designe...

Page 27: ...signed to only sink Type C power 5 V 5 3 3 15 Configuration ID 14 Type C DFP Only Table 17 Configuration ID 14 5 3 3 15 1 Overview The TPS65982 EVM will boot up and initialize into configuration ID 14...

Page 28: ...shed to the right hand side Configuration ID 15 is designed to model Type C DRP only device 5 3 3 16 2 Source Capabilities This configuration is capable of providing Type C power 5 V at 3 A 5 3 3 16 3...

Page 29: ...2ABZQZR GND A1 PP_HV B7 GND B8 PP_5V0 B11 VDDIO B1 L DO_1V8D A2 PP_5V0 C11 GND D8 PP_5V0 D11 LDO_BMC E1 GND E5 GND E6 GND E7 GND E8 GND F5 GND F6 GND F7 GND F8 BUSPOWERZ F10 LDO_3V3 G 1 GND G5 GND G6...

Page 30: ...GND GND GND GND GND 22 F C46 22 F C47 G ND VIN 1 VSENSE 6 EN 8 RT 10 G ND 3 COM P 7 PH 2 BOOT 9 PAD 11 G ND 4 GND 5 U6 TPS54335DRCR G ND VIN 1 VSENSE 6 EN 8 RT 10 G ND 3 COM P 7 PH 2 BOOT 9 PAD 11 G...

Page 31: ...ure 12 illustrate the PCB layouts of this EVM Figure 5 PCB Layer 1 Top Layer Figure 6 PCB Layer 1 Component View 31 SLVUAF8C June 2015 Revised November 2015 TPS65982 Evaluation Module Submit Documenta...

Page 32: ...m Figure 7 PCB Layer 2 GND Plane Figure 8 PCB Layer 3 Inner Signal Layer 1 32 TPS65982 Evaluation Module SLVUAF8C June 2015 Revised November 2015 Submit Documentation Feedback Copyright 2015 Texas Ins...

Page 33: ...t Figure 9 PCB Layer 4 GND Plane Figure 10 PCB Layer 5 Inner Signal Layer 2 33 SLVUAF8C June 2015 Revised November 2015 TPS65982 Evaluation Module Submit Documentation Feedback Copyright 2015 Texas In...

Page 34: ...om Figure 11 PCB Layer 6 Bottom Layer Figure 12 PCB Layer 6 Component View 34 TPS65982 Evaluation Module SLVUAF8C June 2015 Revised November 2015 Submit Documentation Feedback Copyright 2015 Texas Ins...

Page 35: ...CERM 330 pF 50 V 5 C0G NP0 0402 0402 16 C29 1 5600pF GRM155R71H562KA88D MuRata CAP CERM 5600 pF 50 V 10 X7R 0402 0402 17 C39 1 100pF CC0402KRX7R9BB101 Yageo America CAP CERM 100 pF 50 V 10 X7R 0402 04...

Page 36: ...Vishay Dale RES 7 15 k 1 0 063 W 0402 0402 47 R108 1 9 53k CRCW04029K53FKED Vishay Dale RES 9 53 k 1 0 063 W 0402 0402 48 S1 1 TDA04H0SB1 C K Components DIP Switch SPST 4Pos Slide SMT 6 2x2 0x6 2mm 4...

Page 37: ...0201 0201 R19 R23 R31 R32 R34 R35 R36 R37 R47 R48 R50 R51 R53 R54 R57 R58 R59 R61 R63 R64 R67 R68 64 R81 R91 R101 0 220k CRCW0402220KJNED Vishay Dale RES 220 k 5 0 063 W 0402 0402 65 R83 R93 R103 0 43...

Page 38: ...VM Aardvark SPI Programmer with accompanying USB cable Dell power adapter 1024kB bin FW file example TPS65982 EVM_Flash Image_RTM bin 9 1 Writing a Flash Image Using an Aardvark SPI Programmer In the...

Page 39: ...C Adapter to the TPS65982 EVM to power up the board Figure 14 Aardvark Wired to SPI Pins 9 3 Run Flash Center exe Connect the Dell Power Adapter to the TPS65982 EVM and connect the Aardvark USB cable...

Page 40: ...s as shown in Figure 17 Figure 16 Add Adapters Button Figure 17 Add Adapters Selection NOTE It should automatically detect the Aardvark when adding the adapter if however it does not download the Aard...

Page 41: ...Device type must be selected Click the Choose Target button to select the Target Device type in this case SPI Flash Winbond NexFlash W25Q80 as shown in Figure 19 Figure 19 Select Target Device 41 SLVU...

Page 42: ...e has been saved After the binary file is selected click Open If successful the data section of the Flash Center should be full of values See the screen shots in Figure 20 for examples Figure 20 Loadi...

Page 43: ...d then LED B D5 will be on NOTE If an error occurs either the board is not being powered or the SPI pins are not connected properly Figure 21 Programming the TPS65982 EVM 9 8 Verify Optional To confir...

Page 44: ...hanges from A Revision June 2015 to B Revision Page Changed BOM to EVM Rev D 35 NOTE Page numbers for previous revisions may differ from page numbers in the current version Revision History Changes fr...

Page 45: ...ing 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 repa...

Page 46: ...transmitter has been approved by Industry Canada to operate with the antenna types listed in the user guide with the maximum permissible gain and required antenna impedance for each antenna type indic...

Page 47: ...ified allowable ranges some circuit components may have elevated case temperatures These components include but are not limited to linear regulators switching transistors pass transistors current sens...

Page 48: ...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 L...

Page 49: ...sponsible for compliance with all legal regulatory and safety related requirements concerning its products and any use of TI components in its applications notwithstanding any applications related inf...

Page 50: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information Texas Instruments TPS65982 EVM...

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