EVB-UPD1002-MU1 EVALUATION BOARD USER’S...

2014 Microchip Technology Inc. DS50002288A

EVB-UPD1002-MU1EVALUATION BOARD

USER’S GUIDE

DS50002288A-page 2 2014 Microchip Technology Inc.

Note the following details of the code protection feature on Microchip devices:

• Microchip products meet the specification contained in their particular Microchip Data Sheet.

• Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the intended manner and under normal conditions.

• There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data Sheets. Most likely, the person doing so is engaged in theft of intellectual property.

• Microchip is willing to work with the customer who is concerned about the integrity of their code.

• Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not mean that we are guaranteeing the product as “unbreakable.”

Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of ourproducts. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such actsallow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.

Information contained in this publication regarding device applications and the like is provided only for your convenience and may besuperseded by updates. It is your responsibility to ensure that your application meets with your specifications. MICROCHIP MAKES NOREPRESENTATIONS OR WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED, WRITTEN OR ORAL, STATUTORY OROTHERWISE, RELATED TO THE INFORMATION, INCLUDING BUT NOT LIMITED TO ITS CONDITION, QUALITY, PERFORMANCE,MERCHANTABILITY OR FITNESS FOR PURPOSE. Microchip disclaims all liability arising from this information and its use. Use ofMicrochip devices in life support and/or safety applications is entirely at the buyer’s risk, and the buyer agrees to defend, indemnify andhold harmless Microchip from any and all damages, claims, suits, or expenses resulting from such use. No licenses are conveyed, implic-itly or otherwise, under any Microchip intellectual property rights.

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Silicon Storage Technology is a registered trademark of Microchip Technology Inc. in other countries.

Analog-for-the-Digital Age, Application Maestro, BodyCom, chipKIT, chipKIT logo, CodeGuard, dsPICDEM, dsPICDEM.net, dsPICworks, dsSPEAK, ECAN, ECONOMONITOR, FanSense, HI-TIDE, In-Circuit Serial Programming, ICSP, Mindi, MiWi, MPASM, MPF, MPLAB Certified logo, MPLIB, MPLINK, mTouch, Omniscient Code Generation, PICC, PICC-18, PICDEM, PICDEM.net, PICkit, PICtail, REAL ICE, rfLAB, Select Mode, SQI, Serial Quad I/O, Total Endurance, TSHARC, UniWinDriver, WiperLock, ZENA and Z-Scale are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries.

SQTP is a service mark of Microchip Technology Incorporated in the U.S.A.

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A more complete list of registered trademarks and common law trademarks owned by Standard Microsystems Corporation (“SMSC”) is available at: www.smsc.com. The absence of a trademark (name, logo, etc.) from the list does not constitute a waiver of any intellectual property rights that SMSC has established in any of its trademarks.

All other trademarks mentioned herein are property of their respective companies.

© 2014, Microchip Technology Incorporated, Printed in the U.S.A., All Rights Reserved.

ISBN: 978-1-63276-326-6

Microchip received ISO/TS-16949:2009 certification for its worldwide headquarters, design and wafer fabrication facilities in Chandler and Tempe, Arizona; Gresham, Oregon and design centers in California and India. The Company’s quality system processes and procedures are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping devices, Serial EEPROMs, microperipherals, nonvolatile memory and analog products. In addition, Microchip’s quality system for the design and manufacture of development systems is ISO 9001:2000 certified.

QUALITYMANAGEMENTSYSTEMCERTIFIEDBYDNV

== ISO/TS16949==


USER’S GUIDE

Table of Contents

Preface ........................................................................................................................... 5Introduction............................................................................................................ 5

Document Layout .................................................................................................. 5

Conventions Used in this Guide ............................................................................ 7

The Microchip Web Site ........................................................................................ 8

Development Systems Customer Change Notification Service ............................ 8

Customer Support ................................................................................................. 8

Document Revision History ................................................................................... 9

Chapter 1. Overview1.1 Introduction ................................................................................................... 101.2 Features ....................................................................................................... 101.3 References ................................................................................................... 101.4 Definitions ..................................................................................................... 101.5 General description ...................................................................................... 11

Chapter 2. Getting Started2.1 Introduction ................................................................................................... 122.2 installation .................................................................................................... 132.3 Power Supply ............................................................................................... 132.4 Operation ...................................................................................................... 14

Chapter 3. Hardware Description3.1 Functional Overview ..................................................................................... 153.2 Power States ................................................................................................ 16

3.2.1 State1: PD Consumer - 0V ........................................................................ 163.2.2 State 2: PD Consumer - 5V ....................................................................... 173.2.3 State 3: PD Provider - Dead Battery ......................................................... 173.2.4 State 4: PD Provider - 5V .......................................................................... 183.2.5 State 5: PD Provider - 12V ........................................................................ 183.2.6 State 6: PD Provider - 20V ........................................................................ 193.2.7 Power State Transitions ............................................................................ 19

3.3 Board LEDs .................................................................................................. 203.4 Connectors ................................................................................................... 203.5 UPD Control Signals - J4 ............................................................................. 223.6 Test Points ................................................................................................... 233.7 Switches ....................................................................................................... 24

Appendix A. EVB-UPD1002-MU1 PictureA.1 Introduction .................................................................................................. 25

Appendix B. EVB-UPD1002-MU1 Schematics

2014 Microchip Technology Inc. DS50002288A-page 3

EVB-UPD1002-MU1 Evaluation Board User’s Guide

B.1 Introduction .................................................................................................. 26

Appendix C. EVB-UPD1002-MU1 Bill of Materials (BOM)C.1 Introduction .................................................................................................. 32

Appendix D. EVB-UPD1002-MU1 Top and Bottom LayersD.1 Introduction .................................................................................................. 36

Worldwide Sales and Service .....................................................................................38



USER’S GUIDE

Preface

INTRODUCTION

This chapter contains general information that will be useful to know before using the EVB-UPD1002-MU1 Evaluation Board User’s Guide Evaluation Board. Items dis-cussed in this chapter include:

• Document Layout

• Conventions Used in this Guide

• The Microchip Web Site

• Development Systems Customer Change Notification Service

• Customer Support

• Document Revision History

DOCUMENT LAYOUT

This document describes how to use the EVB-UPD1002-MU1 Evaluation Board User’s Guide Evaluation Board as a development tool for the UPD1002 USB Power Deliver Controller. The manual layout is as follows:

• Chapter 1. “Overview” – Shows a brief description of the EVB-UPD1002-MU1 Evaluation Board User’s Guide.

• Chapter 2. “Getting Started” – Includes instructions on how to get started with the EVB-UPD1002-MU1 Evaluation Board User’s Guide.

• Chapter 3. “Hardware Description” – Includes a detailed description of the EVB-UPD1002-MU1 Evaluation Board User’s Guide hardware functionality, LEDs, Headers, Test Points, and Switches.

• Appendix A. “EVB-UPD1002-MU1 Picture” – This appendix shows a top side picture of the EVB-UPD1002-MU1 Evaluation Board User’s Guide.

• Appendix B. “EVB-UPD1002-MU1 Schematics” – This appendix shows the EVB-UPD1002-MU1 Evaluation Board User’s Guide schematics.

• Appendix C. “EVB-UPD1002-MU1 Bill of Materials (BOM)” – This appendix

NOTICE TO CUSTOMERS

All documentation becomes dated, and this manual is no exception. Microchip tools and documentation are constantly evolving to meet customer needs, so some actual dialogs and/or tool descriptions may differ from those in this document. Please refer to our web site (www.microchip.com) to obtain the latest documentation available.

Documents are identified with a “DS” number. This number is located on the bottom of each page, in front of the page number. The numbering convention for the DS number is “DSXXXXXA”, where “XXXXX” is the document number and “A” is the revision level of the document.

For the most up-to-date information on development tools, see the MPLAB® IDE online help. Select the Help menu, and then Topics to open a list of available online help files.



includes the EVB-UPD1002-MU1 Evaluation Board User’s Guide Bill of Materials (BOM).

• Appendix D. “EVB-UPD1002-MU1 Top and Bottom Layers” – This appendix shows the EVB-UPD1002-MU1 Evaluation Board User’s Guide top and bottom layers.


Preface

CONVENTIONS USED IN THIS GUIDE

This manual uses the following documentation conventions:

DOCUMENTATION CONVENTIONS

Description Represents Examples

Arial font:

Italic characters Referenced books MPLAB® IDE User’s Guide

Emphasized text ...is the only compiler...

Initial caps A window the Output window

A dialog the Settings dialog

A menu selection select Enable Programmer

Quotes A field name in a window or dialog

“Save project before build”

Underlined, italic text with right angle bracket

A menu path File>Save

Bold characters A dialog button Click OK

A tab Click the Power tab

N‘Rnnnn A number in verilog format, where N is the total number of digits, R is the radix and n is a digit.

4‘b0010, 2‘hF1

Text in angle brackets < > A key on the keyboard Press <Enter>, <F1>

Courier New font:

Plain Courier New Sample source code #define START

Filenames autoexec.bat

File paths c:\mcc18\h

Keywords _asm, _endasm, static

Command-line options -Opa+, -Opa-

Bit values 0, 1

Constants 0xFF, ‘A’

Italic Courier New A variable argument file.o, where file can be any valid filename

Square brackets [ ] Optional arguments mcc18 [options] file [options]

Curly brackets and pipe character: { | }

Choice of mutually exclusive arguments; an OR selection

errorlevel {0|1}

Ellipses... Replaces repeated text var_name [, var_name...]

Represents code supplied by user

void main (void){ ...}



THE MICROCHIP WEB SITE

Microchip provides online support via our web site at www.microchip.com. This web site is used as a means to make files and information easily available to customers. Accessible by using your favorite Internet browser, the web site contains the following information:

• Product Support – Data sheets and errata, application notes and sample programs, design resources, user’s guides and hardware support documents, latest software releases and archived software

• General Technical Support – Frequently Asked Questions (FAQs), technical support requests, online discussion groups, Microchip consultant program member listing

• Business of Microchip – Product selector and ordering guides, latest Microchip press releases, listing of seminars and events, listings of Microchip sales offices, distributors and factory representatives

DEVELOPMENT SYSTEMS CUSTOMER CHANGE NOTIFICATION SERVICE

Microchip’s customer notification service helps keep customers current on Microchip products. Subscribers will receive e-mail notification whenever there are changes, updates, revisions or errata related to a specified product family or development tool of interest.

To register, access the Microchip web site at www.microchip.com, click on Customer Change Notification and follow the registration instructions.

The Development Systems product group categories are:• Compilers – The latest information on Microchip C compilers, assemblers, linkers

and other language tools. These include all MPLAB C compilers; all MPLAB assemblers (including MPASM assembler); all MPLAB linkers (including MPLINK object linker); and all MPLAB librarians (including MPLIB object librarian).

• Emulators – The latest information on Microchip in-circuit emulators.This includes the MPLAB REAL ICE and MPLAB ICE 2000 in-circuit emulators.

• In-Circuit Debuggers – The latest information on the Microchip in-circuit debuggers. This includes MPLAB ICD 3 in-circuit debuggers and PICkit 3 debug express.

• MPLAB IDE – The latest information on Microchip MPLAB IDE, the Windows Integrated Development Environment for development systems tools. This list is focused on the MPLAB IDE, MPLAB IDE Project Manager, MPLAB Editor and MPLAB SIM simulator, as well as general editing and debugging features.

• Programmers – The latest information on Microchip programmers. These include production programmers such as MPLAB REAL ICE in-circuit emulator, MPLAB ICD 3 in-circuit debugger and MPLAB PM3 device programmers. Also included are nonproduction development programmers such as PICSTART Plus and PIC-kit 2 and 3.

CUSTOMER SUPPORT

Users of Microchip products can receive assistance through several channels:

• Distributor or Representative

• Local Sales Office

• Field Application Engineer (FAE)

• Technical Support


www.microchip.com

http://www.microchip.com

Preface

Customers should contact their distributor, representative or field application engineer (FAE) for support. Local sales offices are also available to help customers. A listing of sales offices and locations is included in the back of this document.

Technical support is available through the web site at: http://www.microchip.com/support

DOCUMENT REVISION HISTORY

Revision A (5/30/2014)

• Initial Release of this Document.

Revision A2 (6/18/2014)

• Several updates and corrections.


http://www.microchip.com/support

http://www.microchip.com/support


USER’S GUIDE

Chapter 1. Overview

1.1 INTRODUCTION

The UPD1002-MU1 Evaluation Board is a platform to evaluate the capabilities of the UPD1002 USB Power Delivery Controller from Microchip. The UPD1002 provides mul-tiple power delivery profiles and is compliant with the USB Power Delivery Specifica-tion.

The UPD1002-MU1 EVB is a USB Power Delivery Consumer/Provider with four select-able power configurations.

1.2 FEATURES

• UPD1002 Power Delivery Controller with integrated PD PHY

• Four jumper selectable PD configurations:

- Consumer 5V@0A, Provider 12V@3A




• Includes a current limited 5V circuit for support of dead battery operation

• USB5534 USB3 Hub with one USB3PD-B upstream Power Delivery port and two USB3-A downstream ports with Battery Charging capability

• USB3PD-B connector includes additional Power Delivery ID signal• LED power indicators for 5V, and 3.3V

• LED status indicators include:

- Orange LED indicator for the USB3PD-B Power Delivery port

- Green LED Port Power indicators

- Green LED PD Provider indicator

• LED voltmeter with 4 levels indicates approximate voltage at the PD connector• Board headers provide visibility for all relevant UPD1002 PD control signals• Several test points provide access to additional board signals

• Banana jack connectors for easy connection to bench supply (cables included)

1.3 REFERENCES

• Microchip Technology Inc., UPD1002 Programmable USB Port Power Delivery Controller Preliminary Datasheet, (04-15-2014)

• USB-IF, Universal Serial Bus Power Delivery Specification. Revision 1.0, Version 1.3. Feb 11, 2014

• USB-IF, Battery Charging Specification. Revision 1.2. December 7, 2010.

1.4 DEFINITIONS

PD - Acronym for Power Delivery.

Consumer - The capability of a PD Port (typically a USB device upstream port)to sink power from the USB VBUS conductor.



Provider - A capability of a PD Port (typically a USB Host, USB Hub, or WallWart USB downstream port) to source power over the USB VBUS conductor.

Consumer/Provider - A Consumer with the additional capability to act as aProvider.

Source - A role a USB port is currently taking to supply power over VBUS; mostcommonly a USB Host or USB Hub Downstream Port.

Sink - The USB port consuming power from VBUS; most commonly a USBdevice.

Provider/Consumer - A Provider with the additional capability to act as aConsumer.

Negotiation - The result of the negotiation is a contract for powerdelivery/consumption between the Port Pair.

PPC - Power Port Controller.

1.5 GENERAL DESCRIPTION

The UPD1002 supports four profile types: Provider, Provider/Consumer, Consumer, and Consumer/Provider. The EVB-UPD1002-MU1 implementation supports only the Consumer/Provider configuration. The four selectable configuration options provide a combination of output voltage and current limits, as mentioned in Features.



USER’S GUIDE

Chapter 2. Getting Started

2.1 INTRODUCTION

The EVB-UPD1002-MU1 is a Consumer/Provider that as a Consumer receives 5V but does not consume any power. As a Provider it can provide power at 12V and 20V at 3A and 5A as selected by the CFG_SELx jumpers J3 and J5.

FIGURE 2-1: EVB-UPD1002-MU1 EVALUATION BOARD

LED Voltmeter

Status LEDs

J5

J10

Power Switch

J12

5V/3V LEDs

J3

USB5534 J4

24V Banana Jacks

USB3-A

USB3-A

UPD1002

J7

Reset

J8

USB3PD-B

Port 2

Port1


EVB-USB2642 Evaluation Board User’s Guide

2.2 INSTALLATION

1. Remove the UPD1002-MU1 from the box

2. Remove the USB3PD-AB cable

3. Verify that the following shunt jumpers are installed:

4. Verify power switch SW2 is in the OFF position

2.3 Power Supply

The EVB-UPD1002-MU1 must be powered from a 24VDC 6A power supply (not included) connected to one of the three supply connector options:

• Banana jacks - Red (J13) 24V power and black (J17) ground banana jacks are available for a convenient connection to a 24V bench supply. Banana cables are included with the kit.

• Terminal block - Green terminal block J12 provides screw terminals J12-1 for 24V power and J12-2 ground for connection to a 24V bench supply.

• 4-pin round DIN connector - Connector J8 is for use with CUI Inc’s ETS240625UC-P51-ET 24VDC 6.25A wall supply.

Reference Label

J3 CFG_SEL1

J5 CFG_SEL0

J7 UPD_Power

J10 UPD_SPI_En

CAUTION

The following sequence MUST be followed to power ON the EVB-UPD1002-MU1:

1. Disconnect all devices and cables from the USB3 connectors.

2. Verify that power switch SW2 is in the OFF position.

3. Connect 24VDC supply using one of the options described.

4. Once the 24VDC supply is on flip power switch SW2 to the ON position.

5. Verify that the following LEDs are on:

a) 5V Present (D11)

b) 3V3 Present (D16)

c) Port 1 (D18)

d) Port 2 (D17)

e) PD Port Orange LED (D13)

f) LED Voltmeter 5V LED blinks every ~3 seconds (D7)

6. Board is ready to use, connect USB devices and cables as required.

The following sequence MUST be followed to power OFF the EVB-UPD1002-MU1:

1. Disconnect all devices and cables from the USB3 connectors.

2. Flip power switch SW2 to the OFF position.


Getting Started

2.4 Operation

1. Power up the EVB-UPD1002-MU1 as described above.

2. The USB3-A downstream ports support battery charging, connecting charging devices (smartphones / tablets) to these ports will charge in DCP mode while the USB3PD-B port is disconnected.

3. Connect the included USB3PD cable to the USB3PD-B receptacle and to a stan-dard USB3-A port on a PC.

a) The USB5534 hub will enumerate and the board will work as a USB3 hub with 2 ports.

b) The LED Voltmeter 5V indicator will stay lit on, as 5V is provided from the upstream port.

c) Connect USB3 downstream devices for data transfers and battery charging in CDP mode.

4. Verify that the USB device enumerates as a SuperSpeed device on the host PC.

5. Connect a PD Provider/Consumer with the included USB3PD AB cable that can request power at the configuration selected by the CFG_SEL0 header J5 as fol-lows:

a) J5[1-2] Provider 12V@3A

b) J5[3-4] Provider 12V@5A

c) J5[5-6] Provider 20V@3A

d) J5[7-8] Provider 20V@5A

6. If a valid PD contract is established a role swap will occur and the EVB-UPD1002-MU1 will become a PD Provider:

a) The PD Provider LED D14 will lit on.

b) The LED Voltmeter will indicate the approximate voltage at the USB3PD-B connector.



USER’S GUIDE

Chapter 3. Hardware Description

3.1 Functional OverviewA general description of the UPD1002-MU1 board follows, refer to the block diagram below. The UPD1002 executes the firmware resident on the external SPI flash. The configuration headers are sampled by the firmware to set the PD configuration to use. In all configurations the board starts as a PD Consumer, consuming 0A from the USB3PD-B connector. The UPD1002 sends and receives PD data packets transmitted over VBUS with the PD_DATA signal. Based on the result of this communication, a PD contract can be established where power roles are swapped and the UPD1002-MU1 can become a PD Provider at 12V or 20V. The UPD1002 drives control signals to con-trol the power domains as required. When no voltage is detected on the USB3PD-B port a current limited 5V output is enabled for support of dead battery operation. A USB5534 hub with two downstream USB3-A ports provides USB3 data transfers and downstream port battery charging capability. Several power domains are on this board and shown as solid thick lines on the diagram.

1. RED - USB Power Delivery rail. As a PD Provider this can deliver5V/12V/20V at 3A/5A to the USB3PD-B connector when a valid PD contractis established. As a PD Consumer this can receive 5V@0A.

2. Blue - 24V rail. This is connected to the 24VDC power source, power to thisrail is provided by an external 24VDC supply.

3. Black - 5V rail. Power to this rail is provided by the on board 5VDC switcher.This provides 5V power for on board circuitry and the two USB3 downstreamports.

UPD1002QFN32

SPI Flash

EVB-UPD1002-MU1 Consumer / Provider

VTR

VMON/IMON

PD_DATA

VDDIO

SPI/SMBusHeaders

Signal Headers

ExpansionHeader

USB5534 HUB

USB3A

DEAD_BATTERY

VBUS_OUT

24V

PD Consumer:0V

5V

5V

PD_EN_N

3.3V

PD Provider:5V/12V/20V

SPI Flash

VBUS_DISCHARGE 5V/12V/20V

LEDVoltmeter

Configuration Headers

SMBusHeader

3.3VDC 1.2VDC

PPC

5VDC Switcher

24V DC Jack

USB3PD-B

Voltage dividerCurrent sense

CFG_SELx

PPC PPC

USB3A

Dead Battery

5V/12V/20VDC Switcher



3.2 Power States

The EVB-UPD1002-MU1 can be in one of several power states depending on the device connected to the USB3PD-B port and the power contract negotiated. These power states are described next. In the following diagrams the orange color indicates the block is powered and active and gray indicates a block that is unpowered and inac-tive. In all power states the EVB-UPD1002-MU1 is powered by a 24VDC 6A power sup-ply.

3.2.1 State1: PD Consumer - 0V

The USB3PD-B port is not connected. The USB3-A downstream ports providebattery charging in Dedicated Charging Port (DCP) mode.

State 1: PD Consumer VBUS_PD: 0V

3.3V/1.2V Regulator

5V

PPC

USB5534

USB3-A

24V DC

LCD I/F PPC_5V

VBUS_PD:

5V/12V/20V DC Converter

5V Switcher

VBUS PD

USB3PD-B Dead Battery

UPD1002

PPC

USB3-A

0V

BC:DCP


Hardware Description

3.2.2 State 2: PD Consumer - 5V

The USB3PD-B port is connected to an upstream USB port. The USB5534 hubis enumerated and the USB3-A downstream ports provide data transfer andbattery charging in Charging Downstream Port (CDP) mode. The board is selfpowered and consumes 0A on the upstream port.

3.2.3 State 3: PD Provider - Dead Battery

The USB3PD-B port is connected to a USB upstream device but no VBUSvoltage is detected. The UPD1002 enables the Dead Battery current limited5V output to attempt communications. If a bitstream is received PDcommunications is established, otherwise the Dead Battery 5V output isremoved, reverting to State1. This is retried every 3 seconds.

State 2: PD Consumer VBUS_PD: 5V@0A

3.3V/1.2V Regulator

5V

PPC

USB5534

USB3-A

24V DC

LCD I/F PPC_5V

VBUS_PD:


5V Switcher

VBUS PD


UPD1002

PPC

USB3-A

5V@0A

BC:CDP

State 3: PD Provider – Dead Battery VBUS_PD: 5V@<85mA

3.3V/1.2V Regulator

5V

PPC

USB5534

USB3-A

24V DC

LCD I/F PPC_5V

VBUS_PD:


5V Switcher

VBUS PD

USB3PD-B

UPD1002

PPC

USB3-A BC:DCP

Dead Battery 5V@< 85mA

V_DB_EN



3.2.4 State 4: PD Provider - 5V

The UPD1002 established PD communications with the deviceconnected to the USB3PD-B port. A PD contract was established, arole swap occurred and the EVB-UPD1002-MU1 is now a PD Provider at 5Vat 1A. This is normally a transient state before going to 12V or 20V.


The UPD1002 established PD communications with the deviceconnected to the USB3PD-B port. A PD contract was established, arole swap occurred and the EVB-UPD1002-MU1 is now a PD Provider at12V at 3A or 5A depending on the configuration selected.

State 4: PD Provider VBUS_PD: 5V@5A

3.3V/1.2V Regulator

5V

PPC

USB5534

USB3-A

24V DC

LCD I/F PPC_5V

VBUS_PD:

5V Switcher

VBUS PD


UPD1002

PPC

USB3-A


5V@5A

BC:CDP PD_EN VSEL0

State 5: PD Provider VBUS_PD: 12V@3A/5A

3.3V/1.2V Regulator

5V

PPC

USB5534

USB3-A

24V DC

LCD I/F PPC_5V

VBUS_PD:

5V Switcher

VBUS PD


UPD1002

PPC

USB3-A


12V@3A/5A

BC:CDP PD_EN VSEL1




The UPD1002 established PD communications with the deviceconnected to the USB3PD-B port. A PD contract was established, arole swap occurred and the EVB-UPD1002-MU1 is now a PD Provider at20V at 3A or 5A depending on the configuration selected.

3.2.7 Power State Transitions

The fo l lowing d iagram shows the val id s ta te t rans i t ions for theEVB-UPD1002-MU1 board.

State 6: PD Provider VBUS_PD: 20V@3A/5A

3.3V/1.2V Regulator

5V

PPC

USB5534

USB3-A

24V DC

LCD I/F PPC_5V

VBUS_PD:

5V Switcher

VBUS PD


UPD1002

PPC

USB3-A


20V@3A/5A

BC:CDP PD_EN VSEL2

Power State Transitions

24V DC Power Off

Consumer VBUS_PD: 0V

Consumer VBUS_PD: 5V

PD cable connected

Provider VBUS_PD: 5V

Role swap



12V Contract 20V Contract

VBUS Discharge

Role swap VBUS < 0.5V

VBUS=5V?

12V

Dead Battery VBUS_PD: 5V

Yes

No Bitstream

No Bitstream



3.3 BOARD LEDS

3.4 CONNECTORS

TABLE 3-1: LED DESCRIPTIONS

Reference Designator Label Description

D5 FAULT_N This indicates that the UPD1002 detected a fault condition and asserted the FAULT_N output.

D7 5V This is one of the 4 LEDs used for the LED voltmeter. Indicates that voltage on the USB3PD-B connector > 4.4V

D8 12V This is one of the 4 LEDs used for the LED voltmeter. Indicates that voltage on the USB3PD-B connector > 11V



D11 5V Present Indicates 5V is present on the board. This is sourced from 5V DC switcher U4.

D13 PD Port This indicates that the adjacent USB3PD-B upstream port J14 is a Power Delivery port.

D14 PD Provider Indicates the board is in the USB Power Delivery Provider role and power is provided on the USB3PD-B connector.

D16 3V3 Present Indicates 3.3V is present on the board. This is sourced from 3.3V regulator U8.

D17 Port 2 Pwr This indicates that the USB3-A downstream port 2 (J20) is enabled and has 5V power.

D18 Port 1 Pwr This indicates that the USB3-A downstream port 1 (J21) is enabled and has 5V power.

TABLE 3-2: CONNECTOR DESCRIPTIONS

Reference Designator Type Label Description

J1 2x20 header

Expansion I/F The Expansion Interface connector provides monitoring of selected UPD1002 signals by an external board.

J2 1x2 header

Ext_Rst The External Reset header is used to connect an external remote reset switch. It is also used to install a shunt jumper when programming SPI flash.

J3 2x4 header

CFG_SEL1 The Configuration Select 1 header provides 4 UPD1002 configuration options:J3[1-2] Install shunt for normal operation [*]J3[3-4] ReservedJ3[5-6] ReservedJ3[7-8] Reserved

J4 1x8 header

UPD Control Signals

The UPD Control Signals header provides easy access to UPD1002 control signals.



J5 2x4 header

CFG_SEL0 The Configuration Select 0 header provides 4 UPD1002 configuration options:J5[1-2] Consumer 5V@0A/Provider 12V@3A [*]J5[3-4] Consumer 5V@0A/Provider 12V@5AJ5[5-6] Consumer 5V@0A/Provider 20V@3AJ5[7-8] Consumer 5V@0A/Provider 20V@5A

J7 1x2 header

UPD Power Breakout

This header connects 5V to the VTR power pin of the UPD1002 and allows for power consumption measurements.Install shunt for normal operation [*]Remove shunt to measure power consumption

J8 DIN4 pin

24V This is one of the three connector options for powering the board. DIN connector J8 is for use with CUI Inc’s ETS240625UC-P51-ET 24VDC 6.25A supply.

J9 2x5 header

UPD SPI I/F Header used for programming SPI flash with Aardvark tool.

J10 1x2 header

UPD SPI En Used to enable use of the external SPI flashInstall shunt to enable external SPI flash [*]

J11 USB3PD-B

USB3PD Upstream

This is a USB3PD-B upstream port connector. It includes the PD ID signal used by the UPD1002 for cable marker sensing.

J12 Terminal block x2

This is one of three connector options for powering the board. Terminal block J12 has screw terminals J12-1 (24V) and J12-2 (GND) for use with an external bench supply.

J13 Red banana jack

This is one of three connector options for powering the board. Red banana jack J13 (24V) along with black banana jack J17 (GND) provide a convenient connection to a 24V 6A bench power supply.

J17 Black banana jack

This is one of three connector options for powering the board. Black banana jack J17 (GND) along with red banana jack J13 (24V) provide a convenient connection to a 24V 6A bench power supply.

J18 1x2 header

Cable Marker This is used to emulate the USB PD cable markers when a non-PD cable is used. When using the included 5A PD cable no shunt is required.No shunt [*]J18[1-2] Install shunt for 3A cable markerJ18[2-3] Install shunt for 5A cable marker

J20 USB3-A Port2 This is the USB5534 hub downstream port 2 USB3-A port connector providing USB3 data transfers and battery charging capability.

J21 USB3-A Port1 This is the USB5534 hub downstream port 1 USB3-A port connector providing USB3 data transfers and battery charging capability.

J22 1x3 header

BC Off VBUS battery charging modeRemove shunt to enable battery charging [*]Install shunt to disable battery charging

TABLE 3-2: CONNECTOR DESCRIPTIONS

Reference Designator Type Label Description



3.5 UPD CONTROL SIGNALS - J4

For additional information on the UPD1002 control signals refer to the UPD1002datasheet (reference a).

TABLE 3-3: UPD CONTROL SIGNALS - J4

Pin UPD1002 Signal Type Polarity Description

1 DEAD_BATTERY Output High Enables the Dead Battery circuit to provide a current limited (<85mA) 5V supply on the PD VBUS.

2 VBUS_OUT Output High Indicates to the hub that upstream VBUS has been detected and it should stay connected. This signal will be active during PD VBUS voltage transitions and role swaps.

3 VBUS_DISCHARGE Output High Enables connection of a discharge resistor on the PD VBUS.

4 VSEL0

Output Low

These signals select the PD output voltage as follows:VSEL0=0 --> PD voltage = 5VVSEL1=0 --> PD voltage = 12VVSEL2=0 --> PD voltage = 20V

5 VSEL1

6 VSEL2

7 FAULT_IN_N Input Low When asserted an over-current or an over-voltage condition was detected by the on board comparators.

8 PD_EN_N Output Low Enables PD DC-DC converter U2 to operate and provide the output voltage selected by VSEL0, VSEL1, and VSEL2 on the PD VBUS.



3.6 TEST POINTS

TABLE 3-4: TEST POINT DESCRIPTIONS

Reference Designator Description

TP1 UPD1002 VMON PD voltage sense input

TP2 V_PD net connected to input side of current sense resistor.

TP3 Ground

TP4 24V DC_IN power rail

TP5 VBUS_PD net connected to USB3PD-B connector VBUS pin.

TP6 Ground

TP7 V_PD_R net connected to ouput side of current sense resistor.

TP8 UPD1002 PPC_PWR_EN output - not used

TP9 UPD1002 PD_DETECT input - not used

TP10 UPD1002 FAULT_N output

TP11 UPD1002 PD_DATA I/O signal

TP12 UPD1002 HUB_PWR_EN input - not used

TP13 UPD1002 INSERTION_DETECT input - not used

TP14 UPD1002 CHG_EMU_EN output - not used

TP15 UPD1002 EXT_PWR_DET input - not used

TP16 UPD1002 IMON current sense input

TP17 UPD1002 VSW_CAP pin for external power switch capacitor

TP18 UPD1002 no connect pin 24

TP19 Ground



TP22 UPD1002 PD_PROVIDER_REQ input - not used

TP23 3.3V LDO power rail

TP24 UPD1002 VDDIO (3.3V) power rail

TP25 UPD1002 PD_EN output signal used to drive the BULK_CAP net

TP26 UPD1002 PD_GOOD output - not used

TP27 Ground



3.7 SWITCHES

•

TP28 1.25V switcher power rail

TABLE 3-5: SWITCH DESCRIPTIONS

Reference Designator Label Description

SW1 Reset This pushbutton generates the RESET_N signal to reset the UPD1002. This signal also goes to the Expansion I/F.

SW2 Power Switch This slide switch connects the 24VDC external power to the internal 24V rail.

TABLE 3-4: TEST POINT DESCRIPTIONS

Reference Designator Description



USER’S GUIDE

Appendix A. EVB-UPD1002-MU1 Picture

A.1 INTRODUCTION

Top view of the EVB-UPD1002-MU1 Evaluation Board.

FIGURE A-1: EVB-UPD1002-MU1 EVALUATION BOARD



USER’S GUIDE

Appendix B. EVB-UPD1002-MU1 Schematics

B.1 INTRODUCTION

This appendix shows the EVB-UPD1002-MU1 Evaluation Board schematics.


EV

B-U

PD

1002-MU

1 Evalu

ation

Bo

ard U

ser’s Gu

ide

DS

50002288A

-page 27

2014 M

icrochip Technolo

gy Inc.

UPD SMBus0 I/F

IMON is an analog voltage proportional to the PD current.VMON is an analog voltage proportional to the PD voltage.

Scale: 3V=>6A

Scale: 3V=>24V

"PD Provider"

D_DATA_L

SMB_CLK0SMB_DAT0SMB_ALERT0_N

ATA

ATA_L

VBUS_PD

VDDIO

VSEL1 pg4

PD_ID pg6

VBUS_DISCHARGE pg4,5

IMON pg4,5

PD_EN_N pg4,5

DEAD_BATTERY pg3

VMON pg4,5

SMB_DAT0 pg5SMB_CLK0 pg5

SMB_ALERT0_N pg5

VSEL2 pg4

VBUS_OUT pg5,6

OCS_N pg4OVP_N pg4

BULK_CAP pg4

FAULT_IN_N pg5

C57

DNP

C57

DNP

R1510KDNP

R1510KDNP

R974.7KR974.7K

C69

DNP

C69

DNP

R904.7KR904.7K

TP25TP25

R924.7KR924.7K

D14GREEN

D14GREEN

R49

150

R49

150C65 100pFC65 100pF

(gnd)(nc/5V)(nc/5V)(mosi)(gnd)

(ss2/scl)(ss3/sda)

(miso)(sclk)(ss1)

J6

Aardvark


(ss2/scl)(ss3/sda)

(miso)(sclk)(ss1)

J6

Aardvark

13 4

2

5 67 89 10

3

FIGURE B-1: EVB-UPD1002-MU1 EVALUATION BOARD SCHEMATIC 2

Ext_Rst

Reset

Cfg_Sel1

Cfg_Sel0

Cfg 1 [*]Cfg 2Cfg 3Cfg 4

Cfg 1 [*]Cfg 2Cfg 3Cfg 4

UPD SPI En

Note:Default selections are marked with an asterisk [*] .

Install UPD Power Breakout SHUNT for normal operation. [*]Remove for current measurements.

Install UPD SPI En SHUNT to use external flash. [*]Remove to run from internal ROM.

CFG_SEL0 - PD Configuration[1-2][*] Consumer 5V@0A/Provider 12V@3A[3-4] Consumer 5V@0A/Provider 12V@5A[5-6] Consumer 5V@0A/Provider 20V@3A[7-8] Consumer 5V@0A/Provider 20V@5A

CFG_SEL1[1-2][*] Only valid configuration[3-4] Reserved[5-6] Reserved[7-8] Reserved

UPD Power Breakout

UPD SPI I/F

UPD Control Signals

"FAULT_N"

UnmarkedDNP

Note: Population Option Defaults are:YesNo

IMON

TEST

VBUS_UPD

DEAD_BATTERY

VBUS_DISCHARGEVSEL0

PD_EN_N

SWCAP

VTR

PD_DATA

VDD18

VMON

P

VDD18A

CFG_SEL0

VDDIO VBUS_DISCHARGE

SMB_DAT0

VDD18

VSEL0VSEL1VSEL2

SMB_CLK0

PD_ID

CFG_SEL1

SMB_ALERT0_N

VSEL1VSEL2

VBUS_OUT

FAULT_IN_N

FAULT_IN_N

SPI_MISO

SPI_CLKSPI_MOSI

SPI_CE_N

RESET_N

FAULT_N

PD_D

PD_D

FAULT_N

VDDIO

VDDIO

5V

VDDIO

VDDIO

VDDIO

VDDIO

VDDIO

VDDIO

3V3

RESET_N pg5

VTESTpg4FAULT_Npg5

C64

2.2uF

C64

2.2uF

C37 470pFC37 470pF

TP14TP14

C59

0.1uF

C59

0.1uF

U1 UPD1002_B0_QFN48U1 UPD1002_B0_QFN48

RESET_N39

PD_DATA36

SPI_ROM_CLK14

TEST38

nc22 nc23

CFG_SEL05

VBUS9

VBUS_OUT4

VMON25

VSS49

PD_ID35

VSW_CAP10

SPI_ROM_DI16

VDD33_CAP8

VDD18A_CAP12

SPI_ROM_DO15

SPI_ROM_CE_N13

FAULT_IN_N3

CHG_EMU_EN2

EXT_PWR_DET30

PD_DETECT37

VTR11

RESERVED7

CFG_SEL16

INSERTION_DETECT33

VDDIO18

PD_VSS34

nc24

IMON26

VDDIO28

HUB_PWR_EN1

V_DB_EN29

PD_EN20

PD_EN_N21

PPC_PWR_EN45

PD_PROVIDER_REQ19

VDD18_CAP31

PD_GOOD17

FAULT_N44

SM_ALERT0_N46

SM_CLK048

SM_DAT047

VBUS_DISCHARGE40

VSEL041

VSEL142

VSEL243

PD_VDD1832

VDDIO27

C72

0.1uF

C72

0.1uF

L4 470nHL4 470nH

C45 DNPC45 DNP

D5

Red

D5

Red

R65 4.87KR65 4.87K

C36 470pFC36 470pF

R99

10K

R99

10K

C63

0.1uF

C63

0.1uF

C53

1.0uF

C53

1.0uF

R108 10KR108 10K

R73 4.87KR73 4.87K

C60

1.0uF

C60

1.0uF C52

1.0uF

C52

1.0uF

SHUNT2SHUNT2

R70 10KR70 10K

C61

0.1uF

C61

0.1uF

R123 10KR123 10K

R74 15.4KR74 15.4K

R69 15.4KR69 15.4K

R1 0R1 0

C35 470pFC35 470pF

TP22TP22


(ss2/scl)(ss3/sda)

(miso)(sclk)(ss1)

J9

Aardvark


(ss2/scl)(ss3/sda)

(miso)(sclk)(ss1)

J9

Aardvark

13 4

2

5 67 89 10

TP26TP26

R81 4.87KR81 4.87K

U10

SST25VF064C_SO8Dual Read, >48MHz

U10


CS1SO2

WP3

HOLD7

SCK6

SI5

VCC8

GND4

R63 2.70KR63 2.70K

TP24TP24

C41 4700pFC41 4700pF

TP10TP10

D23 MMBD1203D23 MMBD1203

TP12TP12 R13 0R13 0

C50

0.1uFDNP

C50

0.1uFDNP

J4J412345678

C39 470pFC39 470pF

J3J313 4

2

5 67 8

J2J21 2

R84 2.70KR84 2.70K

TP8TP8

BR1BGX50A BR1BGX50A3 1

2 4

TP20TP20

C44 470pFC44 470pF

TP15TP15

J7J7

12

C55

0.1uF

C55

0.1uF

TP11TP11

J5J513 4

2

5 67 8

SHUNT1SHUNT1

TP19TP19

R67 10KR67 10K

TP9TP9

TP21TP21

C42 470pFC42 470pF

R93

330

R93

330

R101

10K

R101

10K

TP17TP17

C56

1.0uF

C56

1.0uF

C58

0.1uFDNP

C58

0.1uFDNP

R64 8.66KR64 8.66K

TP13TP13

R1001KR1001K

R110

10K

R110

10K

TP18TP18

TP16TP16

SW1SW1

12

34

C51

0.1uF

C51

0.1uFC54

0.1uF

C54

0.1uF

R109

10K

R109

10K

TP1TP1

J10J1012

4.87K

2.70K4.87K8.66K

470pF

EV

B-U

PD

1002-MU

1 Evalu

ation

Bo

ard U

ser’s Gu

ide

2014

Microchip T

echnology Inc.D

S5

0002288A-p

age 28

FIG

5V

C75

10uF

C75

10uF

C74

0.1uF

C74

0.1uF

P3P3

P27P27

P6P6

3

URE B-2: EVB-UPD1002-MU1 EVALUATION BOARD SCHEMATIC 3

Dead Battery Circuit

3.3V @ 300mA

1.25V @ 1A

DC-DC Converter: 5.2V @ 5.5A

Mapping to Power SupplyETS240625UC-P51-ET:Signal P/S CUI PD-40(S)+V 1 1+V 4 2gnd 2 3gnd 3 4gnd Shell 5,8,9,10,12

"3V3 Present"

"5V Present"3.3V Supply used by USB5534 (U16) and other circuits

1.2V Supply used only by USB5534 (U16)

24V Power Options:1. 24VDC Supply ETS240625UC-P51-ET2. 24VDC@6A Bench Supply to banana jacks3. 24VDC@6A Bench Supply to terminal block

Power Switch

EN_3V

LX_1V

FB_1VEN_1V

R_5V

DC_L

24V_F

24V

5V V_PD

3V35V

5V 1V2

DC_IN

3V3

5V

DEAD_BATTERYpg2

HUB_RST_N pg6

TP23TP23

Q2

2N7002LT1G

Q2

2N7002LT1G

C7010uFC7010uF

R59150KR59150K

R55

20

R55

20

R111

20K

R111

20K

R23

10.0K

R23

10.0K

R116

25.5K

R116

25.5K

D24 MMSD701T1GD24 MMSD701T1G

R47

10.0K

R47

10.0K

R126 150R126 150

C78

0.1uF

C78

0.1uF

D12

MBR0540T1G

D12

MBR0540T1G

L3 10uH9A

L3 10uH9A

Q5MMBT3906LT1

Q5MMBT3906LT1

D15 MMSZ4702T1GVz = 15V

D15 MMSZ4702T1GVz = 15V

U8

MCP1824-3.3300mA

U8

MCP1824-3.3300mA

GND_TAB6

VIN2

VOUT4

GND3 SHDN1

PWRGD5

C81

0.1uF

C81

0.1uF

C22

470pF

C22

470pF

R53

19.1K

R53

19.1K

Q4

2N7002LT1G

Q4

2N7002LT1G

C76

0.1uF

C76

0.1uF

C77

0.1uF

C77

0.1uF

C20

0.47uF

C20

0.47uF

Q12MMBT3904LT1Q12MMBT3904LT1

R6016.9K1%

R6016.9K1%

R46300R46300

R115200.0KR115200.0K

C6810uFC6810uF

R51

8.06K

R51

8.06K

R24 8.45

1%

1/4WR24 8.45

1%

1/4W

R114 10KR114 10K

C85

0.1uF

C85

0.1uF

4

1 2 3

5 6 7 8 9Q10NTTFS5826NL4

1 2 3

5 6 7 8 9Q10NTTFS5826NL

TT

R42100R42100

F17AF17A

C47 0.1uF50V

C47 0.1uF50V

D20SMAJ26AD20SMAJ26A

R58

619

R58

619

C71

0.1uF

C71

0.1uF

C8010uFC8010uF

R261.00KR261.00K

SW2SW22

31

R45 5.11/4W

R45 5.11/4W

R561.0KR561.0K

J13JACK_RED

J13JACK_RED

12

C73

0.001uF

C73

0.001uF

R113

10K

R113

10K

TT

R118 10KR118 10K

C170.1uFC170.1uF

C1010uF50V

C1010uF50V

R16

10.0K

R16

10.0K

J17JACK_BLACK

J17JACK_BLACK

12

C19270pFC19270pF

TP28TP28

R43

20K

R43

20K

L5 3.3uH1.7A

L5 3.3uH1.7A

C67

0.1uF

C67

0.1uF

R57

16.9K

R57

16.9K

1 23 4

J8 PD-40S

1 23 4

J8 PD-40S

3 4

21

58 9 10 11

TT

C120.1uF50V

C120.1uF50V

Q1AO3403Q1AO3403

C8610uFC8610uF

R615.36K1%

R615.36K1%

R112 0R112 0

R86 330R86 330

R122 10R122 10

41 2 3

5Q11

NTMFS5834NL41 2 3

5Q11

NTMFS5834NL

R119

10.0K

R119

10.0K

Q3AO3403

Q3AO3403

D16GREEN

D16GREEN

R201.00KR201.00K

+ C7100uF50V

+ C7100uF50V

R50 10.0KR50 10.0K

TP4TP4

+ C15

220uF

+ C15

220uF

R117113KR117113K

J12

282836-2

J12

282836-2

1

2

R21

10.0K

R21

10.0K

R44 330R44 330

U9

MCP1612

1A

DFN8-EPAD

U9

MCP1612

1A

DFN8-EPADEP9

VIN1

FB5

VCC2

AGND6 PGND7

SHDN3

LX8

COMP4

C161uFC161uF

C13

470pF

C13

470pF

C14 0.1uFC14 0.1uF

D1

MBR0540T1G

DNPD1

MBR0540T1G

DNP

C82

0.1uF

C82

0.1uF

U4

NCP1034

U4

NCP1034

SYNC5

VCC12

RT15

SS/SD4

UVLO16

OCset1

GND14

HDRV10

VS11

OCin13

LDRV7

PGND6

FB2

COMP3

VB

9

DRVCC

8

D11GREEN

D11GREEN

0.1uF 20

1N914BTR

EV

B-U

PD

1002-MU

1 Evalu

ation

Bo

ard U

ser’s Gu

ide

2014

Microchip T

echnology Inc.D

S5

0002288A-p

age 29


VSEL1VSEL2X

1 1

DC Converter for PD Upstream Port - 5V/12V/20V @ 3A, 5A

V_PD0

120 1 20

01

Trip point=5.3A

Scale: 3V=>6A

Trip point=22.5V

OCS/OVP Comparators

PD_EN_N1000

X5

Spares

VMON is an analog voltage proportional to the PD voltage.IMON is an analog voltage proportional to the PD current.

Scale: 3V=>24V

UnmarkedDNP

Note: Population Option Defaults are:YesNo

DC_L_PD

V_PD_R

DC_IN

V_PD

3V3

3V3

VBUS_PDV_PD

3V3

5V

3V3

3V3

3V3

3V3

VSEL1pg2VSEL2pg2

BULK_CAPpg2

VBUS_DISCHARGEpg2,5

IMONpg2,4,5OCS_N pg2

VTESTpg2

PD_EN_Npg2,5

IMON pg2,4,5

VMONpg2,4,5OVP_N pg2

VMON pg2,4,5

R36 10.0KR36 10.0K

R79

0.023W

R79

0.023W

R78 5.1K1%R78 5.1K1%

R9 1.69K1%R9 1.69K1%

R30

10.0K

R30

10.0K

R40150KR40150K

+

-

U3B

MCP6549

+

-

U3B

MCP6549

5

67

41 2 3

5Q8

NTMFS5834NL41 2 3

5Q8

NTMFS5834NL

R664.7KR664.7K

R7147

2W1%

R7147

2W1%

C80.1uF50V

C80.1uF50V

C6 0.1uF

50V

C6 0.1uF

50V

R80 0R80 0

R32 5.11/4WR32 5.11/4W

R37300R37300

R72 1.15K1%R72 1.15K1%

R65.1KR65.1K

C91uF50V

C91uF50V

41 2 3

5Q13

NTMFS4927N41 2 3

5Q13

NTMFS4927N

R34

619

R34

619 R381.40K

1%

R381.40K

1%

R7510KR7510K

D22ES1AD22ES1A

Q9MMBT3904LT1Q9MMBT3904LT1

D19MMSD701T1GD19MMSD701T1G

D4

ES1A

D4

ES1A

R1035.7KR1035.7K

R2516.9K1%

R2516.9K1%

R39

10.0K

R39

10.0K

D2

PESD3V3X1BL

D2

PESD3V3X1BL

R7 10.0KR7 10.0K

L2 1uH6.5A

L2 1uH6.5A

TP7TP7

R1021.40K1%DNP

R1021.40K1%DNP

R8310KR8310K

C34

0.1uF

C34

0.1uF

R271KR271K

R29100R29100

TP5TP5

R31

20K1%

R31

20K1%

C1270pFC1270pF

R85

10.0K

R85

10.0K

C5

0.022uF

C5

0.022uF

R22

20

R22

20

41 2 3

5Q14

NTMFS4927N41 2 3

5Q14

NTMFS4927N

D3MBR0540T1GD3MBR0540T1G

R17

10.0K

R17

10.0K

C40 10pFC40 10pFR41

10.0K

R41

10.0K

R2 10.0KR2 10.0K

C33

0.001uF

C33

0.001uF

V+

V-

4

11

U3E

MCP6549

V+

V-

4

11

U3E

MCP6549

R681K

1%2W

R681K

1%2W

R76

20K1%

R76

20K1%

L1 10uH9A

L1 10uH9A

R285.49KR285.49K

C4910uF50V

C4910uF50V

+

-

U3C

MCP6549

+

-

U3C

MCP6549

10

98

R3514.3K1%

R3514.3K1%

R12 10.0KR12 10.0K

C4

470pF

C4

470pF

R5 2.43K1%R5 2.43K1%

D21SMAJ22AD21SMAJ22A

R823.01K

1%

R823.01K

1%

C480.1uF50V

C480.1uF50V

C46

0.1uF

C46

0.1uF

Q7

2N7002LT1G

Q7

2N7002LT1G

R11 10.0KR11 10.0K

+ C2220uF50V

+ C2220uF50V

Q15

2N7002LT1G

Q15

2N7002LT1G

C43

0.1uF

C43

0.1uF

C3810uF50V

C3810uF50V

R4

10.0K1%

R4

10.0K1%

R8

10.0K1%

R8

10.0K1%

R3

10.0K

DNP

R3

10.0K

DNP

R333.01K

1%

R333.01K

1%

TP2TP2

U2

NCP1034

U2

NCP1034

SYNC5

VCC12

RT15

SS/SD4

UVLO16

OCset1

GND14

HDRV10

VS11

OCin13

LDRV7

PGND6

FB2

COMP3

VB

9

DRVCC

8

4

1 2 3

5 6 7 8 9Q6NTTFS5826NL4

1 2 3

5 6 7 8 9Q6NTTFS5826NL

U6

ZXCT1110

U6

ZXCT1110GND

2

S+

4

OUT3

S-

5

NC1

+

-

U3D

MCP6549

+

-

U3D

MCP6549

12

1314

R14

10.0K

DNP

R14

10.0K

DNP

-

+

U3A

MCP6549

-

+

U3A

MCP6549

3

21

R77 0R77 0

C3470pFC3470pF

D6MMSZ4702T1G

Vz = 15V

D6MMSZ4702T1G

Vz = 15V

3

DEAD_BATTERY 1

MC74VHC1G32

42

EV

B-U

PD

1002-MU

1 Evalu

ation

Bo

ard U

ser’s Gu

ide

2014

Microchip T

echnology Inc.D

S5

0002288A-p

age 30


Expansion I/F

LED Voltmeter

"5V"

"20V"

"16V"

"12V"

> 15V

> 11V

> 4.4V

> 18V

The LED Voltmeter provides a visual indicationof the approximate voltage at the PD connector.

BRD0 BRD1

LVL_V13

LVL_V17

LVL_V21

LVL_V65V_LED

12V_LED

20V_LED

16V_LED5V

3V3

5V

3V3

3V3

5V

3V3

3V3

RESET_Npg2

VMONpg2,4,5IMONpg2,4

SMB_CLK0pg2SMB_DAT0pg2SMB_ALERT0_Npg2

PD_EN_Npg2,4

VBUS_DISCHARGE pg2,4VBUS_OUT pg2,6

FAULT_IN_Npg2

FAULT_Npg2

VMONpg2,4,5

R8910.0KR8910.0K

R94

330

R94

330

R962.00KR962.00K

R10722.0KR10722.0K

R91

330

R91

330

R10413.3K1%

R10413.3K1%

C11

0.1uF

C11

0.1uF

R18 10KR18 10K

R10610.0KR10610.0K

R1910KR1910K

R98

330

R98

330

R10510.0KR10510.0K

V+

V-

4

11

U7E

MCP6549

V+

V-

4

11

U7E

MCP6549

R9510.0KR9510.0K

-

+

U7A

MCP6549

-

+

U7A

MCP6549

3

21

R887.15K1%

R887.15K1%

+

-

U7B

MCP6549

+

-

U7B

MCP6549

5

67

D8

GREEN

D8

GREEN

D7

GREEN

D7

GREEN

+

-

U7C

MCP6549

+

-

U7C

MCP6549

10

98

D10

GREEN

D10

GREEN

(5V to DC)

(gnd)(gnd)

(-rsvd1-)

(gnd)

(gnd)

(gnd)

(gnd)

(gnd)(gnd)

(imon)

(brd_id0)

(smbalert#)

(vmon)

(gpio2)

(smbdat)

(gpio0/ppc_pwr_en)

(reset#)

(smbclk)

(gpio1/pd_good)

(spi_clk)

(spi_ce#)(spi_mosi) (spi_miso)

(3V from DC)

(brd_id1)(brd_id2) (brd_id3)

(gpio3)

(gpio4) (gpio5)(gpio6) (gpio7)

(gnd)

(-rsvd2-)

(-rsvd3-) (-rsvd4-)

(-rsvd0-)

(gnd)

(-rsvd5-)

J1Expansion I/F

2x20_RA-FEM

(5V to DC)

(gnd)(gnd)

(-rsvd1-)

(gnd)

(gnd)

(gnd)

(gnd)

(gnd)(gnd)

(imon)

(brd_id0)

(smbalert#)

(vmon)

(gpio2)

(smbdat)

(gpio0/ppc_pwr_en)

(reset#)

(smbclk)

(gpio1/pd_good)

(spi_clk)

(spi_ce#)(spi_mosi) (spi_miso)

(3V from DC)

(brd_id1)(brd_id2) (brd_id3)

(gpio3)

(gpio4) (gpio5)(gpio6) (gpio7)

(gnd)

(-rsvd2-)

(-rsvd3-) (-rsvd4-)

(-rsvd0-)

(gnd)

(-rsvd5-)

J1Expansion I/F

2x20_RA-FEM

13 4

2

5 67 89 10

121113 1415 1617 1819 2021 2223252729313335

2628303234363840

3739

24

R87

330

R87

330

D9

GREEN

D9

GREEN

+

-

U7D

MCP6549

+

-

U7D

MCP6549

12

1314

3

EV

B-U

PD

1002-MU

1 Evalu

ation

Bo

ard U

ser’s Gu

ide

2014

Microchip T

echnology Inc.D

S5

0002288A-p

age 31


Hub SPI En SHUNT must be in when using SPI flash. [*]Remove to run from internal ROM.

USB3 Downstream

USB3 PDUpstream

-Program-

Port Power

Note:Default selections aremarked with an asterisk [*] .

Note that the SS signal pair Tx+/- is polarity swapped on the Upward Facing Port to improve routing.The same is true for the SS pair Rx+/-.This is specifically allowed per USB 3.0 Spec.

PD Cable Marker SHUNT must be inwhen using a non-PD USB cable

Hub SPI En

Disable Battery ChargingRemove SHUNT to enable BC [*]Install SHUNT to disable BC

BC Disable

ManualSMBus EN

[1-2] 3A[2-3] 5ANo SHUNT [*]

PD Cable Marker

"PD Port"

"Por

t 1 P

wr"

"Por

t 2 P

wr"

YesYesNoNo

Note: Population Option Defaults are:UnmarkedStdPD-BuPD-BDNP

NON_REM4NON_REM3

PWR1

SSTXP_C_UP_B

PCT_OCS1

PRT_DIS3PRT_DIS4

PCT_EN1

XTAL2

XTAL1

RBIAS

H_SPI_CLKH_SPI_MOSI

H_SPI_CE_NH_SPI_MISO

SSTXP_C_DN1SSTXM_UP

USBP_UP

SSTXP_UP

VBUS_PD

SSTXM_C_UP_B

VBUS_PDUSBM_UPUSBP_UP

SSTXM_C_UP_UB

SSRXP_UP_UBSSRXM_UP_UB

SSTXP_C_UP_UB

DNYBC

SSRXM_DN1SSRXP_DN1

USBM_DN1USBP_DN1

SSTXM_C_DN1SSTXP_DN1SSTXM_DN1

HTESTATEST

PWR2SSRXM_UP

PCT_OCS2

PCT_EN2

SSRXM_UP_BSSRXP_UPSSRXP_UP_B

SM_DAT

PWR2

PWR1

HUB_RST_N

SM_CLK

SSTXP_C_DN2SSTXM_C_DN2

SSTXP_DN2

USBP_DN2USBM_DN2

SSRXP_DN2SSRXM_DN2

SSTXM_DN2

USBM_UP_BUSBP_UP_B

USBM_UP

5V

GND_USB_DN25V

1V2

3V3

1V2

3V3

3V3

Shield0

3V3

VBUS_PD

GND_USB_DN2

3V3

3V3

HUB_RST_Npg3

PD_IDpg2

VBUS_OUTpg2,5

U13

AP2511_MSOP8-EP

2.5AU13

AP2511_MSOP8-EP

2.5A

IN23

EN4 nc

8

FLAG5 GND

1

IN12

OUT27OUT16

EP9

R52 ZERO uPD-BR52 ZERO uPD-B

D13Br_OrgD13Br_Org

+ C27150uF

+ C27150uF

R12410KR12410K

C21 0.1uF uPD-BC21 0.1uF uPD-B

J22J22

12

U12


U12


CS1SO2

WP3

HOLD7

SCK6

SI5

VCC8

GND4

C102

0.1uF

C102

0.1uF

J15J1512

R137

10K

R137

10K

C94

1.0nF

C94

1.0nF

+ C30150uF

+ C30150uF

R128 ZERO StdPD-BR128 ZERO StdPD-B

C32 0.1uFC32 0.1uF

C92

0.1uF

C92

0.1uF

R13010KR13010K

J16

DNP

J16

DNP

1 2

C106

0.1uF

C106

0.1uF

(gnd)(nc/5V)(nc/5V)(mosi)

(gnd)

(ss2/scl)(ss3/sda)(miso)(sclk)(ss1)

J19

Aardvark

(gnd)(nc/5V)(nc/5V)(mosi)

(gnd)

(ss2/scl)(ss3/sda)(miso)(sclk)(ss1)

J19

Aardvark

134

2

5678910

R1471.00K1%uPD-B

R1471.00K1%uPD-B

U11

AP2511_MSOP8-EP

2.5AU11

AP2511_MSOP8-EP

2.5A

IN23

EN4 nc

8

FLAG5 GND

1

IN12

OUT27OUT16

EP9

C103

0.1uF

C103

0.1uF


C99

0.1uF

C99

0.1uF

SHUNT3SHUNT3

Y125MHz

Y125MHz

13

C84 0.1uFStdPD-B

C84 0.1uFStdPD-B

C107

1.0nF

C107

1.0nF

R1444.7KR1444.7K

R1434.7KR1434.7K

C98 0.1uFC98 0.1uF

R484.7KR484.7K

C890.01uFStdPD-B

C890.01uFStdPD-B

C93

0.1uF

C93

0.1uF

R140 330R140 330

R133 10KR133 10KR146 10KR146 10K

D18

GREEN

D18

GREEN

J18J18

123

C23

0.1uF

C23

0.1uF

USB 3.0PD-BRECTHRU

J11 StdPD-BUSB 3.0PD-BRECTHRU

J11 StdPD-B

Vbus1

D-2

D+3

GND14

SH112

SH213

SSTX+6

SSTX-5

GND27

SSRX+9

SSRX-8

ID11

USB 3.0 PDu-AB REC SMT +SMT tabs

J14 uPD-BUSB 3.0 PDu-AB REC SMT +SMT tabs

J14 uPD-B

Vbus1

D-2

D+3

GND15

ShP113

SSRX+10SSRX-9GND28SSTX+7SSTX-6

ShR12

ShL11

id4

ShP214

ShP315

ShP416

C31 0.1uFC31 0.1uF

C28 0.1uFC28 0.1uF

C88

1.0nF

C88

1.0nF

C62 0.1uFC62 0.1uF

C24

0.1uF

C24

0.1uF

C90

0.1uF

C90

0.1uF

C29 0.1uFC29 0.1uF

USB 3.0A-RECTHRU(TID#)

J21

GSB311131HRTID # = 360000089


J21

GSB311131HRTID # = 360000089

Vbus1

D-2

D+3

GND14

Sh112

Sh213

SSRX+6 SSRX-5

GND27

SSTX+9 SSTX-8

C876pF

C876pF


R12510KR12510K

R1380R1380

C26

0.1uF

C26

0.1uF

R1414.7KR1414.7K

+C25

150uF

+C25

150uFR132 330R132 330

Upstream

OCS / JTAG / UARTD

owns

tream

Clock

SPI / I2C

Bias/Test

Power

Reset

Port Power Control

SMBUS

(Fill the GND FLAG withat least 20 GND vias.)

U5 USB5534B-A3_QFN64

Upstream

OCS / JTAG / UARTD

owns

tream

Clock

SPI / I2C

Bias/Test

Power

Reset

Port Power Control

SMBUS

(Fill the GND FLAG withat least 20 GND vias.)

U5 USB5534B-A3_QFN64

USB2DM_UP54

SPI_CLK40

RESET50

SPI_DO/SPI_SPD_SEL41

XTALIN/CLK_IN62

RBIAS64

GND(FLAG)65

VDD3316

XTALOUT61

USB3DM_TXUP56

USB3DP_TXUP55

USB3DM_RXUP59

USB3DP_RXUP58

TEST49

VDD125

VDD128

VDD1213

VDD1221

VDD1228

VDD1231

VDD1251

VDD1257

VDD3334

VDD3352

VDD3363

USB3DP_TXDN13

USB2DM_DN12

USB3DM_TXDN14

USB2DP_DN11

USB3DM_RXDN17

USB3DP_RXDN16

USB2DM_DN210

USB3DP_RXDN214

USB3DM_TXDN212

USB3DP_TXDN211

USB2DP_DN29

USB3DM_RXDN215

USB3DP_RXDN322

USB2DM_DN318

USB3DP_TXDN319USB3DM_TXDN320

USB3DM_RXDN323

USB2DP_DN317

USB3DM_TXDN427

USB3DP_RXDN429

USB2DM_DN425

USB2DP_DN424

USB3DM_RXDN430

USB3DP_TXDN426

SPI_DI42

TCK/OCS146

TDI/OCS344

TDO/OCS443

TRST/SMBAlert/DYNCPDIS45

TMS/OCS247

ATEST60

SPI_CE39

SM_CLK38

SM_DAT37

PRT_CTL432PRT_CTL333PRT_CTL235PRT_CTL136

VBUS_DET48

USB2DP_UP53


J20

GSB311131HRTID # = 360000089


J20

GSB311131HRTID # = 360000089

Vbus1

D-2

D+3

GND14

Sh112

Sh213

SSRX+6 SSRX-5

GND27

SSTX+9 SSTX-8

C100

4.7uFDNP

C100

4.7uFDNP

C101

0.1uF

C101

0.1uF

R131 330R131 330

C97

0.1uF

C97

0.1uF

R139100KR139100K

R14510KR14510K

R6212.0K1%

R6212.0K1%


C91

1.0nF

C91

1.0nF

R135 10KR135 10K

C66 1.0nFC66 1.0nF

C104

4.7uFDNP

C104

4.7uFDNP

D17

GREEN

D17

GREEN

R12910KR12910K

R54 ZERO uPD-BR54 ZERO uPD-B

R1424.7KR1424.7K

C796pF

C796pF

C96

0.1uF

C96

0.1uF

C18 0.1uF uPD-BC18 0.1uF uPD-B

C95 0.1uFC95 0.1uF

R103 330R103 330

R13410KR13410K

R136 330R136 330

C105

0.1uF

C105

0.1uF

C83 0.1uF StdPD-BC83 0.1uF StdPD-B

3


USER’S GUIDE

Appendix C. EVB-UPD1002-MU1 Bill of Materials (BOM)

C.1 INTRODUCTION

This appendix includes the EVB-UPD1002-MU1 Evaluation Board Bill of Materials (BOM).


EV

B-U

PD

1002-MU

1 Ev

aluatio

n B

oard

User’s G

uid

e

DS

50002288A

-page 33

2014 M

icrochip Technolo

gy Inc.

Manufacturer Manufacturer Part NumberMurata GRM1555C1H271JA01D

Panasonic EEE-FK1H221GPMurata Electronics GRM2165C1H471JA01DKemet C0603C223K5RACTUMurata GRM188R71H103KA01DPanasonic ECA-1HM101TDK Corporation C1608X5R1H105K080ABTDK C3216X5R1H106K160AB

Taiyo Yuden UMK105BJ104KV-FNichicon UPM1C221MPD1TATaiyo Yuden UMK105BJ104KV-FTDK Corporation C1608X5R1C474K080AALelon VZS151M0JTR-0506Murata GRM155R71H102KA01DTaiyo Yuden UMK105BJ104KV-FMurata GRM1885C1H100JA01DMurata Electronics GRM2165C1H471JA01DMurata Electronics GRM2165C1H471JA01DTaiyo Yuden UMK105BJ104KV-F

TDK Corporation C1608X5R1C225K080ABMurata GCM1885C1H101JA16DMurata GRM155R71H102KA01DMurata GRM155R71H102KA01DMurata GRM21BR61C106KE15LMurata GRM1555C1H6R0DZ01DTaiyo Yuden UMK105BJ104KV-FMurata GRM188R71H103KA01DMurata GRM188R60J475KE19DInfineon Tech BGX50AOn Semiconductor MBR0540T1GOn Semiconductor MBR0540T1GNXP Semiconductors PESD3V3X1BLFairchild Semiconductor ES1AOn Semiconductor MMSZ4702T1GOn Semiconductor MMSD701T1GLittelfuse Inc SMAJ26ALittelfuse Inc SMAJ22AFairchild Semiconductor MMBD1203Littlefuse 0154007.DRStanley Electric BR1111C-TRLite-On Inc. LTST-C190GKTKingbright APT1608SECKBourns Inc. PM13560S-100M-RCCoiltronics/Cooper BussmannDRA73-1R0-RBourns CE201210-R47JTaiyo Yuden MAMK2520T3R3MPanasonic ERJ-3GEY0R00V

Rohm MCR03EZHF1002Rohm MCR03EZHF1002Panasonic ERJ-3EKF2431VPanasonic ERJ-3EKF5101VRohm MCR03EZHF1691Panasonic ERJ-3EKF3572VPanasonic ERJ-3GEYJ103V

Item Qty Reference Designator(s) Description1 2 C1,C19 Capacitor, 270pF, 50V, 5%, NPO, 0402

2 1 C2 Capacitor, 220uF, 50VDC, 20%, Aluminum, Radial, 10.3mm x 10.3mm3 10 C3,C4,C13,C22,C35,C36,C37,C39,C42,C44 Capacitor, 470pF, 50V, 5%, C0G, 08054 1 C5 Capacitor, 0.022uF, 50V, 10%, X7R, 06035 4 C6,C8,C46,C48 Capacitor, 0.01uF, 50V, 10%, X7R, 06036 1 C7 Capacitor, 100uF, 50VDC, 20%, Aluminum, Radial-TH, 8mm x 11.5mm7 6 C9,C16,C52,C53,C56,C60 Capacitor, 1.0uF, 50V, 10%, X5R, 06038 3 C10,C38,C49 Capacitor, 10uF, 50V, 10%, X5R, 1206

9 41

C11,C12,C14,C17,C23,C24,C26,C28,C29,C31,C32,C43,C47,C51,C55,C61,C62,C63,C67,C71,C72,C74,C76,C77,C78,C81,C82,C85,C90,C92,C93,C95,C96,C97,C98,C99,C101,C102,C103,C105,C106 Capacitor, 0.1uF, 50V, 10%, X5R, 0402

10 1 C15 Capacitor, 220uF, 16VDC, 20%, Aluminum, Radial-TH, 8 x 11.5 mm11 2 C18,C21 Capacitor, 0.1uF, 50V, 10%, X5R, 040212 1 C20 Capacitor, 0.47uF, 16V, 10%, X5R, 060313 3 C25,C27,C30 Capacitor, Low ESR, 150uF, 6.3VDC, 20%, Aluminum, Radial-SMT, 5mm x 5.7mm14 1 C33 Capacitor, 1000pF, 50V, 10%, X7R, 040215 3 C34,C54,C59 Capacitor, 0.1uF, 50V, 10%, X5R, 040216 1 C40 Capacitor, 10pF, 50V, 5%, NPO, 060317 1 C41 Capacitor, 470pF, 50V, 5%, C0G, 080518 1 C45 Capacitor, 470pF, 50V, 5%, C0G, 080519 2 C50,C58 Capacitor, 0.1uF, 50V, 10%, X5R, 040220 2 C57,C69 Capacitor, Do Not Populate, 080521 1 C64 Capacitor, 2.2uF, 16VDC, 10%, X5R, 060322 1 C65 Capacitor, 100pF, 50V, 5%, NPO, 060323 5 C73,C88,C91,C94,C107 Capacitor, 1000pF, 50V, 10%, X7R, 040224 1 C66 Capacitor, 1000pF, 50V, 10%, X7R, 040225 5 C68,C70,C75,C80,C86 Capacitor, 10uF, 16VDC, 10%, 080526 2 C79,C87 Capacitor, 6pF, 50V, +/-0.5pF, NPO, 040227 2 C83,C84 Capacitor, 0.1uF, 50V, 10%, X5R, 040228 1 C89 Capacitor, 0.01uF, 50V, 10%, X7R, 060329 2 C100,C104 Capacitor, 4.7uF, 6.3VDC, 20%, X5R, 060330 1 BR1 Diode, Bridge, Switching, 50V, 140mA,KCAC, SOT-14331 1 D1 Diode, Shottky, 40V, 0.5A, SOD12332 2 D3,D12 Diode, Shottky, 40V, 0.5A, SOD12333 1 D2 Diode, ESD protection, bidirectional, SOD88234 2 D4,D22 Diode, S1A, General Purpose, 50V, 1A, KA, SMA35 2 D6,D15 Diode, Zener, 15V, 0.5W, SOD12336 2 D19,D24 Diode, Shottky, 70V, 0.2A, SOD12337 1 D20 Diode, Transient Voltage Suppression, 26V, DO-214AC38 1 D21 Diode, Transient Voltage Suppression, 22V, DO-214AC39 1 D23 Diode, Dual, MMBD1203, U-Fast Switching, 100VDC, 200mA, AKC, SOT-2340 1 F1 Fuse, Omniblock154, 7A, 125V, FB41 1 D5 LED, Red, 060342 9 D7,D8,D9,D10,D11,D14,D16,D17,D18 LED, Green, 060343 1 D13 LED, Bright Orange, 160mcd, 20mA, 060344 2 L1,L3 Inductor, 10uH, DCR-25.5mohms, 9A, SMT45 1 L2 Inductor, 1uH, DCR-0.0067, 6.5A, SMT46 1 L4 Inductor, 470nH, DCR-1.5, 300mA, 080547 1 L5 Inductor, 3.3uH, DCR-0.156, 1.7A, SMT-2.5x248 6 R1,R13,R77,R80,R112,R138 Resistor, ZERO, 0.1W, 0603

49 22R2,R4,R7,R8,R11,R12,R16,R17,R21,R23,R30,R36,R39,R41,R47,R50,R85,R89,R95,R105,R106,R119 Resistor, 10.0K, 1%, 1/16W, 0603

50 2 R3,R14 Resistor, 10.0K, 1%, 1/16W, 060351 1 R5 Resistor, 2.43K, 1%, 1/10W, 060352 2 R6,R78 Resistor, 5.10K, 1%, 1/10W, 060353 1 R9 Resistor, 1.69K, 1%, 1/16W, 060354 1 R10 Resistor, 35.7K, 1%, 1/10W, 060355 1 R15 Resistor, 10K, 5%, 1/16W, 0603

EV

B-U

PD

1002-MU

1 Bill o

f Materials (B

OM

)

2014

Microchip T

echnology Inc.D

S5

0002288A-p

age 34

nic ERJ-3GEYJ103VAmerica 9C06031A1001FKHFTnic ERJ-3GEYJ200V

/Dale CRCW12068R45FKEAnic ERJ-3EKF1692Vnic ERJ-3GEYJ102Vnic ERJ-3EKF5491Vnic ERJ-3EKF1000Vnic ERJ-3EKF2002Vnic ERJ-8GEYJ5R1Vnic ERJ-3EKF3011Vnic ERJ-3EKF6190Vnic ERJ-3EKF1432Vnic ERJ-3GEYJ301Vnic ERJ-3EKF1401Vnic ERJ-3EKF1503Vnic ERJ-3GEYJ331Vnic ERJ-3GEYJ472Vnic ERJ-3GEYJ151Vnic ERJ-3EKF8061Vnic ERJ-2GE0R00XAmerica RC0603FR-0719K1Lnic ERJ-3EKF5361Vnic ERJ-3EKF1202Vnic ERJ-3EKF2701Vnic ERJ-3EKF8661Vnic ERJ-3EKF4871V

CRM2512-FX-1001ELFnectivity 352147RFT

Dale CRCW0603910RFKEA Inc. CRA2512-FZ-R020ELFnic ERJ-3EKF7151V

MCR03EZHF2001nic ERJ-3EKF1401Vnic ERJ-3EKF1332V

peer RK73H1JLTD2202Fnic ERJ-3EKF2003Vnic ERJ-3EKF2552Vnic ERJ-3EKF1133Vnic ERJ-2GE0R00XAmerica 9C06031A10R0JLHFTnic ERJ-3GEYJ104VAmerica 9C06031A1001FKHFT

TSW-102-14-L-STSW-102-14-L-STSW-103-14-L-S102972-8TSW-104-14-L-D146256-5SQT-120-01-L-D-RAPD-40S

nectivity 282836-2571-0500571-0100

n Electronics 1211-0404-0023n Electronics Mfg ITW140030-0A

nol GSB311131HR Omega SemiconductAO3403

mi 2N7002LT1Gmi MMBT3906LT1mi NTTFS5826NLTAGmi NTMFS5834NLT1Gmi MMBT3904LT1mi NTMFS4927NT1G

56 25R18,R19,R67,R70,R75,R83,R99,R101,R108,R109,R110,R113,R114,R118, R123,R124,R125,R129,R130,R133,R134,R135,R137,R145,R146 Resistor, 10K, 5%, 1/16W, 0603 Panaso

57 2 R20,R26 Resistor, 1.00K, 1%, 1/16W, 0603 Yageo 58 2 R22,R55 Resistor, 20, 5%, 1/10W, 0603 Panaso59 1 R24 Resistor, 8.45, 1%, 1/4W, 1206 Vishay60 3 R25,R57,R60 Resistor, 16.9K, 1%, 1/10W, 0603 Panaso61 3 R27,R56,R100 Resistor, 1K, 5%, 1/16W, 0603 Panaso62 1 R28 Resistor, 5.49K, 1%, 1/10W, 0603 Panaso63 2 R29,R42 Resistor, 100, 1%,1/10W, 0603 Panaso64 4 R31,R43,R76,R111 Resistor, 20.0K, 1%, 1/10W, 0603 Panaso65 2 R32,R45 Resistor, 5.1, 5%, 1/4W, 1206 Panaso66 2 R33,R82 Resistor, 3.01K, 1%, 1/10W, 0603 Panaso67 2 R34,R58 Resistor, 619, 1%, 1/10W, 0603 Panaso68 1 R35 Resistor, 14.3K, 1%, 1/10W, 0603 Panaso69 2 R37,R46 Resistor, 300, 5%, 1/10W, 0603 Panaso70 1 R38 Resistor, 1.40K, 1%, 1/10W, 0603 Panaso71 2 R40,R59 Resistor, 150K, 1%, 1/16W, 0603 Panaso72 12 R44,R86,R87,R91,R93,R94,R98,R103,R131,R132,R136,R140 Resistor, 330, 5%, 1/16W, 0603 Panaso73 9 R48,R66,R90,R92,R97,R141,R142,R143,R144 Resistor, 4.7K, 5%, 1/16W, 0603 Panaso74 2 R49,R126 Resistor, 150, 5%, 1/10W, 0603 Panaso75 1 R51 Resistor, 8.06K, 1%, 1/10W, 0603 Panaso76 2 R52,R54 Resistor, ZERO, 0.1W, 0402 Panaso77 1 R53 Resistor, 19.1K, 1%, 1/10W, 0603 Yageo 78 1 R61 Resistor, 5.36K, 1%, 1/10W, 0603 Panaso79 1 R62 Resistor, 12.0K, 1%, 1/16W, 0603 Panaso80 3 R63,R81,R84 Resistor, 2.70K, 1%, 1/10W, 0603 Panaso81 2 R64,R73 Resistor, 8.66K, 1%, 1/10W, 0603 Panaso82 3 R65,R69,R74 Resistor, 4.87K, 1%, 1/10W, 0603 Panaso83 1 R68 Resistor, 1.00K, 1%, 2W, 2512 Bourns84 1 R71 Resistor, 47, 1%, 2W, 2512 TE Con85 1 R72 Resistor, 910, 1%, 1/10W, 0603 Vishay86 1 R79 Resistor, 0.020, 1%, 3W, 2512 Bourns87 1 R88 Resistor, 7.15K, 1%, 1/10W, 0603 Panaso88 1 R96 Resistor, 2.00K, 1%, 1/16W, 0603 Rohm89 1 R102 Resistor, 1.40K, 1%, 1/10W, 0603 Panaso90 1 R104 Resistor, 13.3K, 1%, 1/10W, 0603 Panaso91 1 R107 Resistor, 22.0K, 1%, 1/16W, 0603 KOA S92 1 R115 Resistor, 200K, 1%, 1/10W, 0603 Panaso93 1 R116 Resistor, 25.5K, 1%, 1/10W, 0603 Panaso94 1 R117 Resistor, 113K, 1%, 1/10W, 0603 Panaso95 4 R120,R121,R127,R128 Resistor, ZERO, 0.1W, 0402 Panaso96 1 R122 Resistor, 10, 5%,1/16W, 0603 Yageo 97 1 R139 Resistor, 100K, 5%, 1/16W, 0603 Panaso98 1 R147 Resistor, 1.00K, 1%, 1/16W, 0603 Yageo 99 5 J2,J7,J10,J15,J22 Header, 1 x 2, 0.1 Inch, Vertical Samtec

100 1 J16 Header, 1 x 2, 0.1 Inch, Vertical Samtec101 1 J18 Header, 1 x 3, 0.1 Inch, Vertical Samtec102 1 J4 Header, 1 x 8, 0.1 Inch, Vertical AMP103 2 J3,J5 Header, 2 x 4, 0.1 Inch, Vertical Samtec104 3 J6,J9,J19 Header, 2 x 5, 0.1 Inch, Vertical AMP105 1 J1 Header, 2 x 20, 2mm pitch, FEM, RA, TH Samtec106 1 J8 Connector, Circular Power DIN 4 position receptacle, T/H, R/A CUI Inc107 1 J12 Connector, Terminal Block, 5mm pitch, 2 position, TH TE Con108 1 J13 Connector, Banana Jack, Red, RA, TH Deltron109 1 J17 Connector, Banana Jack, Black, RA, TH Deltron110 1 J11 Receptacle, USB 3.0, Style B, w/ PD ID, Right Angle, TH Joinsoo111 1 J14 Receptacle, USB 3.0 PD, Style MicroAB, Right Angle, SMT Joinsoo112 2 J20,J21 Receptacle, USB 3.0, Style A, Right Angle, with TID#, Through-hole Amphe113 2 Q1,Q3 Transistor, AO3403, P-Channel MOS-FET, 30V, 2.6A, SOT23-3 Alpha &114 4 Q2,Q4,Q7,Q15 Transistor, 2N7002, N-Channel MOS-FET, 60V, 115mA, SOT-23 ON Se115 1 Q5 Transistor, 2N3906, PNP, 40V, 350mW, SOT-23 ON Se116 2 Q6,Q10 Transistor, N-Power MOSFET, 60V, 8A, NTTFS5826NL, 8-WDFN ON Se117 2 Q8,Q11 Transistor, N-Power MOSFET, 40V, 14A, DFN5 ON Se118 2 Q9,Q12 Transistor, MMBT3904, NPN, General Purpose, SOT-23 ON Se119 2 Q13,Q14 Transistor, N-Ch Power MOSFET, 30V, 30A, DFN5 ON Se

EV

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2014 M

icrochip Technolo

gy Inc.

C&K Components PTS810 SJM 250 SMTR LFSC&K 1101M2S3CQE2On Semiconductor NCP1034DR2G

Microchip MCP6549-E/STMicrochip Technology UPD1002-A/MLSMSC USB5534B_QFN64Diodes Inc ZXCT1110W5-7Microchip MCP1824T-3302E/DCMicrochip MCP1612-ADJI/MFMicrochip SST25VF064C-80-4I-S3AEDiodes Inc. AP2511MP-13Murata XRCGB25M000F3M00R0TE Connectivity 881545-23M SJ-5306 CLEARBrother 1/4" x 0.8"Brother 1/4" x 0.8"Viasystems EVB-UPD1002-MU1_A

120 1 SW1 Switch, Momentary, SPST, 50mA, J-lead, NO, MicroMini121 1 SW2 Switch, SPDT, Slide, 6A, TH122 2 U2,U4 IC, PWM Buck Controller, 100V, NCP1034, SOIC16

123 2 U3,U7 IC, Quad Comparator, OD, 1.6V to 5.5V,TSSOP14124 1 U1 IC, UPD1002, USB Power Delivery Controller, QFN48125 1 U5 IC, USB5534B-A3, USB 2.0 and 3.0 Hub, 4-port, QFN64126 1 U6 IC, High Side Current Sense Amplifier, 36V, SOT25127 1 U8 IC, MCP1824, Voltage Regulator, 3.3V, 300mA, SOT-223128 1 U9 IC, MCP1612, 1A, 1.4MHz Synchronous Buck Regulator, ADJ, DFN8129 2 U10,U12 IC, Flash, SPI, SST25VF064C, 64Mb (8M x 8), 2.7V-3.3V, 75MHz (Dual Read), SO8130 2 U11,U13 IC, AP2511MP-13, Power Distribution Switch, MSOP-8EP131 1 Y1 Crystal, 25.000MHz, 30ppm, 6pF, SMT 2.0MM X 1.6MM132 3 SHUNT1,SHUNT2,SHUNT3 Shunt, Insulated, 0.1 Inch133 4 Foot, Silicone Rubber, Adhesive, Clear, Hemispherical, .38"x.150" - 4 per board134 1 LBL-ASSY1 Label, Assembly Number, Laminated, 250 x 800, "EVB-UPD1002-MU1_A1"135 1 LBL-SERNO Label, Serial Number, Laminated, 250 x 800136 1 XX7 Printed Circuit Board, EVB-UPD1002-MU1_A


USER’S GUIDE

Appendix D. EVB-UPD1002-MU1 Top and Bottom Layers

D.1 INTRODUCTION

This appendix shows the EVB-UPD1002-MU1 Evaluation Board Top and Bottom Layers.

Top view of the EVB-UPD1002-MU1 Evaluation Board.

FIGURE D-1: EVB-UPD1002-MU1 TOP LAYER



Bottom view of the EVB-UPD1002-MU1 Evaluation Board.

FIGURE D-2: EVB-UPD1002-MU1 BOTTOM LAYER



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