EVB-USB5734 Evaluation Board Users Guide

EVB-USB5734
Evaluation Board
User’s Guide
 2015 Microchip Technology Inc.
DS50002350B
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 our
products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts
allow 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and may be superseded by updates. It is your responsibility to
ensure that your application meets with your specifications.
MICROCHIP MAKES NO REPRESENTATIONS OR
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Trademarks
The Microchip name and logo, the Microchip logo, dsPIC,
FlashFlex, flexPWR, JukeBlox, KEELOQ, KEELOQ logo, Kleer,
LANCheck, MediaLB, MOST, MOST logo, MPLAB,
OptoLyzer, PIC, PICSTART, PIC32 logo, RightTouch, SpyNIC,
SST, SST Logo, SuperFlash and UNI/O are registered
trademarks of Microchip Technology Incorporated in the
U.S.A. and other countries.
The Embedded Control Solutions Company and mTouch are
registered trademarks of Microchip Technology Incorporated
in the U.S.A.
Analog-for-the-Digital Age, BodyCom, chipKIT, chipKIT logo,
CodeGuard, dsPICDEM, dsPICDEM.net, ECAN, In-Circuit
Serial Programming, ICSP, Inter-Chip Connectivity, KleerNet,
KleerNet logo, MiWi, MPASM, MPF, MPLAB Certified logo,
MPLIB, MPLINK, MultiTRAK, NetDetach, Omniscient Code
Generation, PICDEM, PICDEM.net, PICkit, PICtail,
RightTouch logo, REAL ICE, SQI, Serial Quad I/O, Total
Endurance, TSHARC, USBCheck, VariSense, ViewSpan,
WiperLock, Wireless DNA, and ZENA 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.
Silicon Storage Technology is a registered trademark of
Microchip Technology Inc. in other countries.
GestIC is a registered trademarks of Microchip Technology
Germany II GmbH & Co. KG, a subsidiary of Microchip
Technology Inc., in other countries.
All other trademarks mentioned herein are property of their
respective companies.
© 2015, Microchip Technology Incorporated, Printed in the
U.S.A., All Rights Reserved.
ISBN:
QUALITYMANAGEMENTSYSTEM
CERTIFIEDBYDNV
== ISO/TS16949==
DS50002350B-page 2
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.
 2015 Microchip Technology Inc.
EVB-USB5734 Evaluation Board User’s Guide
Object of Declaration: EVB-USB5734
 2015 Microchip Technology Inc.
DS50002350B-page 3
EVB-USB5734 Evaluation Board User’s Guide
NOTES:
 2015 Microchip Technology Inc.
DS50002350B-page 4
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Table of Contents
Preface ........................................................................................................................... 7
Introduction............................................................................................................ 7
Document Layout .................................................................................................. 7
Conventions Used in this Guide ............................................................................ 8
The Microchip Web Site ........................................................................................ 9
Development Systems Customer Change Notification Service ............................ 9
Customer Support ................................................................................................. 9
Document Revision History ................................................................................. 10
Chapter 1. Overview
1.1 Introduction ................................................................................................... 11
1.2 References ................................................................................................... 12
1.3 Terms and Abbreviations ............................................................................. 12
Chapter 2. Board Details & Configuration
2.1 Power Source - Self-Powered ...................................................................... 13
2.2 Downstream Port Power Control .................................................................. 14
2.3 Clock ............................................................................................................ 14
2.3 Configuration ................................................................................................ 14
2.4.1 External SPI Flash ..................................................................................... 15
2.4.2 SMBus ....................................................................................................... 15
2.4.3 UART ......................................................................................................... 15
2.4.4 Configuration Source - Internal Default ..................................................... 16
2.4.5 Strapping Option ....................................................................................... 17
2.4.6 Port Power Options: Port Enable and Port Disable Select ........................ 18
Chapter 3. Configurable IO Modes
3.1 Configuration IO Daughter Cards ................................................................. 20
3.1.1 Mode 1: Suspend Mode ............................................................................ 20
3.1.2 Mode 2: Flex Mode .................................................................................... 21
3.1.3 Mode 3: USB Speed LEDs Mode .............................................................. 22
3.1.4 Mode 4: GPIO Mode ................................................................................. 22
3.1.5 Mode 5: Battery Charging LEDs Mode ...................................................... 23
3.1.6 Mode 6: UART Mode ................................................................................. 23
Appendix A. EVB-USB5734 Evaluation Board
A.1 Introduction .................................................................................................. 25
Appendix B. EVB-USB5734 Evaluation Board Schematics
B.1 Introduction .................................................................................................. 26
Appendix C. Bill of Materials (BOM)
C.1 Introduction .................................................................................................. 30
 2015 Microchip Technology Inc.
DS50002350B-page 5
Appendix D. EVB-USB5734 Silk Screens
D.1 Introduction .................................................................................................. 34
Worldwide Sales and Service .................................................................................... 37
 2015 Microchip Technology Inc.
DS50002350B-page 6
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Preface
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.
INTRODUCTION
This chapter contains general information that will be useful to know before using the
EVB-USB5734. Items discussed 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-USB5734 Evaluation Board as a
development tool for the USB5734 4-port USB 3.0 hub with battery charging features.
• Chapter 1. “Overview” – Shows a brief description of the EVB-USB5734 Evaluation Board.
• Chapter 2. “Board Details & Configuration” – Includes instructions on how to
get started with the EVB-USB5734 Evaluation Board.
• Chapter 3. “Configuration IO Modes” – Provides information about the five IO
daughter cards provided with the EVB-USB5734 Evaluation Board.
• Appendix A. “EVB-USB5734 Evaluation Board” – This appendix shows the
EVB-USB5734 Evaluation Board.
• Appendix B. “EVB-USB5734 Schematics” – This appendix shows the
EVB-USB5734 Evaluation Board schematics.
• Appendix C. “EVB-USB5734 BOM” – This appendix includes the
EVB-USB5734 Evaluation Board Bill of Materials (BOM).
• Appendix D. “EVB-USB5734 Silk Screens” – This appendix includes the
EVB-USB5734 Evaluation Board silk screens.
 2015 Microchip Technology Inc.
DS50002350B-page 7
EVB-USB5734 Evaluation Board User’s Guide
CONVENTIONS USED IN THIS GUIDE
This manual uses the following documentation conventions:
DOCUMENTATION CONVENTIONS
Description
Arial font:
Italic characters
Represents
Referenced books
Emphasized text
A window
A dialog
A menu selection
A field name in a window or
dialog
A menu path
MPLAB® IDE User’s Guide
...is the only compiler...
the Output window
the Settings dialog
select Enable Programmer
“Save project before build”
A dialog button
A tab
A number in verilog format,
where N is the total number of
digits, R is the radix and n is a
digit.
A key on the keyboard
Click OK
Click the Power tab
4‘b0010, 2‘hF1
Italic Courier New
Sample source code
Filenames
File paths
Keywords
Command-line options
Bit values
Constants
A variable argument
Square brackets [ ]
Optional arguments
Curly brackets and pipe
character: { | }
Ellipses...
Choice of mutually exclusive
arguments; an OR selection
Replaces repeated text
#define START
autoexec.bat
c:\mcc18\h
_asm, _endasm, static
-Opa+, -Opa0, 1
0xFF, ‘A’
file.o, where file can be
any valid filename
mcc18 [options] file
[options]
errorlevel {0|1}
Initial caps
Quotes
Underlined, italic text with
right angle bracket
Bold characters
N‘Rnnnn
Text in angle brackets < >
Courier New font:
Plain Courier New
Represents code supplied by
user
DS50002350B-page 8
Examples
File>Save
Press <Enter>, <F1>
var_name [,
var_name...]
void main (void)
{ ...
}
 2015 Microchip Technology Inc.
Preface
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
 2015 Microchip Technology Inc.
DS50002350B-page 9
EVB-USB5734 Evaluation Board User’s Guide
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 (March 2015)
• Initial Release of this Document.
Revision B (June 2015)
•
•
•
•
•
•
•
DS50002350B-page 10
Update to text in Section 1.3 “Terms and Abbreviations”
Update to text in Section 2.1 “Power Source - Self-Powered”
Update to Figure 2-3
Update to Section 3.1.1 “Mode 1: Suspend Mode”
Update to Figure 3-1
Update to Section 3.1.2 “Mode 2: Flex Mode”
Update to Figure 3-2
 2015 Microchip Technology Inc.
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Chapter 1. Overview
1.1
INTRODUCTION
The EVB-USB5734 Revision B is a demonstration and evaluation platform that provides the
necessary requirements and interface options for evaluating the USB5734 Ultra Fast four port
battery charging hub on a 4-layer RoHS-compliant Printed Circuit Board (PCB). This will allow
the user to gain an understanding of the product and accelerate the integration of the
EVB-USB5734 into the user’s design. The EVB-USB5734 is compliant with the USB 3.0 USB
Specification and supports Super-Speed (SS), High-Speed (HS), Full-Speed (FS), and
Low-Speed (LS) USB signaling for complete coverage of all defined USB operation speeds. The
evaluation platform supports four downstream ports that are USB 2.0 and USB 3.0 compliant.
The EVB-USB5734 platform also supports battery charging on all four downstream ports (maximum of 5A total current at any one time). The EVB-USB5734 is configured for operation through
internal default settings and supports custom configurations through SMBus or through the external 64-Mbit SPI Flash device, U8. The EVB-USB5734 demonstrates driver compatibility with Microsoft® Windows® 8x, Windows 7, Windows XP, Mac OS® X 10.4+, and Linux® hub drivers.
The EVB-USB5734 provides the following features:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
USB5734 in a 64-pin QFN RoHS compliant package
USB 3.0 compliant (SS, HS, FS, and LS operation)
USB pins are 5 V tolerant
Four downstream USB 2.0/3.0 ports
All downstream ports support individual port power and overcurrent sense
All downstream ports are enabled for battery charging (2.1A max per port)
Can support up to 5A total current downstream at any one time
On-board SPI Flash for external downloadable firmware
Low-cost 4-layer space saving design
Operates from a single voltage (+12.0 V, regulated) external power supply
On-board 25 MHz crystal
Single on-board +5.25 V, 6 Amp regulator
Single on-board +3.3 V, 0.5 Amp regulator
Single on-board +1.2 V, 1 Amp regulator
Port Power and Port Enable LED indicators
LED indicators for SPI/Strap Configuration
On-board IO connector for configurable Mode operations
 2015 Microchip Technology Inc.
DS50002350B-page 11
EVB-USB5734 Evaluation Board User’s Guide
FIGURE 1-1:
EVB-USB5734 FUNCTIONAL BLOCK DIAGRAM
12V
5V
Regulator
(6A)
PRT_CTL1
3.3V
Regulator
VDD33
1.2V
Regulator
VDD12
POWER
Generic
Port
Power
Controller
2.1A
D1+
DͲ
SSTX1/
VBUS
PRT_CTL2
VBUS_DET
D+
D0+
DͲ
D0Ͳ
SSTX/
SSRX
POWER
Generic
Port
Power
Controller
2.1A
D2+
SSTX0/
SSRX
SSRX0
SPIFlash
Option
BCStrap
Option
SPI
SSTX/
SSRX2
PRT_CTL3
SSRX
POWER
CFG_BC_EN
Generic
Port
Power
Controller
2.1A
D3+
NonͲRem
StrapOption
VBUS
Port3
USB3.0
Connector
D+
D3Ͳ
DͲ
CFG_NON_REM
SSTX3/
SSTX/
SSRX3
CFG_STRAP
CFG_STRAP
IOMode PROG_FUNC1
Daughtercard
Interface PROG_FUNC2
PROG_FUNC1
PROG_FUNC3
PROG_FUNC3
PROG_FUNC4
PROG_FUNC4
PROG_FUNC5
PROG_FUNC5
PROG_FUNC6
PROG_FUNC6
PROG_FUNC7
PROG_FUNC7
PRT_CTL4
PROG_FUNC2
D4+
1.2
Port2
USB3.0
Connector
DͲ
SSTX2/
USB5734
VBUS
D+
D2Ͳ
SSTX/
Port1
USB3.0
Connector
D+
D1Ͳ
SSRX1
Port0
USB3.0
Connector
(MicroB)
VBUS
D4Ͳ
SSTX4/
SSRX4
SSRX
POWER
Generic
Port
Power
Controller
2.1A
VBUS
Port4
USB3.0
Connector
D+
DͲ
SSTX/
SSRX
REFERENCES
Concepts and materials available in the following documents may be helpful when
reading this document. Visit www.microchip.com for the latest documentation.
• USB5734 Datasheet
• EVB-USB5734 Schematics
1.3
TERMS AND ABBREVIATIONS
•
•
•
•
•
•
•
•
DS50002350B-page 12
EVB - Evaluation Board
SPI - Serial Protocol Interface
CFG - Configuration
BC - Battery Charge
Non-Rem - Non Removable
UART - Universal Asynchronous Receiver/Transmitter
DUT - Device Under Test
DFP - Downstream Facing Port
 2015 Microchip Technology Inc.
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Chapter 2. Board Details & Configuration
The Microchip EVB-USB5734 is designed for flexible configuration solutions. It can be
configured via default internal register settings, downloadable external firmware to an
on-board SPI Flash, through SMBus, or through the on-board configuration switches.
When configured with the default internal register settings, the device operates as a
USB 3.0/2.0 hub with four battery charge enabled USB ports and Microchip’s standard
VID/PID/DID settings.
This chapter describes details on the EVB-USB5734 Power, Clock and Configuration.
FIGURE 2-1:
2.1
INITIAL CONFIGURATION
POWER SOURCE - SELF-POWERED
The EVB-USB5734 only supports self-powered operation, and is powered through one
+12.0V regulated external power supply. The power supply plugs into the 2.5mm connector J9 on the board. Alternatively, an external voltage can be injected onto the J6
Ext. 12V header, which is not populated by default. The +12.0V feeds a 6A regulator
which outputs +5.25V across the board. This +5.25V output supplies the +3.3V and
+1.2V on-board regulators and VBUS for the DFPs.
 2015 Microchip Technology Inc.
DS50002350B-page 13
EVB-USB5734 Evaluation Board User’s Guide
FIGURE 2-2:
2.2
EVB-USB5734 POWER SOURCE
DOWNSTREAM PORT POWER CONTROL
USB power to the four downstream ports are controlled via port power controllers with
auto-discharge function. This provides up to 2.1A of USB battery charging power to
each port, limited to a total of 5A at any one time.
2.3
CLOCK
The EVB-USB5734 utilizes an external 25MHz 30ppm crystal to drive its internal oscillator circuit.
2.4
CONFIGURATION
The following sections describe the various board features and configuration settings.
Figure 2-2 below shows a top view of the EVB-USB5734.
FIGURE 2-3:
2.4.1
EVB-USB5734 TOP VIEW
External SPI Flash
Upon power-up, the USB5734 first looks for an external SPI Flash device and a valid
signature in the flash. If one is found, the external ROM is enabled and code execution
is initiated from the external SPI device.
DS50002350B-page 14
 2015 Microchip Technology Inc.
To select the SPI device, set the Config. Select switch (SW7) to the SPI position. The
blue “SPI” LED will light. Note that the CFG_BC (Configuration Battery Charge) and
CFG_Non-Rem (Configuration Non Removable) options are now de-selected. All configuration in SPI mode is done by the SPI.
Note:
If the SPI Flash is not properly programmed or has an invalid signature, the
USB5734 will default to internal defaults even if the SPI Flash is selected.
FIGURE 2-4:
SPI SELECT
The pull-up resistors (R42 and R58) on the SPI device’s Write Protect (WPn) and Hold
(HOLDn) pins must be populated in order to use external flash. The pull-up resistor
(R61) on the SPI_CE_N pin of the USB5734 must also be populated in order to select
60MHz SPI operation, as opposed to 30MHz operation. Additionally there must be a
jumper placed across the J10 SPI CE# EN header in order to enable the SPI
device.The external flash can be programmed using the Microchip ProTouch2 MPT
software tool which can be downloaded from the Microchip website at
http://www.microchip.com/ProTouch.
Note:
2.4.2
Refer to the Protouch MPT User Manual on using this software to program
the configuration.
SMBus
If a SPI Flash device is not found, the firmware checks if the SMBus is enabled. To
select SMBus configuration, set the Config. Select switch to the Strap position. The
green “Strap” LED will light.
The SMBus interface must have correct pull-up resistors applied by external circuitry
to function properly. The USB5734 can operate in SMBus Slave or I2C Bridging mode.
To operate in SMBus Slave mode, install a jumper across pins 1 and 2 of the J5 and
J27 SMBus headers. These jumpers are required in order to enable SMBus communication. To operate in I2C Bridging mode instead, the J5 and J27 SMBus headers must
be left open.
Note:
 2015 Microchip Technology Inc.
If the USB5734 is configured for SMBus Slave operation, the DUT will wait
indefinitely for data from the SMBus interface and will not enumerate until
instructed by the SMBus interface.
DS50002350B-page 15
EVB-USB5734 Evaluation Board User’s Guide
FIGURE 2-5:
2.4.3
SMBUS SELECT
UART
The USB5734 provides a USB to UART bridge function that can be used in a simple
two wire TX/RX mode or in a full modem signaling configuration (see Mode 6 section
in Chapter 3). For simple two wire mode the J27 header must be left open and the J5
header must have a jumper installed across pins 2 and 3. This jumper is required in
order to add a pull-down resistor on the UART_TX signal in order to enable the UART
interface. Once in UART mode, the J28 UART header should be used for accessing
the UART_RX and UART_TX signals on the USB5734. Note that UART can be
enabled in configured IO Modes 1, 2, 3, 4, and 5. When IO Mode 6 is installed into the
J7 IO connector (described more in section below), the J5 header does not require a
jumper in order to configure the USB5734 for UART mode. The following table details
the GPIO4/GPIO5 jumper options available to configure the USB5734 into different
modes.
TABLE 2-1:
DS50002350B-page 16
SMBUS / UART SELECT
MODE
GPIO4 (J27)
SMBUS Slave
short pins 1-2
I2C Bridging
UART
GPIO5 (J5)
PU/PD STATUS
short pins 1-2
GPIO4 = PU
GPIO5 = PU
open
open
GPIO4 = open
GPIO5 = open
open
short pins 2-3
GPIO4 = open
GPIO5 = PD
 2015 Microchip Technology Inc.
FIGURE 2-6:
2.4.4
UART SELECT
Configuration Source - Internal Default
When the USB5734 does not detect a valid SPI Flash image or SMBus configuration
upon power-up, the EVB-USB5734 uses internal default register settings. It also sets
the Vendor ID, Product ID, Language ID, and Device ID, and additional settings from
internal ROM code.
2.4.5
Strapping Option
If configuration is not done through SPI, additional configuration is available through
two functions: CFG_BC and CFG_Non-Rem. The controls are configured by selecting
ONLY one of six resistor values for each pin. These are read by the USB5734 device
and the BC and Non-Rem behavior of the downstream facing ports are determined.
To use the strapping option (which is the default configuration setup), set the Config.
Select switch (SW7) to the Strap position. The green “Strap” LED will light. Select the
desired CFG_BC and CFG_Non-Rem options by enabling only one position for each
of the Config_Bat_Chrg Select and Config_Non_Rem Select switches (SW5 and
SW6). The default setup for SW5 is to slide pin 5 to the com side of the switch (towards
the downstream facing ports) which configures all four downstream ports to be enabled
for battery charging. The default setup for SW6 is to slide pin 1 to the com side of the
switch (towards the downstream facing ports) which configures all four downstream
ports to be removable.
 2015 Microchip Technology Inc.
DS50002350B-page 17
EVB-USB5734 Evaluation Board User’s Guide
FIGURE 2-7:
STRAPPING OPTIONS
TABLE 2-2:
STRAPPING OPTIONS FOR BATTERY CHARGING
SW5 Position
Configuration
1
No Ports BC Enabled
2
Port 1 is BC Enabled
3
Port 1 & 2 are BC Enabled
4
Port 1, 2 & 3 are BC Enabled
5
Port 1, 2, 3 & 4 are BC Enabled [default]
6
Reserved
TABLE 2-3:
STRAPPING OPTIONS FOR PORT REMOVABLE
SW6 Position
2.4.6
Configuration
1
All ports are Removable [default]
2
Port 1 is Non-Removable
3
Port 1 & 2 are Non-Removable
4
Port 1, 2 & 3 are Non-Removable
5
Port 1, 2, 3 & 4 are Non-Removable
6
Reserved
Port Power Options: Port Enable and Port Disable Select
Any downstream facing port on the EVB-USB5734 can be disabled if desired. When
both DP & DM signals are pulled high to +3.3V, the USB5734 automatically disables
the port, reports the corrected number of available ports to the host, and drives the
PRT_CTRL line for the disabled port(s) low. By default, all four downstream facing ports
are enabled.
To enable a port, use its Port Enable switch (SW1 - SW4) to select the EN. position.
The associated “Enable” LED will light green.
To disable a port, slide its Port Enable switch (SW1 - SW4) to the Dis. position. The
“Enable” LED will turn off.
The table below describes the port enable/disable strap options available for all four
downstream ports on the USB5734.
TABLE 2-4:
DS50002350B-page 18
PORT ENABLE/DISABLE STRAP OPTIONS
Downstream
Port
Associated
Switch
1
SW1
1-2, 4-5 = Port Enabled (Default)
2-3, 5-6 = Port Disabled
D7 Green
D7 OFF
2
SW2
1-2, 4-5 = Port Enabled (Default)
2-3, 5-6 = Port Disabled
D8 Green
D8 OFF
Switch Position
LED
 2015 Microchip Technology Inc.
TABLE 2-4:
PORT ENABLE/DISABLE STRAP OPTIONS (CONTINUED)
Downstream
Port
Associated
Switch
3
SW3
1-2, 4-5 = Port Enabled (Default)
2-3, 5-6 = Port Disabled
D9 Green
D9 OFF
4
SW4
1-2, 4-5 = Port Enabled (Default)
2-3, 5-6 = Port Disabled
D10 Green
D10 OFF
 2015 Microchip Technology Inc.
Switch Position
LED
DS50002350B-page 19
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Chapter 3. Configurable IO Modes
The Microchip EVB-USB5734 is designed for flexible configuration solutions. Five IO
daughter cards are included in the EVB-USB5734 kit. Each IO daughter card has a
2x10 connector on the bottom side of the board that has pin 3 keyed and has pin 1
clearly marked with a triangle on the silkscreen. In order to use the desired IO daughter
card, insert its keyed 2x10 header onto the keyed 2x10 IO connector J7 that is on the
EVB-USB5734. The pin one triangle indicator on the EVB-USB5734 should line up with
the pin one triangle indicator on the IO daughter card that is inserted. The sections
below describe the mode functions of each IO daughter card.
Note:
3.1
When configuring the USB5734 for IO Modes 1, 2, 3, 5, or 6, the jumper
placed across pins 19 and 20 of the J7 IO connector must be removed from
the EVB-USB5734. This jumper is only to be placed when configuring the
USB5734 into IO Mode 4: Custom GPIO Mode.
CONFIGURATION IO DAUGHTER CARDS
The USB5734 can be configured for different IO modes depending on the pull-up or
pull-down resistor chosen on the CFG_STRAP pin on the DUT. The table below shows
the different resistor values required for the different IO mode settings. These resistor
settings are populated by default on each IO daughter card.
TABLE 3-1:
CONFIG STRAP RESISTOR SETTINGS
MODE
Configuration
SIGNAL
CFG_STRAP Resistor
PU/PD STATUS
1
Suspend Mode
C1_CONFIG
200kΩ
PD to GND
2
Flex Mode
C2_CONFIG
200kΩ
PU to 3V3
3
USB Speed LEDs
Mode
C3_CONFIG
10kΩ
PD to GND
4
GPIO Mode
(default)
CFG_STRAP
10kΩ
PU to 3V3
5
Battery Charging
Mode
C5_CONFIG
10Ω
PD to GND
6
UART Mode
C6_CONFIG
10Ω
PU to 3V3
3.1.1
Mode 1: Suspend Mode
The Mode 1 IO daughter card configures the USB5734 into Suspend Indicator Mode.
Once inserted onto the EVB-USB5734, the “3V3” Power LED should turn on green.
An SMBus header J13 is provided as well for accessing the SMDAT and SMCLK signals of the USB5734 while in Suspend Mode. Additionally, the GPIO4/GPIO5 headerJ28 can be used in this mode to access the digital RX and TX UART signals. When
accessing these signals, the J27 header must be left open and the J5 header must
have a shunt placed across pins 2 and 3.
LED indicators “PF1”and “PF2” are provided for when accessing the PROG_FUNC1
and PROG_FUNC2 signals on the USB5734. When these function pins are driven
high, their associated LED will turn on green. When these function pins are driven low,
their associated LED will be OFF. The “PF3” LED is provided to indicate the state of
 2015 Microchip Technology Inc.
DS50002350B-page 20
EVB-USB5734 Evaluation Board User’s Guide
the PF3 Select switch (SW12) as described below. A “USB 2.0 Susp” LED is also provided to indicate when USB 2.0 on the USB5734 is in suspend or active mode. When
in suspend mode, this LED will turn on yellow. When in active mode, this LED will turn
on green.
There are two slide switches provided on this daughter card. The PF3 Select switch
(SW12) allows the user to manually select whether PROG_FUNC3 will be driven high
or low. The default position is to slide this switch into the 0 or Low position. With this
switch in the low position, as mentioned above, the associated “PF3” LED will be OFF.
When the PF3 Select switch is switched into the 1 or High position, the associated
“PF3” LED will turn on green. The second slide switch is the Flex_CMD Select switch
(SW9). This switch allows the user to manually set the USB5734 into Flex mode. The
default setup is to slide the Flex_CMD Select switch into the 0 or Low position which
will turn the “FLEXCMD” LED OFF. When the Flex_CMD Select switch is in the 1 or
High position, the “FLEXCMD” LED will turn on orange and the “USB 2.0 Susp” LED
will turn on yellow to indicate that the USB5734 is in Flex mode.
FIGURE 3-1:
3.1.2
IO MODE 1 DAUGHTER CARD
Mode 2: Flex Mode
The Mode 2 IO daughter card configures the USB5734 into Flex Mode. Once inserted
onto the EVB-USB5734, the “3V3” Power LED should turn on green. An SMBus
header J16 is provided as well for accessing the SMDAT and SMCLK signals of the
USB5734 while in Flex Mode. Additionally, the GPIO4/GPIO5 headerJ28 can be used
in this mode to access the digital RX and TX UART signals. When accessing these signals, the J27 header must be left open and the J5 header must have a shunt placed
across pins 2 and 3.
LEDs “Port0” and “Port1” are indicators for the USB Host bus speed. During Flex
mode either Port 0 or Port 1 can be the USB host, and only the corresponding USB
host LED will turn on. The LED color will indicate the USB host bus speed: yellow indicates USB 2.0 and blue indicates USB 3.0.
There is one slide switch provided on this daughter card. The Flex_CMD Select switch
(SW11) allows the user to manually set the USB5734 into Flex mode. The default setup
is to slide the Flex_CMD Select switch into the 0 or Low position which will turn the
“FLEXCMD” and “Flexed” LEDs OFF. When the Flex_CMD Select switch is in the 1
or High position, the “FLEXCMD” and “Flexed” LEDs will turn on orange to indicate
that the USB5734 is in Flex mode.
DS50002350B-page 21
 2015 Microchip Technology Inc.
FIGURE 3-2:
3.1.3
IO MODE 2 DAUGHTER CARD
Mode 3: USB Speed LEDs Mode
The Mode 3 IO daughter card configures the USB5734 IO signals to indicate USB
Speed status. Once inserted onto the EVB-USB5734, the “3V3” Power LED should
turn on green. An SMBus header J14 is provided for accessing the SMDAT and
SMCLK signals of the USB5734 while in USB Speed LEDs Mode. Additionally, the
GPIO4/GPIO5 headerJ28 can be used in this mode to access the digital RX and TX
UART signals. When accessing these signals, the J27 header must be left open and
the J5 header must have a shunt placed across pins 2 and 3.
There are five speed LEDs on this daughter card that are labeled “P0” to “P4” which
correspond to downstream Port 0 to Port 4. When a USB device is connected to a USB
downstream port, the LED color will indicate the bus speed for the corresponding USB
port: yellow indicates USB 2.0 and blue indicates USB 3.0. If there is no downstream
device connected, the corresponding LED will be turned OFF.
FIGURE 3-3:
3.1.4
IO MODE 3 DAUGHTER CARD
Mode 4: GPIO Mode
Mode 4 is the default IO configuration for the EVB-USB5734. There is no daughter card
for Mode 4 operation. For the USB5734 to be set into GPIO Mode, a jumper needs to
be placed across pins 19 and 20 on the 2x10 IO connector J7. When in GPIO mode,
the programmable function pins of the USB5734 are set to TBD status. This mode is
used for implementations that use the external SPI ROM and allows for custom configurations. The GPIO4/GPIO5 headerJ28 can be used in this mode to access the digital
RX and TX UART signals. When accessing these signals, the J27 header must be left
open and the J5 header must have a shunt placed across pins 2 and 3.
 2015 Microchip Technology Inc.
DS50002350B-page 22
EVB-USB5734 Evaluation Board User’s Guide
FIGURE 3-4:
3.1.5
IO MODE 4 (NO DAUGHTER CARD)
Mode 5: Battery Charging LEDs Mode
The Mode 5 IO daughter card configures the USB5734 IO signals to indicate Battery
status, with three IO signals configured as GPIO signals. Once inserted onto the
EVB-USB5734, the “3V3” Power LED should turn on green. The GPIO4/GPIO5 headerJ28 can be used in this mode to access the digital RX and TX UART signals. When
accessing these signals, the J27 header must be left open and the J5 header must
have a shunt placed across pins 2 and 3.
There are seven LEDs on this daughter card. The first four LEDs labeled P1 to P4 indicate the battery charge status of Ports 1 through 4. The LEDs “P1” - “P4” will turn on
green to indicate that battery charging is enabled on the corresponding USB port. If a
battery charging device is connected to a BC enabled port and BC1.2 negotiation is
successful, the corresponding LED will turn yellow. There are also three GPIO LEDs
on this daughter card that are labeled “PF5” - “PF7”. LEDs “PF5” and “PF6” are indicators for when GPIO8 and GPIO10 are set as outputs using the USB to GPIO bridge
function. When these pins are driven high, the associated “PFx” LED(s) will turn on
green. When these pins are driven low, the associated “PFx” LED(s) will be OFF. The
“PF7” LED is provided to indicate the state of the PF7 Select switch (SW10) as
described below.
There is one slide switch on this daughter card. The PF7 Select switch (SW10) allows
the user to manually select whether the PROG_FUNC7 pin should be driven high or
low. The USB to GPIO bridge function is used to configure GPIO11 and sample the
state of SW10. The default setup is to slide this switch into the 0 or Low position which
will turn the “PF7” LED off. When the PF7 Select switch is in the 1 or High position, the
“PF7” LED will turn on green.
FIGURE 3-5:
3.1.6
IO MODE 5 DAUGHTER CARD
Mode 6: UART Mode
The Mode 6 IO daughter card configures the USB5734 into UART Mode. To insert this
daughter card onto the EVB-USB5734, mate its 2x10 connector on the bottom side with
the 2x10 IO connector on the EVB-USB5734, as done with the other IO cards. This
daughter card has an additional standoff that inserts between the daughter card and
the main EVB which provides extra support to the IO card.
DS50002350B-page 23
 2015 Microchip Technology Inc.
Once inserted onto the EVB-USB5734, the “3V3” Power LED should turn on green.
An SMBus header J15 is provided for accessing the SMDAT and SMCLK signals of
the USB5734 while in UART Mode. There is a DTE serial connector on board (J18)
which connects to a MAX3243 IC for RS232 communication. A 2x2 UART header J17
is provided so that the user can have the capability of using a straight cable or a simple
null-modem cable. The default setup is to jumper pins 1-2 and 3-4 for a straight cable
configuration. If a simple null-modem cable is used, then pins 1-3 and 2-4 should be
shunted together on the J17 header. The “TXD” and “RXD” LEDs on this daughter
card will turn on green to indicate activity on these signals.
There are two supported UART operations when using this IO card. The default operation is for normal flow control in which the user communicates through the DTE connector with the MAX3243transceiver in circuit. In this configuration, the Xvr Disable
header J31 header should be left open. The second option available is to have no flow
control with the MAX3242 transceiver removed from the circuit. In this configuration,
the Xvr Disable header J31 should have a jumper across pins 1-2 in order to disable
the MAX3242. The UART signals can then be accessed via the UART header J28 on
the EVB-USB5734. Also for this operation, there must be a jumper placed across pins
2 and 3 of the J5 header on the EVB-USB5734 and the J27 header must be left open.
Note:
Use of this IO daughter card prevents the use of the on-board SPI and
SMBus Slave.
FIGURE 3-6:
 2015 Microchip Technology Inc.
IO MODE 6 DAUGHTER CARD
DS50002350B-page 24
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Appendix A. EVB-USB5734 Evaluation Board
A.1
INTRODUCTION
This appendix shows the EVB-USB5734 Evaluation Board.
FIGURE A-1:
EVB-USB5734 EVALUATION BOARD
 2015 Microchip Technology Inc.
DS50002350B-page 25
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Appendix B. EVB-USB5734 Schematics
B.1
INTRODUCTION
This appendix shows the EVB-USB5734 Evaluation Board schematics.
 2015 Microchip Technology Inc.
DS50002350B-page 26
EVB-USB5734 EVALUATION BOARD SCHEMATIC 1
R57
D11
R42
10K
3V3
C33
XTALO
R58
10K
VCC
>60 MHz
0.1uF
4
6
5
2
1
SCK
SI
SO
CS
WPn
HOLDn
R54
100K
2
3
5
DO
6
GPIO5
11
DI
10
14
CEn
13
SCK
J10
2
1
CE# EN
(*short)
R53
100K
1
15
SHUNT1
*Note: For best functionality,
use 60MHz SPI devices
4
7
9
12
SPI / I2C / UART/ Config
42
43
44
45
SPI_SCK
SPI_DO
SPI_DI
SPI_CE_n
USBTXM_DN4
USBTXP_DN4
Bat. Chg Select
3V3
1
2
3
4
5
6
No BC
Prt1 BC
Prt1-2 BC
Prt1-3 BC
*Prt1-4 BC
reserved
SW5
R35
R36
R37
R38
R39
R40
200K
200K
10K
10K
10
10
1
2
3
4
5
6
7
CFG_BC
PROG_FUNC1
PROG_FUNC2
PROG_FUNC3
PROG_FUNC4
PROG_FUNC5
PROG_FUNC6
PROG_FUNC7
50
39
40
46
47
49
16
VDD33
18
33
52
63
Port Power Control
Config Strap
USB_SSRXM_DN3
USB_SSRXP_DN3
22
21
USB_SSTXM_DN3
USB_SSTXP_DN3
32
31
USB_SSRXM_DN4
USB_SSRXP_DN4
29
28
USB_SSTXM_DN4
USB_SSTXP_DN4
38
37
36
34
LINX_DAT/OCS1/PRT_CTL1
LINX_CLK/OCS2/PRT_CTL2
LINX_ALERT_N/OCS3/PRT_CTL3
GANG_PWR/OCS4/PRT_CTL4
PROG_FUNC1/JTAG_TDO
PROG_FUNC2/JTAG_TCK
PROG_FUNC3/JTAG_TMS
VDD12
PROG_FUNC4
VDD12
PROG_FUNC5
VDD12(PLL)
PROG_FUNC6
VDD12
PROG_FUNC7
VDD12
VDD12
VDD33(PLL)
VDD12
VDD33
VDD12
(Fill the GND FLAG with
VDD33
at least 20 GND vias.)
VDD33(PLL)
GND
1
SW_SIP7
CFG_STRAP/JTAG_TDI
Prog_Func
PCTL1
PCTL2
PCTL3
PCTL4
ZERO
6
13
17
23
30
35
51
57
1
2
3
4
5
6
7
ZERO
VBUS_DET_R
PROG_FUNC1
PROG_FUNC2
PROG_FUNC3
PROG_FUNC4
PROG_FUNC5
PROG_FUNC6
PROG_FUNC7
MUX_CTL
CFG_STRAP
4.7uF
DNP
C19
C20
C23
C31
C38
C42
C41
C34
0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF
C62
4.7uF
DNP
0.1uF
C43
C40
C30
0.1uF 0.1uF 0.1uF
C24
C26
1.0nF 1.0nF
6
4
3
1
SW7
5 R64
2 R67
USB_ID
Slide-Top
(*Strap=1-2, SPI=2-3)
R48
Br_Grn
"Strap Select"
10K
10K
1
3
GPIO4
GPIO5
"SPI Select"
D14
Blue
D13
R50
R51
GPIO4
GPIO5
10K
1K
SMBUS/UART
Select
RESETn_R
SHUNT2
Config. Select
3V3
C18
5
7
9
11
13
15
17
19
1.0nF 1.0nF
VDD33
C21
C25
1
key
2
4
J28
UART
10K
D31
MMBD914
3V3
3V3
ZERO
IN
0.1uF
C9
0.1uF
SMBUS Slave = GPIO4 PU &
GPIO5 PU
SMBUS Master = GPIO4 open &
GPIO5 open
UART Enable = GPIO4 open &
GPIO5 PD
IN
+
+
1
2
3
4
SSTXM_C_DN3
SSTXP_C_DN3
5
6
7
8
9
6
4
3
R27
ZERO
C17
USB 3.0
Vbus A-REC
DTHRU
D+
(TID#)
GND1
SSRXSSRX+
GND2
SSTXSSTX+
150uF
1
2
3
4
Sh1
Sh2
0.1uF
SSTXM_C_DN4
SSTXP_C_DN4
5
6
7
8
9
C11
0.1uF
USB 3.0
Vbus A-REC
DTHRU
D+
(TID#)
GND1
SSRXSSRX+
GND2
SSTXSSTX+
R2
330
C2
0.1uF
12
13
Port 3
R3
330
C3
0.1uF
12
13
Sh1
Sh2
Port 4
R4
330
C4
0.1uF
12
13
PWR1
PWR2
PWR3
PWR4
C54
5
7
R20
10.0K
1%
0.1uF
R8
330
2.1A
OUT
ILIM
1
2
R7
330
R6
330
R5
330
C55
5
7
R21
10.0K
1%
0.1uF
0.1uF
2.1A
OUT
ILIM
EN
GND
FLAG
EP
C60
J5
GPIO5
C12
0.1uF
EN
GND
FLAG
EP
U7
1
Sh1
Sh2
Port 2
1
2
C56
5
7
R22
10.0K
1%
0.1uF
AP2553A_U-DFN2020-6
GPIO4 3V3
J27
2
1
2
3
6
4
3
R26
SSRXSSRX+
GND2
SSTXSSTX+
1
2
IN
0.1uF
XTALI
2.1A
OUT
ILIM
EN
GND
FLAG
EP
1
2
XTALO
C57
5
7
R23
10.0K
1%
0.1uF
AP2553A_U-DFN2020-6
150uF
C61
0.1uF
+
 2015 Microchip Technology Inc.
C22
USB5734 Power Decoupling
2
4
6
8
10
12
14
16
18
20
Daughtercard Interface
for All IO Modes
3V3
J7
OUT
ILIM
EN
GND
FLAG
EP
U6
Register Value:0x1B (Jumper pins 19-20 to enable Mode 4: *default)
USB 3.0
Vbus A-REC
DTHRU
D+
(TID#)
GND1
2.1A
AP2553A_U-DFN2020-6
IO Mode 4: Custom GPIO Mode
CFG_NON_REM
SW_SIP7
VDD12
6
4
3
R25
65
IN
C58
TP3
200K
200K
10K
10K
10
10
U4
6
C59
SW6
R41
R43
R44
R45
R46
R47
150uF
PWR4
U5
TP5
3V3
*All Removable
Prt1 Non-Rem
Prt1-2 Non-Rem
Prt1-3 Non-Rem
Prt1-4 Non-Rem
reserved
C10
AP2553A_U-DFN2020-6
VDD12
0.1uF
J4
4
3
R24
Non-Rem Select
1
2
3
4
5
6
0.1uF
PWR3
5V
CFG_STRAP
5
6
7
8
9
C16
USBRXM_DN4
USBRXP_DN4
3V3
0.1uF
SSTXM_C_DN2
SSTXP_C_DN2
27
26
USB2DM_DN4/Dis
USB2DP_DN4/Dis
SPI_CLK/TCK/UART_RX/GPIO4
SPI_DO/UART_TX/GPIO5
SPI_DI/CFG_BC_EN/GPIO9
SPI_CE_N/CFG_NON_REM/GPIO7
16
8 C68
PI3B3257
Strapping Option
C7
USBDN_DM4 p3
USBDN_DP4 p3
IA0 YA
IA1
IB0 YB
IB1
IC0 YC
IC1
ID0 YD
ID1
VCC
S
E GND
GPIO4
CEn_F
3
7
WP
HOLD
GND
USBTXM_DN3
USBTXP_DN3
25
24
330
C1
J3
XTALO
U11
R61
10K
0.1uF
C15
USBRXM_DN3
USBRXP_DN3
61
C8
20
19
XTALI/CLK_IN
4
16pF
U8
8
C44
25MHz
Blue
3V3
3
74LVC1G14
TP9
1K
USB_SSTXM_DN2
USB_SSTXP_DN2
GRN
4
2
USB_SSRXM_DN2
USB_SSRXP_DN2
12
11
Sh1
Sh2
R1
12
13
Optional
2
Y1
15
14
USBDN_DM3 p3
USBDN_DP3 p3
1
5
16pF
"SPI Activity"
USBTXM_DN2
USBTXP_DN2
USB2DM_DN3/Dis
USB2DP_DN3/Dis
Clock
62
XTALI
C29
U9
RBIAS
TESTEN/ATEST
R12
1K
1
2
3
4
D1
3V3
USBRXM_DN2
USBRXP_DN2
SSRXSSRX+
GND2
SSTXSSTX+
Port 1
"PPWR1"
R11
12.0K
1%
Bias/Test
150uF
PWR2
C14
RESET
64
60
RBIAS
TEST
USB 3.0
Vbus A-REC
DTHRU
D+
(TID#)
GND1
J2
10
9
USB2DM_DN2/Dis
USB2DP_DN2/Dis
ZERO
*Note: The system should supply
RESETn in an embedded
hub implementation.
0.1uF
"PPWR2"
R52
3
RESETn_R
SPI Option
USBRXM_UP
USBRXP_UP
48
p3 RESETn
C5
USBDN_DM2 p3
USBDN_DP2 p3
Reset
5
6
7
8
9
+
USB_SSRXM_UP
USB_SSRXP_UP
USBTXM_DN1
USBTXP_DN1
USBTXM_UP
USBTXP_UP
59
58
SSTXM_C_DN1
SSTXP_C_DN1
+
56
55
USB_SSTXM_UP
USB_SSTXP_UP
0.1uF
GRN
0.1uF
C6
GRN
0.1uF
C51
USB_SSTXM_DN1
USB_SSTXP_DN1
D2
C50
USB_SSRXM_DN1
USB_SSRXP_DN1
5
4
"PPWR3"
SSTXM_C_UP
SSTXP_C_UP
8
7
GRN
7
6
8
10
9
USBRXM_DN1
USBRXP_DN1
D3
ShL
ShP1 SSTX+
ShP2 SSTXShP3 GND2
ShP4 SSRX+
ShR
SSRX-
USBDM_UP
USBDP_UP
150uF
C13
Upstream
54
53
J1
1
2
3
4
PWR1
3
2
USB2DM_DN1/Dis
USB2DP_DN1/Dis
D4
11
13
14
15
16
12
VBUS_UP
USB_DM_UP
USB_DP_UP
USB_ID
C52
1.0nF
3
4
5
VBUS_DET/GPIO16
0.01uF
USBDN_DM1 p3
USBDN_DP1 p3
USB5734-Axx1-QFN64
U0
41
"PPWR4"
*Note that the SS signal pair Tx+/
are polarity swapped on the MicroB
connector for improved routing.
The same is true for the SS pair Rx+/-.
DD+
id
GND1
SMT &
TH tabs
(TID#)
VBUS_DET_R
ZERO
VBUS_DET
TP4
0.1uF
R49
C65
R62
100K
TP1
330
C67
100K
C53
2.2uF
Note: Population Option Defaults are:
Port 0 J12
DNP
No
USB 3.0
1
Unmarked Yes
u-B REC Vbus
2
R66
R60
Downstream
Note:
Default selections are marked with an asterisk (*) .
*Note: AP2553A device has an auto-discharge function.
TP7
TP13
EVB-USB5734 Evaluation Board User’s Guide
DS50002350B-page 27
FIGURE B-1:
EVB-USB5734 EVALUATION BOARD SCHEMATIC 2
12V In
TP2
5V25 Regulator, <6A
J9
TP6
Power
Regulation
& Reset
5V
U3
1
C66
0.1uF
R59
20
1
3
2
J6
VIN
ENABLE
VOUT
TRIM
6_Amp
GND
C46
Ext. 12V
DNP
2
2.5 mm
2
1
12V_EXT
D30
MMBD914
4
5
C39
R56
255 10uF
1%
3
10uF
25V
C37
0.1uF
3V3
100K
SW8
1
2
3
4
J11
2
5
R65
-RESET-
U10
2
1
C64
1.0nF
"Reset"
D12
Red
R63
4
1K
74LVC1G14
3
 2015 Microchip Technology Inc.
FIGURE B-2:
Ext_Rst
RESETn p2
3V3 Regulator, >200 mA
with PwrGood
R13
47K
C36
C35
C48
1.0uF
1.0nF
3V3
R16
1%
VDD33
R9
3V3
ZERO
150K
R28
1K
TP11
TP10
R15
21.0K
1%
C45
C47
C49
4.7uF 0.1uF 1.0nF
D5
Br_Grn
"3V3 Present"
1V2 Regulator, 1A
*Note: VDD12 should come up before VDD33.
VDD12
U1
FB3
2
5V_REG_1V2
EN12 1
R14
ZERO
C32
2A/0.05DCR
C63
10uF
VIN
ENABLE
VOUT
TRIM
3_Amp
GND
4
5
R10
1V2_REG
ZERO
3
R33
1.91K
1%
DNP 0.1uF
R34
29.4K
1%
DNP
C28
C27
10uF
0.1uF
TP12
TP8
Port Disable Strap Option
LED_P
*Note: Pull up both DP and DM on a port to disable it.
D6
FB1 DNP
3V3
(*1-2, Port Enabled, 2-3, Port Disabled)
TP15
p2 USBDN_DM1
p2 USBDN_DP1
p2 USBDN_DM2
p2 USBDN_DP2
SW3
Slide-Top
p2 USBDN_DM3
p2 USBDN_DP3
R32
Port 3
"Port 3 Enabled"
D9
Br_Grn
SW4
Slide-Top
p2 USBDN_DM4
p2 USBDN_DP4
1V2_REG
Port 4
"Port 4 Enabled"
D10
Br_Grn
FOOT1
FOOT3
500x250-Clear 500x250-Clear
FOOT2
FOOT4
500x250-Clear 500x250-Clear
3V3
TP14
MT2
FB2 DNP
VDD12
2A/0.05DCR
1K
2
Port 2
"Port 2 Enabled"
D8
Br_Grn
3V3
5
1K
1
3
4
6
SW2
Slide-Top
R31
2
2
Port 1
"Port 1 Enabled"
D7
Br_Grn
3V3
5
1K
1
3
4
6
1
3
4
6
DS50002350B-page 28
SW1
Slide-Top
R30
1
3
4
6
3V3
5
1K
5
R29
2
3V3
VDD33
2A/0.05DCR
DNP RED
MT1
EVB-USB5734 Evaluation Board User’s Guide
4.7uF
EN3
U2
MCP1725-ADJ_SOIC8
8
500mA
VIN1
VOUT
VIN2
7
Shdn
ADJ 5
Cdelay
PWRGD
LED_P
1
2
3
6
5V_REG_3V3
GND
FB4
2A/0.05DCR
4
5V
EVB-USB5734 EVALUATION BOARD SCHEMATIC 3
10K
"USB 2.0 Active"
3
1
D48
3V3_1
D47B
Grn
MMBD914
2
4
D47A
Yel
"USB 2.0 Suspend"
GND_1
TP26
3V3_1
Female
R68
200K
SW12
5
2
GND_1
GND_1
6
4
3
1
1
3
GND_1
C5_P1_BC_BC12n
C5_P2_BC_BC12n
C5_P3_BC_BC12n
C5_P4_BC_BC12n
C5_GPIO8
C5_GPIO10
C5_GPIO11
C5_CONFIG
330
330
330
330
R110
1K
R111
1K
R121
D36
Br_Grn
D37
Br_Grn
D50
Br_Grn
"PF6"
1K
"PF7"
GND_5
PF3 Select
GND_5
SW10
5
R70
10
10K 2
R108
Polarizing Key, Male
Br_Org
Polarizing Key, Male
GND_1
D51
R96
10K
5
R122
1K
2
"FLEXCMD"
SW9
Vertical, 0.1"
(Default = 0, Flexed = 1
*Low (0) = 1-2, High (1) = 2-3)
GND_5
R69
3V3_2
200K
3V3_2
R73
GND_2
Br_Org
Polarizing Key, Male
GND_2
D49
R120
10K 5
1K
"FLEXCMD"
SW11
2
6
4
3
1
FLEX_CMD
Select
R88
10K
R78
10K
SMBus
J16
2
4
GND_2
Br_Grn
2
4
6
8
10
12
14
16
18
20
5
(RESETn)7
9
11
(ID)
13
15
17
19
Female
C6_RTSn
C6_CTSn
C6_DCDn
C6_SMDAT
C6_SMCLK
C6_DTRn
C6_DSRn
C6_MUX
C6_CONFIG
1K
10
C70
D26
Br_Grn
D27
R87
1K
R105
1K
"RXD"
TP33
Vertical, 0.1"
14
13
12
C6_RXLED
C6_CTSn
C6_RXD
C6_DSRn
C6_DCDn
C6_ROUT5
20
19
18
17
16
15
1
Blu 1
2
"P0_USB3"
D28
Br_Grn
VS+
C2+
VS-
26
C72
0.1uF
27
C71
0.1uF
3
C69
TIN1
TIN2
TIN3
0.1uF
GND_6
C2TXOUT1
TXOUT2
TXOUT3
ROUT2B
ROUT1
ROUT2
ROUT3
ROUT4
ROUT5
INVALID
FORCEOFF
FORCEON
9
10
11
C6_TXD_out
C6_RTS_out
C6_DTR_out
4
5
6
7
8
C6_CTS_in
C6_RXD_in
C6_DSR_in
C6_DCD_in
C6_RXIN5
Note:
*Straight cable:
SHUNT5
[1-2] & [3-4]
Simple Null Modem cable:
[1-3] & [2/4]
SHUNT6
1
RXD 3
GND_3
J17
2 TXD
4
J18
(5K PD)
RXIN1
RXIN2
RXIN3
RXIN4
RXIN5
GND
25
10
(cd)
(dsr_in)
(rxd)
(rts_out)
(txd)
(cts_in)
(dtr_out)
TP27
GND_6
MAX3243_TSSOP28
1
6
2
7
3
8
4
9
5
"RXIN Signal"
11
MT3
GND_6
Standoff Nylon, 2x11.1mm
GND_6
Yel 2
"P0_USB2"
4 D15A
Blu 1
3 D16B
Blu 1
1
3
GND_3
J31
Xvr Disable
3 D15B
Yel 2
4 D16A
Yel 2
"P4_USB2"
4 D17A
Yel 2
"P3_USB2"
Yel 2
"P2_USB2"
4 D18A
Blu 1
"P4_USB3"
SMBus
J14
2
4
10K
10K
21
22
23
C1-
GND_6
3 D17B
R77
10K
1K
VCC
Vertical, 0.1"
"P3_USB3"
DS50002350B-page 29
R80
10K
GND_3
GND_3
C6_TXD
C6_RTSn
C6_DTRn
C1+
Polarizing Key, Male
"P2_USB3"
3V3_3
Female
R17
10K
Polarizing Key, Male
C3_LED_P1
C3_LED_P2
C3_LED_P3
C3_LED_P4
C3_LED_P0
3 D18B
330
330
330
330
330
Blu 1
R99
R94
R89
R85
R81
"P1_USB3"
2
4
C3_P1_USB3_USB2n
6
C3_P2_USB3_USB2n
8
C3_P3_USB3_USB2n
10 C3_SMDAT
12 C3_SMCLK
14 C3_P4_USB3_USB2n
16 C3_P0_USB3_USB2n
18
20 C3_CONFIG
5
(RESETn)7
9
(ID)11
13
15
17
19
3 D20B
Br_Grn
"3V3"
D25
"P1_USB2"
J21
1
R104
1K
4 D20A
IO DC
3V3_3
1
2
R102
R95
MMBD914
0.1uF
3V3_6
GND_6
D32
0.1uF 28
24
R79
R72
R18
3V3_3
Yel 2
3V3_6
C73
3V3_6
Register Value:0x02
"BC 1.2"
GND_6
GND_6
IO Daughter Card
Mode 3: USB Speed LEDs Mode
1
3
U13
Br_Grn
GND_2
SMBus
J15
2
4
C6_SMDAT
C6_SMCLK
"TXD"
R74
1K
R71
10K
C6_TXD
C6_RXD
GND_6
1
3
Slide-Top
(Default = 0, Flexed = 1
GND_2
*Low (0) = 1-2, High (1) = 2-3)
Vertical, 0.1"
R19
1K
R75
10K
GND_6
J24
1
"3V3"
3V3_2
Female
"P1_USB3"
3 D21B Blu 1
C2_LED_P0
C2_LED_P1
10K
10K
10K
IO DC
3V3_6
D29
C2_CONFIG
10K
330
330
1K
R107
R109
R112
"P1_USB2"
4 D21A Yel 2
MMBD914
(*1-2 Default,
2-3 Inject) GND_2
C2_VBD_DC
R128
C2_P0_USB3n_USB2
R98
C2_P1_USB3n_USB2
R92
C2_FLEX_STATE_N
R117
C2_SMDAT
Br_Org
D43
C2_SMCLK
"Flexed"
C2_FLEX_CMD
C2_FLEX_STATE
TP34
3V3_6
D33
"P0_USB2"
4 D19A Yel 2
Br_Grn
"3V3"
2
4
6
8
10
12
14
16
18
20
5
(RESETn)7
9
(ID)11
13
15
17
19
4 P4A
Note: Use of this IO Daughter Card prevents the use
of the on-board SPI and SMBUS Slave.
MT4
See the USB5734 page for Mode 4.
GND
DTE
EVB-USB5734 Evaluation Board User’s Guide
D22
3V3_2
"P0_USB3"
3 D19B Blu 1
VBUS Sel. 3V3_2
J30
1
2
3
SHUNT4
J22
1
R100
1K
Yel 2
GND_5
Register Value:0x1F
3V3_2
"BC 1.2"
(PF7 LED OFF = 0, PF7 LED ON = 1
*Low (0) = 1-2, High (1) = 2-3)
IO Daughter Card
Mode 6: UART Mode
GND_1
IO DC
Yel 2
GND_5
PF7 Select
FLEX_CMD Select
Slide-Top
Register Value:0x0B
"BC 1.2"
3V3_5
6
4
3
1
Slide-Top
6
4
3
1
Vertical, 0.1"
IO Daughter Card
Mode 2: Flex Mode
Yel 2
C5_LED_P1
C5_LED_P2
C5_LED_P3
C5_LED_P4
"PF5"
Female
(PF3 LED OFF = 0, PF3 LED ON = 1
*Low (0) = 1-2, High (1) = 2-3)
Slide-Top
R93
R90
R86
R83
4 P3A
2
4
6
8
10
12
14
16
18
20
5
(RESETn)7
9
11
(ID)
13
15
17
19
Grn 1
330
R84
R101
1K
"BC En"
2
4
R119
J23
1
3 P4B
SMBus
J13
GND_1
C1_CONFIG
IO DC
3V3_5
SHUNT3
Grn 1
R82
10K
"BC En"
R76
10K
3 P3B
"PF3"
4 P2A
"PF2"
Grn 1
Br_Grn
"BC En"
Br_Grn
D52
3 P2B
D46
"BC 1.2"
1K
MMBD914
Register Value:0x00
(*1-2 Default,
GND_1
2-3 Inject)
4 P1A
1K
R123
3V3_1
Grn 1
R91
Br_Grn
D34
3V3_5
"BC En"
5
(RESETn)7
9
(ID)11
13
15
17
19
C1_VBD_DC
C1_GPIO1
C1_GPIO2
C1_GPIO3
C1_SMDAT
C1_SMCLK
C1_FLEX_CMD
C1_SUSPEND
D45
IO Daughter Card
Mode 5: Battery Charging LEDs Mode
Br_Grn
Br_Grn
"3V3"
2
4
6
8
10
12
14
16
18
20
"PF1"
1K
J20
1
3
D23
IO DC
3V3_1
R103
1K
R97
2
10K
3 P1B
VBUS Sel. 3V3_1
J29
1
R127
Register Value:0x0A
"3V3"
IO Daughter Card
Mode 1: Suspend Mode
D24
 2015 Microchip Technology Inc.
FIGURE B-1:
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Appendix C. EVB-USB5734 BOM
C.1
INTRODUCTION
This appendix shows the EVB-USB5734 Evaluation Bill of Materials
 2015 Microchip Technology Inc.
DS50002350B-page 30
EVB-USB5734 EVALUATION BOARD BILL OF MATERIALS
Item
Qty
Reference Designator(s)
Description
Manufacturer
Manufacturer Part Number
1
41
C1,C2,C3,C4,C5,C6,C7,C8,C9,C10,C11,C12, Capacitor, 0.1uF, 10%, 25V, X5R, 0402
C18,C19,C20,C23,C27,C30,C31,C34,C37,C3
8,C40,C41,C42,C43,C44,C47,C50,C51,C54,C
55,C56,C57,C58,C59,C60,C61,C66,C67,C68
Murata
GRM155R61E104KA87D
2
5
C13,C14,C15,C16,C17
Capacitor, Low ESR, 150uF, 6.3VDC, 20%, Aluminum,
Radial-SMT, 5mm x 5.7mm
Lelon
VZS151M0JTR-0506
3
8
C24,C25,C26,C48,C49,C52,C62,C64
Capacitor, 1000pF, 50V, 10%, X7R, 0402
Murata
GRM155R71H102KA01D
4
2
C28,C39
Capacitor, 10uF, 6.3VDC, 20%, X5R, 0603
Murata
GRM188R60J106ME47D
5
2
C29,C33
Capacitor, 16pF, 50V, 2%, NPO, 0402
Murata
GRM1555C1H160GA01D
6
1
C35
Capacitor, 1.0uF, 16VDC, 10%, X5R, 0603
Murata
GRM188R61C105KA93D
7
2
C36,C45
Capacitor, 4.7uF, 6.3VDC, 20%, X5R, 0603
Murata
GRM188R60J475KE19D
8
2
C46,C63
Capacitor, 10uF, 25 VDC, 10%, 0805
Murata
GRM21BR61E106KA73L
9
1
C53
Capacitor, 2.2uF, 6.3VDC, 10%, X5R, 0603
Murata
GRM185R60J225KE26D
 2015 Microchip Technology Inc.
10
1
C65
Capacitor, 0.01uF, 25V, 10%, X7R, 0402
Murata
GRM155R71E103KA01D
11
5
C69,C70,C71,C72,C73
Capacitor, 0.1uF, 50V, 10%, X5R, 0402
Taiyo Yuden
UMK105BJ104KV-F
12
6
D30,D31,D32,D33,D34,D48
Diode, MMBD914LT, Fast Switching, 100VDC, 200mA,
SOT-23
On Semiconductors
MMBD914LT1
13
4
D1,D2,D3,D4
LED, Green, 3mm, Diffused, 0.2" CL-vert, TH, Right Angle Lumex
14
20
D5,D7,D8,D9,D10,D13,D22,D23,D24,D25,D26 LED, Bright Green, 0603
,D27, D28,D29,D36,D37,D45,D46, D50,D52
Liteon
LTST-C191KGKT
15
2
D11,D14
LED, Blue, 0603
Stanley Electric
DB1111C-TR
16
1
D12
LED, Red, 0603
Stanley Electric
BR1111C-TR
17
7
D15,D16,D17,D18,D19,D20,D21
LED, Dual, Yellow/Blue, SMT-0605
Lite-On
LTST-C195TBKSKT-5A
18
3
D43,D49,D51
LED, Bright Orange, 160mcd, 20mA, 0603
Kingbright
APT1608SECK
19
5
P1,P2,P3,P4,D47
LED, Dual, Yellow/Green, SMT-0605
Lite-On
LTST-C195KGJSKT
Ferrite Bead, 220 Ohm, 2A, 0.05DCR, 0603
SSF-LXH103GD
20
2
FB3,FB4
21
21
R1,R2,R3,R4,R5,R6,R7,R8,R66,R81,R83,R85 Resistor, 330, 5%, 1/16W, 0603
,R86, R89,R90,R92,R93,R94,R98, R99,R119
Murata
BLM18EG221SN1D
Panasonic
ERJ-3GEYJ331V
22
9
R9,R10,R14,R24,R25,R26,R27,R49,R52
Resistor, ZERO, 0.1W, 0603
Panasonic
ERJ-3GEY0R00V
23
1
R11
Resistor, 12.0K, 1%, 1/16W, 0603
Panasonic
ERJ-3EKF1202V
24
28
R12,R18,R19,R28,R29,R30,R31,R32,R57,R6 Resistor, 1K, 5%, 1/16W, 0603
3,R67,R74,R79,R87,R91,R97,R100,R101,R10
3,R104,R105,R110,R111,R117,R120,R121,R1
22,R123
Panasonic
ERJ-3GEYJ102V
EVB-USB5734 Evaluation Board User’s Guide
DS50002350B-page 31
TABLE C-1:
 2015 Microchip Technology Inc.
TABLE C-1:
Item
EVB-USB5734 EVALUATION BOARD BILL OF MATERIALS (CONTINUED)
Qty
Reference Designator(s)
Description
Manufacturer
Manufacturer Part Number
25
1
R13
Resistor, 47K, 5%, 1/16W, 0603
Yageo America
9C06031A4702JLHFT
26
1
R15
Resistor, 21.0K, 1%, 1/10W, 0603
Panasonic
ERJ-3EKF2102V
27
1
R16
Resistor, 150K, 1%, 1/16W, 0603
Panasonic
ERJ-3EKF1503V
28
31
R17,R37,R38,R42,R44,R45,R48,R50,R51,R5 Resistor, 10K, 5%, 1/16W, 0603
8,R61,R64,R71,R73,R75,R76,R77,R78,R80,R
82,R84,R88,R95,R96,R102,R107,R108,R109,
R112,R127,R128
Panasonic
ERJ-3GEYJ103V
29
4
R20,R21,R22,R23
Resistor, 10.0K, 1%, 1/16W, 0603
Rohm
MCR03EZHF1002
30
1
R33
Resistor, 1.91K, 1%, 1/10W, 0603
Stackpole Electronics
RMCF0603FT1K91
31
6
R35,R36,R41,R43,R68,R69
Resistor, 200K, 5%, 1/10W, 0603
Vishay/Dale
CRCW0603200KJNEB
32
6
R39,R40,R46,R47,R70,R72
Resistor, 10, 5%,1/16W, 0603
Yageo America
9C06031A10R0JLHFT
33
5
R53,R54,R60,R62,R65
Resistor, 100K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ104V
34
1
R56
Resistor, 255, 1%, 1/10W, 0603
Panasonic
ERJ-3EKF2550V
35
1
R59
Resistor, 20, 5%, 1/10W, 0603
Panasonic
ERJ-3GEYJ200V
36
4
J10,J11,J27,J31
Header, 1 x 2, 0.1 Inch, Vertical
37
3
J5,J29,J30
Header, 1 x 3, 0.1 Inch, Vertical
38
6
J13,J14,J15,J16,J17,J28
Header, 2 x 2, 0.1 Inch, Vertical
FCI
67996-272HLF
39
1
J7
Header, 2 x 10, Key position 3, 0.1 Inch, Vertical
5
J20,J21,J22,J23,J24
Header, 2 x 10, Female, Key position 3, 0.1 Inch, Vertical
Harwin
M20-7831046 (Key 3)
41
4
J1,J2,J3,J4
Receptacle, USB 3.0, Style A, Right Angle, with TID#,
Through-hole
Amphenol
GSB311131HR
42
1
J12
Receptacle, USB 3.0, Style MicroB, Right Angle, SMT,
with TID#, TH Tabs
Hirose Electric Co Ltd
ZX360D-B-10P
43
1
J9
Connector, Power Jack, 2.5 mm x 5.5 mm, 12 V, 4 A,
Right Angle, TH
Cui Stack
PJ-002BH
44
1
J18
Connector, DB-9M, Right Angle
45
9
SW1,SW2,SW3,SW4,SW7,SW9,SW10,SW11, Switch, DPDT, Slide, Sub-Mini, Top Actuator, TH
SW12
AMP
747840-2
C&K
JS202011CQN
DS50002350B-page 32
46
2
SW5,SW6
Switch Array, SPST, 6 Position, SIP-7
CK
SPA06B
47
1
SW8
Switch, Momentary, SPST, 50mA, J-lead, NO, MicroMini
C&K Components
PTS810 SJM 250 SMTR LFS
48
1
U0
IC, USB5734 USB 3.0 Hub, 4 port, QFN64
Microchip
USB5734_Axx1-QFN64
49
1
U1
IC, DC-DC Converter Module, 0.591-6 Vout, ~12 Vin,
0.591-6 VDC out, 3A, 5 pin SIP, 0.41" Wide
Murata
OKR-T/3-W12-C
50
1
U3
IC, DC-DC Converter Module, 0.591-6 Vout, ~12 Vin,
0.591-6 VDC out, 6A, 5 pin SIP, 0.41" Wide
Murata
OKR-T/6-W12-C
EVB-USB5734 BOM
40
EVB-USB5734 EVALUATION BOARD BILL OF MATERIALS (CONTINUED)
Item
Qty
51
1
U2
Reference Designator(s)
IC, MCP1725-ADJE/SN, LDO Regulator, Adj., 500 mA,
SOIC8
Description
Microchip
MCP1725(T)-ADJE/SN
52
4
U4,U5,U6,U7
IC, AP2553AFDC-7, Power Distribution Switch,
U-DFN2020-6
Diodes Inc.
AP2553AFDC-7
53
1
U8
IC, Flash, SPI, SST25VF064C, 64Mb (8M x 8), 2.7V-3.3V, Microchip
75MHz (Dual Read), SO8
54
2
U9,U10
IC, 74LVC1G14, Inverter, Shottky, DCK
TI
SN74LVC1G14DCKR
55
1
U11
IC, PI3B3257, Quad 2:1 Mux, 3.3V, QSOP-16
Pericom
PI3B3257QE
56
1
U13
IC, RS/232 Xcvr, '3243, 3-5.5V, TSSOP28
Intersil
57
1
Y1
Crystal, 25.000MHz, 30ppm, 10pF, SMT 3.2MM X 2.5MM Abracon
58
6
SHUNT1,SHUNT2,SHUNT3,SHUNT4,SHUNT Shunt, Insulated, 0.1 Inch
5, SHUNT6
59
5
Polarizing Key, Male, 0.1 Inch, Vertical
60
1
61
4
-none
62
1
63
1
64
1
Manufacturer
Manufacturer Part Number
SST25VF064C-80-4I-S3AE
ICL3243EIVZ
ABM8G-25.000MHZ-B4Y-T
TE Connectivity
881545-2
Molex
0015040292
PCB Nylon Standoff, 2mm x 11.1mm
Eagle Plastic Devices
561-DMSP437
Foot, Silicone Rubber, Adhesive, Clear, Cylindrical,
.500"x.250"
Bumper Specialties
RBS-6
LBL-SERNO
Label, Serial Number, Laminated, 250 x 800
Brother
1/4" x 0.8"
LBL-ASSY1
Label, Assembly Number, Laminated, 250 x 800,
"EVB-USB5734_B"
Brother
1/4" x 0.8"
PCB Fab
PCB, Torrent (EVB-USB5734), Rev. B
Torrent_B
EVB-USB5734 Evaluation Board User’s Guide
DS50002350B-page 33
TABLE C-1:
 2015 Microchip Technology Inc.
EVB-USB5734
EVALUATION BOARD
USER’S GUIDE
Appendix D. EVB-USB5734 Silk Screens
D.1
INTRODUCTION
This appendix shows the EVB-USB5734 Top and Bottom Silk Screen images.
FIGURE D-1:
EVB-USB5734 TOP SILK SCREEN
 2015 Microchip Technology Inc.
DS50002350B-page 34
EVB-USB5734 Evaluation Board User’s Guide
FIGURE D-2:
DS50002350B-page 35
EVB-USB5734 BOTTOM SILK SCREEN
 2015 Microchip Technology Inc.
NOTES:
DS50002350B-page 36
 2015 Microchip Technology Inc.
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DS50002350B-page 37
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01/30/15
 2015 Microchip Technology Inc.