EVB-USB3813 Evaluation Board User's Guide

EVB-USB3813
Evaluation Board
User’s Guide
 2013 Microchip Technology Inc.
DS50002195A
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© 2013, Microchip Technology Incorporated, Printed in the
U.S.A., All Rights Reserved.
ISBN: 978-1-62077-431-1
QUALITY MANAGEMENT SYSTEM
CERTIFIED BY DNV
== ISO/TS 16949 ==
DS50002195A-page 2
Microchip received ISO/TS-16949:2009 certification for its worldwide
headquarters, design and wafer fabrication facilities in Chandler and
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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.
 2013 Microchip Technology Inc.
EVB-USB3813 Evaluation Board User’s Guide
Object of Declaration: EVB-USB3813 Evaluation Board
 2013 Microchip Technology Inc.
DS50002195A-page 3
EVB-USB3813 Evaluation Board User’s Guide
NOTES:
 2013 Microchip Technology Inc.
DS50002195A-page 4
EVB-USB3813
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 Features ....................................................................................................... 11
1.3 General Description ...................................................................................... 12
Chapter 2. Hardware Configuration
2.1 Hardware Description ................................................................................... 13
2.1.1 Port Assignment ........................................................................................ 13
2.1.2 USB3813 Configuration ............................................................................. 15
2.1.3 Clock Source – 12 MHz Oscillator ............................................................. 15
2.1.4 Power Source – Self-Powered .................................................................. 15
2.1.5 Power State LED ....................................................................................... 16
2.1.6 RESETn LED ............................................................................................ 16
2.1.7 Port Power LEDs ....................................................................................... 16
2.1.8 Hub Connect LED ..................................................................................... 16
2.1.9 Connector Description ............................................................................... 16
Chapter 3. Battery Charging Support
3.1 Battery Charging Modes ............................................................................... 19
3.2 Charging Port Roles ..................................................................................... 19
3.2.1 BC1.2 Charging Downstream Port (CDP) Description .............................. 20
3.2.2 Standard Downstream Port (SDP) Description ......................................... 20
3.2.3 Dedicated Charger Emulation Port (DCP) Description .............................. 20
Appendix A. EVB-USB3813 Evaluation Board
A.1 Introduction .................................................................................................. 23
Appendix B. EVB-USB3813 Evaluation Board Schematic
B.1 Introduction .................................................................................................. 25
Appendix C. Bill of Materials (BOM)
C.1 Introduction .................................................................................................. 27
Worldwide Sales and Service .................................................................................... 31
 2013 Microchip Technology Inc.
DS50002195A-page 5
EVB-USB3813 Evaluation Board User’s Guide
NOTES:
DS50002195A-page 6
 2013 Microchip Technology Inc.
EVB-USB3813
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-USB3813 Evaluation Board. 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-USB3813 Evaluation Board as a
demonstration platform optimized for portable applications. The manual layout is as
follows:
• Chapter 1. “Overview” – Shows a brief description of the EVB-USB3813
Evaluation Board.
• Chapter 2. “Hardware Configuration” – Includes information about the
hardware configuration of the EVB-USB3813 Evaluation Board.
• Chapter 3. “Battery Charging Support” – Provides information about the
EVB-USB3813 Evaluation Board battery charging features.
• Appendix A. “EVB-USB3813 Evaluation Board” – This appendix shows the
EVB-USB3813 Evaluation Board.
• Appendix B. “EVB-USB3813 Evaluation Board Schematic” – This appendix
shows the EVB-USB3813 Evaluation Board schematic.
• Appendix C. “Bill of Materials (BOM)” – This appendix includes the
EVB-USB3813 Evaluation Board Bill of Materials (BOM).
 2013 Microchip Technology Inc.
DS50002195A-page 7
EVB-USB3813 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
DS50002195A-page 8
Examples
File>Save
Press <Enter>, <F1>
var_name [,
var_name...]
void main (void)
{ ...
}
 2013 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
 2013 Microchip Technology Inc.
DS50002195A-page 9
EVB-USB3813 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 (September 2013)
• Initial Release of this Document.
DS50002195A-page 10
 2013 Microchip Technology Inc.
EVB-USB3813
EVALUATION BOARD
USER’S GUIDE
Chapter 1. Overview
1.1
INTRODUCTION
The USB3813 is a low-power, full-featured and OEM configurable Multi-Transaction
Translator (MTT) USB 2.0 hub controller with three downstream ports optimized for
portable applications. The USB3813 is fully compliant with the USB 2.0 Specification,
USB 2.0 Link Power Management (LPM) Addendum, High-Speed Inter-Chip (HSIC)
USB Electrical Specification Revision 1.0 and attaches to an upstream port as a
high-speed hub. The 3-port hub supports low-speed, full-speed and high-speed
downstream devices on all of the enabled (non-HSIC) downstream ports. The HSIC
port supports only high-speed operation. The USB3813 supports both upstream and
downstream battery charging (BC1.2) detection. The EVB-USB3813BC Evaluation
Board demonstrates a stand-alone application for the USB3813 device with advanced
power saving options and configurable port assignments. See Section 1.2 “Features”
for more information.
1.2
FEATURES
• USB3813 in a 30-pin WLCSP RoHS compliant package
• Two USB 2.0 downstream ports with ganged port power and overcurrent sense
(OCS)
• One downstream HSIC port (downstream port 1)
• High-Speed (480 Mbps), Full-Speed (12 Mbps) and Low-Speed (1.5 Mbps)
compatible
• USB Battery Charging is supported on all downstream USB ports up to 2A (BC1.2
CDP, SDP and DCP)
• Multi-Transaction Translator is enabled
• Supports internal default hub configuration. Optionally supports configuration from
external SPI or EEPROM
• SMBus interface header available
• Low-Cost, 4-Layer space saving design with two outer signal layers, a power
inner layer and a ground inner layer
• Self-Powered operation
• Operates from one single voltage (+5.0 VDC, 4 Amp regulated) external DC
power supply
• On Board MCP1725 +3.3 VDC. 0.5 Amp regulator
• +5V, Reset, Hub Connect and port power LED indicators
• ESD/EMI component footprints provided (optional)
• Single 12 MHz crystal clock source
• External GPIO pin headers
• Schematics, layout and bill of materials are available to minimize new product
development time
 2013 Microchip Technology Inc.
DS50002195A-page 11
EVB-USB3813 Evaluation Board User’s Guide
1.3
GENERAL DESCRIPTION
The EVB-USB3813 is an evaluation and demonstration platform featuring the
USB3813 Ultra Fast USB 2.0 Hub on a 4-layer RoHS compliant Printed Circuit Board
(PCB).
The EVB-USB3813 is designed to demonstrate the unique features of this device using
a low-cost PCB implementation with ganged port power control for the two downstream
USB 2.0 ports. Both downstream USB 2.0 ports include a high current port power
controller to fully support USB battery charging as a high current walk-up port.
Note:
Do not exceed 4A total current consumption from 5 VDC.
The EVB-USB3813 is designed to support internal default configuration settings and
an external I2C™ EEPROM (optional) for custom configured functionality. A location is
provided for an external I2C EEPROM device for configuration at U8. Alternatively, a
firmware can be downloaded onto a dual-output SPI Flash device located at U17.
Figure 2-2 shows the top and bottom level silk screen and copper layers. A block
diagram of the EVB-USB3813 is shown in Figure 2-3.
DS50002195A-page 12
 2013 Microchip Technology Inc.
EVB-USB3813
EVALUATION BOARD
USER’S GUIDE
Chapter 2. Hardware Configuration
2.1
HARDWARE DESCRIPTION
The EVB-USB3813 has one on board regulator. The MCP1725 (U6) generates +3.3
VDC for the hub device circuitry and performs voltage supervisor and RESETn
functions. The USB3813 generates its own +1.2 VDC for internal use with on-chip +1.2
VDC regulators. The internal +1.2 VDC regulator tied to the oscillator and
Phase-Locked Loop (PLL) is turned off during suspend to minimize suspend current.
Downstream port power is distributed by two independent power switches at up to 2A
per port via U1 and U2.
Note:
Do not exceed 4A total current consumption from +5 VDC.
Downstream port 2 and port 3 have USB 2.0 connectors with USB 2.0 compliant
decoupling and separate shield grounds. Downstream port 1 has U.FL connectors (J16
and J17) to support Data and Strobe HSIC signals.
2.1.1
Port Assignment
The downstream ports are numbered 1 through 3. Downstream port 1 is an HSIC port
and downstream port 2 and port 3 are the USB 2.0 ports. The USB3813 allows
downstream port 2 and/or port 3 to be configured for high current battery USB charging.
Power to downstream port 2 and port 3 is controlled through the AP2111 devices U1
and U2. Each device provides up to 2A to the corresponding downstream port. Both of
these port power controllers are enabled via a shared PRTPWR pin on the USB3813.
Overcurrent sensing of both port power controllers is also monitored on the same
PRTPWR pin.
Note:
 2013 Microchip Technology Inc.
There is only a maximum of 4A provided across the entire evaluation board.
DS50002195A-page 13
EVB-USB3813 Evaluation Board User’s Guide
The EVB-USB3813 must be connected to a USB upstream host via the J0 USB 2.0
micro AB connector using the provided USB 2.0 cable. When using downstream port
1, the provided HSIC cables must be inserted into the U.FL connectors J16
(STROBE1) and J17 (DATA1). When removing these cables from the evaluation board
for any reason, the provided HSIC Extraction tool must be used. Figure 2-1 shows the
recommended usage of the HSIC extraction tool per the Hirose U.FL data sheet on
proper use of the plugs.
FIGURE 2-1:
U.FL COAXIAL CABLE EXTRACTION GUIDELINES
Usage Precautions
1. Plugs
(1) Mating/Unmating
1) To disconnect the connectors, insert the end portion of U.FL-LP-N-2 under the
connector flanges and pull off vertically, in the direction of the connector mating axis.
2) To mate the connectors, the mating axes of both connectors must be aligned. The
“click” confirms a fully-mated connection. Do not attempt to insert on an extreme
angle.
(2) Pull forces on the cable after the connectors are mated. Do not apply a load to the
cable in excess of the values indicated in the diagram below.
(3) Precautions
Do NOT forcefully twist or deform wires.
When an upstream USB 2.0 host is attached and detected, the HUB_CONN pin on the
USB3813 asserts and the green “HubConn” LED D18 lights up.
DS50002195A-page 14
 2013 Microchip Technology Inc.
Hardware Configuration
The EVB-USB3813 is designed to allow flexible configuration options. It can be
configured with default internal register settings through an SMBus or through a
downloadable external firmware to an SPI Flash. It supports “Quad-Page” configuration
OTP flash (four consecutive 200-byte configuration pages). The following sections
detail the various configuration methods and features.
2.1.2
USB3813 Configuration
Default: Upon power-up, the USB3813 searches for an external SPI Flash device that
contains a valid signature. If an SPI device is not present, the firmware checks to see
whether SMBus is enabled. If the SMBus is disabled, the USB3813 attempts to load
the configuration from an external I2C EEPROM. If no external options are detected,
the USB3813 will operate using the internal default register settings. It also sets the
vendor ID, product ID, language ID, device ID and additional settings from internal
ROM code.
SPI Flash Option: If upon power-up an external SPI Flash device is present, the
external ROM is enabled and code execution is initiated from the external SPI device.
The SPI Flash device on the EVB-USB3813 is populated by default. To hold this device
in reset, the J33 “SPI Hold” two-pin header can be shorted together, thereby tying the
HOLD signal low.
SMBus Option: The SMBus interface is disabled by default via the 100 kOhm pull
down resistor on SMBCLK. To enable SMBus, the SMBCLK pin must be pulled high to
+3.3 VDC with a strong pull up resistor. This is often embedded within the external
SMBus tool (not included) when inserted onto the J13 SMBus header. All device
configuration must be performed via the Pro-Touch Programming Tool. For information
on this tool, contact your local sales representative. When SMBus is enabled, the
firmware configures the GPIOs to act as an SMBus slave. As an SMBus slave, the
firmware waits indefinitely for the SMBus configuration.
EEPROM Option: If the USB3813 does not detect an SMBus interface, it will check for
an I2C EEPROM (not populated by default). The EVB-USB3813 loads configuration
from an external two-wire I2C EEPROM when present. The EEPROM must be installed
either directly or through a DIP socket located at the U8 footprint and the “Manual I2C
Enable” headers J11 and J12 must be set to enable this option. By default, J11 and J12
are left open so that the I2C interface are only enabled by pull ups in the external
EEPROM device. When both J11 and J12 are jumpered, SDA and SCL on the I2C
interface are pulled high to +3.3 VDC externally. The EEPROM must be
pre-programmed before installation as the EVB-USB3813 is tied to an HSIC host. The
EVB-USB3813BC is compatible with I2C EEPROMs from several manufacturers. The
memory capacity must be at least 512 bytes.
2.1.3
Clock Source – 12 MHz Oscillator
By default, a 12 MHz oscillator OSC1 is populated on the evaluation board as the clock
source for the USB3813. An alternative clock source can be injected into the J54 SMA
“External Clock Input” connector if desired. The REFSEL[1:0] pins are both pulled high
to +3.3 VDC by default to configure the USB3813 to have an input reference clock
frequency of 12 MHz.
2.1.4
Power Source – Self-Powered
The EVB-USB3813 only supports self-powered operation and is powered by one +5
VDC regulated external DC power supply. The +5 VDC, 4A external DC power supply
plugs into the on board 2.1 mm connector J8. The external power supply controls the
on board +3.3 VDC MCP1725 voltage regulator. The evaluation board is setup so that
the +5 VDC feeds VBAT on the USB3813 which feeds the internal +3.3 VDC regulator.
The +3.3 VDC comes out on the VDD33 power pin which then feeds the internal +1.2
 2013 Microchip Technology Inc.
DS50002195A-page 15
EVB-USB3813 Evaluation Board User’s Guide
VDC regulator via the VDDCRREG pin. A +1.2 VDC is then output onto the VDDCR12
pin of the USB3813. Therefore, the USB3813 is powered completely by the +5 VDC
output of the external power supply.
2.1.5
Power State LED
The LED D5 indicates when +5 VDC power is present.
2.1.6
RESETn LED
The LED D6 indicates when the RESETn signal is driven low and the USB3813 is held
in the Reset state.
2.1.7
Port Power LEDs
LEDs D2 and D3 indicate when +5 VDC port power is available to the associated
downstream USB port(s).
2.1.8
Hub Connect LED
The LED D18 indicates when an upstream USB 2.0 host is present.
2.1.9
Connector Description
The EVB-USB3813 has two standard USB style A connectors for downstream port 2
and port 3. The upstream port has a USB micro AB connector. Power is supplied via
2.1 mm power jack. See Table 2-1 for the list of connectors. For more details, please
see Appendix A. “EVB-USB3813 Evaluation Board”.
TABLE 2-1:
CONNECTOR DESCRIPTION
Connector
Type
Description
J0
USB uAB
Upstream USB Port 0
J2
USB A
Downstream USB Port 2
J3
USB A
Downstream USB Port 3
J7
1x2 header
External Reset Control
J8
Power Jack 2.1 mm
+5 VDC Regulated Power Supply
J9
1x2 header
VBUS 5V Optional Header
I2
J11, J12
1x2 headers
J13
2x5 header
SMBus I/F connection
J16
U.FL
Downstream HSIC Port 1 STROBE
J17
U.FL
Downstream HSIC Port 1 DATA
J18, J19
1x2 headers
Charge Detect [1:0]
J22
1x2 header
Suspend/IRQ#/Interrupt
J33
1x2 header
SPI HOLD (to hold SPI in reset)
J54
SMA
External Clock Input
C™ External/Manual Enable
Component side top and bottom layers are shown in Figure 2-2 with silk screen
information to identify component locations.
DS50002195A-page 16
 2013 Microchip Technology Inc.
Hardware Configuration
FIGURE 2-2:
 2013 Microchip Technology Inc.
EVB-USB3813 TOP AND BOTTOM LEVEL SILK SCREEN AND
COPPER LAYERS
DS50002195A-page 17
EVB-USB3813 Evaluation Board User’s Guide
FIGURE 2-3:
5V
EVB-USB3813 BLOCK DIAGRAM
3V3 (To Board)
3.3V
Regulator
USB3813
(CSP30)
VDD33
1V2
DATA1
Data
STROBE1
VBUS
Port 0
D+
USB 2.0
DConn
Strobe
HUB_CONN
D0+
D0POWER
OCS
GENERIC
PORT PWR
CTLR
(2A)
D2+
D2Optional
SPI
10Kohm
Optional
SMBus
DS50002195A-page 18
VBUS
Port 2
USB 2.0
D+
Conn
D-
SPI
PRTPWR/
OCS
3.3V
Optional
EEPROM
Port 1
HSIC
U.FL
SDA
SCL
10Kohm
SDA
D3+
D3-
POWER
OCS
GENERIC
PORT PWR
CTLR
(2A)
VBUS
Port 3
USB 2.0
D+
Conn
D-
SCL
SCL
SDA
 2013 Microchip Technology Inc.
EVB-USB3813
EVALUATION BOARD
USER’S GUIDE
Chapter 3. Battery Charging Support
3.1
BATTERY CHARGING MODES
The EVB-USB3813 supports several different Battery Charging modes, providing an
array of flexible configuration solutions. Both downstream port 2 and port 3 can be
separately configured for Battery Charging via OTP, downloadable external firmware to
an on board SPI Flash or through SMBus commands. Each port's configuration is
independent of the other ports.
The Battery Charging mechanism automatically switches ports between states that
perform the BC1.2 CDP handshake (which allows full USB communication with a USB
host while charging), and states that emulate the dedicated chargers from charging
device vendors. This allows support for the BC1.2 CDP mode and emulation of
dedicated chargers in DCP mode, without interfering with normal USB operation of any
USB 2.0 device attached to the port. Battery Charging is supported through the use of
standard port power controllers.
Section 3.2 “Charging Port Roles” describes the modes of operation. For more
information on battery charging, please refer to the Application Note 34.5 and the USB
Battery Charging 1.2 specifications.
3.2
CHARGING PORT ROLES
The EVB-USB3813's Battery Charging enabled downstream ports automatically
switches between various roles depending on the USB state of the EVB-USB3813.
These roles are:
1.
2.
3.
4.
BC1.2 charging downstream port (CDP – 1.5A with data)
Standard downstream port (SDP – 0.5A with data)
Dedicated charger emulation port (DCP – power brick without data)
Custom profiles loaded via SMBus or OTP
When switching between roles, the EVB-USB3813 toggles power to the attached
device if appropriate. The power toggle occurs if charger or USB renegotiation is
necessary based on the following conditions:
1. If the port is in an SDP role while the hub is disconnected from the host, the port
toggles power when switching to a DCP role to allow the downstream device to
negotiate with the DCP mechanism.
2. If the port is in a DCP role and the port needs to switch to a CDP or SDP role,
the port toggles power to allow the device to renegotiate with a CDP handshake
and/or USB attach.
When Battery Charging is disabled for a EVB-USB3813 port, the port acts as a normal
USB hub port.
When the EVB-USB3813's upstream port is connected to a USB host and the
EVB-USB3813 is not in USB 2.0 suspend and/or USB 2.0 remote wake is enabled,
Battery Charging enabled ports follow the BC1.2 specification for a CDP role. In this
case, after a USB 2.0 device is attached, the port behaves in SDP role until the device
is detached from the hub or the hub is detached from the host.
 2013 Microchip Technology Inc.
DS50002195A-page 19
EVB-USB3813 Evaluation Board User’s Guide
When a USB port is in a state in which device-host USB communication is not possible,
a Battery Charging enabled port is not required to act as a USB hub port and is
therefore free to enter states that emulate dedicated chargers. For the EVB-USB3813,
there are two cases where this applies:
1. The EVB-USB3813 upstream port is not connected to a USB host.
2. The EVB-USB3813 is in USB suspend with remote wake on the USB 2.0 portion
of the EVB-USB3813 disabled and no USB 2.0 device connected as a USB
device on the downstream port. If USB 2.0 remote wake is disabled, the hub
cannot generate resume signaling and does not need to detect a USB 2.0 attach.
In case 2, the EVB-USB3813's charging ports do not enter dedicated charging states
when there is a USB 2.0 device attached as a USB device. There are two reasons for
this behavior:
1. Entering dedicated charging states may involve changing the state of an
attached device due to power toggling and/or USB linestate changing. Because
the host system is unaware of the Battery Charging mechanism of the
EVB-USB3813, the host could find the device in an unexpected state when
exiting suspend.
2. The attached device will not be able to signal resume signaling to the host when
the port is in a dedicated charging state. Hubs must propagate resume signaling
from downstream devices even when remote wake generation is disabled for the
hub.
If the EVB-USB3813 is in USB 2.0 suspend with USB 2.0 remote wake disabled and a
USB-attached device is removed from a port, the port switches to the DCP role
because possible resume propagation is no longer required.
3.2.1
BC1.2 Charging Downstream Port (CDP) Description
Devices that do not follow the BC1.2 CDP specification behave as they normally would
when inserted into a standard USB port. The EVB-USB3813 ports in CDP mode allow
normal USB operation or communication between normal devices and USB hosts by
switching to the SDP role after downstream device detection and absence of a BC1.2
CDP handshake from the device. When a subsequent device detach is detected, the
port switches back to the CDP role.
Devices that follow the BC1.2 CDP specification are also allowed to communicate
normally with the USB host when inserted into the EVB-USB3813 ports in CDP mode.
Additionally, prior to allowing the normal USB connection between the host and the
BC1.2 device, the EVB-USB3813 port performs the BC1.2 CDP handshake to inform
the BC1.2-compliant device that it may draw current exceeding the USB specified
limits. When the handshake is complete, the port switches to the SDP role to allow USB
functionality for the device. When a subsequent device detach is detected, the port
switches back to the CDP role.
3.2.2
Standard Downstream Port (SDP) Description
When a port is in the SDP role, it behaves as a normal hub port and allow full USB
functionality for an attached downstream device.
3.2.3
Dedicated Charger Emulation Port (DCP) Description
The advantage of the EVB-USB3813 dedicated charger emulation port over the
BC1.2-specified DCP is that it supports BC1.2 compliant charging devices and many
non-BC1.2 compliant charging devices. The following paragraphs describe the
EVB-USB3813 modes of operation when its downstream ports are in dedicated
charging states (when normal USB connection is not required as described in previous
sections).
DS50002195A-page 20
 2013 Microchip Technology Inc.
Battery Charging Support
Dynamic Mode:
The EVB-USB3813 can be configured to dynamically react to devices inserted into the
downstream ports and emulate the appropriate type of charger for the inserted device.
In this configuration, the port begins in Apple® charger emulation mode and switches
to China Charging, Blackberry® or BC1.2 device charger emulation when such devices
are detected by the port. When a device is detached, the port starts again in Apple
charger emulation mode.
Configurable 1A and 2A Apple modes are available depending on the capabilities of
each port's port power controller.
An EVB-USB3813 port with a standard port power controller also supports Samsung®
Galaxy Tab™ charger emulation in addition to the above modes.
Static Mode:
The EVB-USB3813 can be configured to keep the downstream ports in a fixed charger
emulation state. Currently, Apple and Samsung Galaxy Tab or China Charging fixed
charger emulation modes are available.
 2013 Microchip Technology Inc.
DS50002195A-page 21
EVB-USB3813 Evaluation Board User’s Guide
NOTES:
DS50002195A-page 22
 2013 Microchip Technology Inc.
EVB-USB3813
EVALUATION BOARD
USER’S GUIDE
Appendix A. EVB-USB3813 Evaluation Board
A.1
INTRODUCTION
This appendix shows the EVB-USB3813 Evaluation Board.
FIGURE A-1:
EVB-USB3813 EVALUATION BOARD
 2013 Microchip Technology Inc.
DS50002195A-page 23
EVB-USB3813 Evaluation Board
NOTES:
 2013 Microchip Technology Inc.
DS50002195A-page 24
EVB-USB3813
EVALUATION BOARD
USER’S GUIDE
Appendix B. EVB-USB3813 Evaluation Board Schematic
B.1
INTRODUCTION
This appendix shows the EVB-USB3813 Evaluation Board Schematic.
 2013 Microchip Technology Inc.
DS50002195A-page 25
External
Supply
5V, 4A
3V3
C40
TP11 WHITE
R29
74LVC1G14
C38
2.2uF 100K
2.2K
1nF
Br_Grn-RA
330
0.1uF
R59
ZERO
R58
ZERO
SHLD0
TP13
RED
U0
B1
HUB_CONN
A3
A2
DATA0
STRB0
2
3
USB3813_WLCSP30
DM1/DATA1
DP1/STRB1
HUB_CONN
Upstream
(Flex)
DATA0/DM0
STRB0/DP0
OE
OUT
VCC
GND
2
2
3
4
5
0.1uF
R41
R40
R42
3V3
33
A4
REFCLK
R70
33 DNP
Ext. Clock Input
J54
1
3V3
R32
R38
10K
10K
SMA
R17
10K
DNP
C1
E6
REFSEL0
REFSEL1
R19
10K
DNP
*Note:
System should supply RESET# in
an embedded hub implementation.
B2
RESET#
C3
RBIAS
VCC
SCK
SI
SO
CS*
C63
0.1uF
4
WP*
HOLD*
GND
6
5
2
1
3
7
WP#
HOLD#
3V3
SHUNT1
SPI HOLD
J33
2
(*both open = Enable by ext. device PUs)
Man. I2C Enable ( both shorted = Man. Enable)
J12
1
2 R21
10K
SDA/SMBDATA
SCL/SMBCLK
1
2 R25
10K
J13
1
3
5
7
9
Aardvark_I/F
SMBus I/F
2
3
100uF
DNP
ZERO
ZERO
1
U.FL
2
3
STRB1
J16
B5
B4
VDD33
CHRGDET0
CHRGDET1
SPI
E5
D6
DDM3
SDP3
R65
R66
J2
D4
E4
U2 AP2111SG_SO8
2
6
3 IN1 OUT1 7
IN2 OUT2
ChrgDet0
2
1 J19
1 J18
2
4
5
3V3
R33
A1
10K
I2C/SMBus
SDA/SMBDATA
SCL/SMBCLK
Power
VBAT
U8 24C04B-DIP8
1
VCC
A0 2
A1 3
7
WP
A2
A5
C34
0.1uF
4
SCL
SDA
TP15
YELLOW
6
5
TP7
BLACK
R30
100K
SKT1
EEPROM-DNP
SUSP/IRQ#/INT#
J22
1
Port Power
E3
3V3
Reg.
ZERO
PCTL
R7
2.2K
OCS#
GND
GND
C5
DLP11SN900SL2 L1
1
0.1uF
PWR1_3
3
2
BGX50A
BR2
3
C6
4
1
DLP11SN900SL2 L2
1
0.1uF
PWR2
3
2
BGX50A
BR3
3
VDDCRREG
1V2
Reg.
C7
0.1uF
VCC
DD+
GND
5
6
7
8
SR1
SL1
SR2
SL2
R3
330
C3
0.1uF
Port
3
SHLD3
U9
3V3 Regulator,
for Support Ckts,
~100 mA
1.2V Core
1.2V HSIC
VDDCR12 (1.0 uF)
5V
C42
U6 MCP1725-ADJ_SOIC8
1
8
VOUT
2 VIN1
VIN2
1.0uF
R26
10K
500mA
3
EN3
EXT_RST 6
DLP11SN900SL2 L3
PWR1_3
0.1uF
3V3
4
1
1
TP3
WHITE
RESET#
to USB connector -->
DM3
DP3
D3
Br_Grn-RA
"PPWR3"
B3
C4
C33
to USB connector -->
DM2
DP2
D3
TP5
BLACK
2
4
BGX50A
BR1
3
4
1
2
4
3
2
330
C2
J3 USB-A Jack
PPWRA
3.3V Log.
3.3V IO
R2
Port
2
SHLD2
1
2
3
4
PWR1_3
DM3
DP3
C11
150uF
C37
DNP
1.0uF
to USB connector -->
D2
Br_Grn-RA
"PPWR2"
2
4.7uF
DM1
DP1
D2
C14
0.1uF
ESD/EMI Options (DNP)
2
4
 2013 Microchip Technology Inc.
GND
1V2 A6
R6
2.2K
8
1
USB-A Jack
5
SR1 6
SL1 7
SR2 8
SL2
VCC
DD+
GND
VDD33 (4.7 uF)
TP6
ORANGE
8
2A
EN
nc
FLAG GND
1
2
3
4
PWR2
DM2
DP2
C10
150uF
INT#
1.0uF
(*Note: Aardvark has
default 2.2K pull ups
on its SDA and SCL.)
8
1
ZERO
ZERO
ChrgDet1
SPI_CLK
SPI_DO/SPI_SPD_SEL
SPI_DI
SPI_CE
C24
4.7uF
3V3
2A
EN
nc
FLAG GND
C13
0.1uF
R68
5V
U1 AP2111SG_SO8
6
IN1 OUT1 7
IN2 OUT2
4
5
D5
C6
RESET
RBIAS
PRTPWRA/OCSA/PRTCTLA
(*short)
SCL/SMBCLK
SDA/SMBDATA
RESET#
HUB_CONN
INT#
(scl)
(sda)
(gpio)
(gpio)
(gpio)
DATA3/DM3
STRB3/DP3
SUSP/IRQ/INT
D1
C2
J17
R60
R63
TP9
BLACK
C25
Downstream
REFSEL0
REFSEL1
J11 (*open)
1
C26
(gnd) 2
(dnc) 4
(dnc) 6
(gpio) 8
(gnd) 10
D2
D3
E2
E1
SPI_SCK
SPI_MOSI
SPI_MISO
SPI_CE#
Dual-Output SPI Flash
SPI
REFCLK
R16
12.0K
1%
10K
10K
10K
U17
8
DM2
DP2
5V
DATA1
+
4
C21
R69
DMD1
DPS1
1
U.FL
2
4
74LVC1G14
R31
R71
"Reset"
D6
2.2K
Br_Red-RA
3
3V3
3
C5
B6
Downstream
(Swap)
OSC1
12MHz
OSCILLATOR
1
Warning:
Downstream VBUS is
5V @ 2A per channel to
support Battery Charging.
1.0nF
+
C39
"Hub Conn"
D18
R57
4
2
82K
5
R36
C41
R34
VBUS_UP
USB_DM_UP
USB_DP_UP
+
TP16
BLACK
1
2
3
4
5
SW1
-RESET-
3
4
1
1
2
J7
2
Ext_Rst
Shdn
Cdelay
GND
5V
Br_Red-RA
"5V Present"
2
D5
U14
(*open) J0 USB uAB
6
7 S1 VBUS
D8 S2
D+
9 S3
ID
10 S4
S5
GND
11
S6
R20
2.2K
3
C35
4
1
2.1 mm
Note:
Jumper defaults are
indicated with an "*".
5
VBUS 5V
J9
1
2
5V
3
J8
EVB-USB3813 EVALUATION BOARD SCHEMATIC
0.1uF
(delay=
~300 ms)
ADJ
PWRGD
7
5
(load=
17.5 uA)
100K
3V3
R24
150K
1%
TP12
ORANGE
C31
C30
4.7uF 0.1uF
R23
21.0K
1%
EVB-USB3813 Evaluation Board User’s Guide
DS50002195A-page 26
FIGURE B-1:
EVB-USB3813
EVALUATION BOARD
USER’S GUIDE
Appendix C. Bill of Materials (BOM)
C.1
INTRODUCTION
This appendix includes the EVB-USB3813 Evaluation Board Bill of Materials (BOM).
 2013 Microchip Technology Inc.
DS50002195A-page 27
Item Qty
EVB-USB3813 EVALUATION BOARD BILL OF MATERIALS
Qty
Populated
Reference Designator(s)
Description
Manufacturer
Manufacturer Part Number
Notes
1
2
2
C10, C11
Capacitor, Low ESR, 150uF, 6.3 VDC, 20%,
Aluminum, Radial-SMT, 5 mm x 5.7 mm
Lelon
VZS151M0JTR-0506
2
6
6
C2, C13, C14, C21, C30, C35
Capacitor, 0.1 uF, 25V, 10% X5R, 0402
Murata Electronics®
GRM155R61E104KA7D
3
2
2
C3, C41
Capacitor, 0.1 uF, 25V, 10% X5R, 0402
Murata Electronics
GRM155R61E104KA7D
4
1
1
C63
Capacitor, 0.1 uF, 10V, 10%, X5R, 0402
Murata Electronics
GRM155R71A104KA01D
5
2
2
C38, C39
Capacitor, 1000 pF, 50V, 10%, X7R, 0402
Murata Electronics
GRM155R71H102KA01D
6
2
2
C24, C42
Capacitor, 0.1 uF, 16 VDC, 10%, X5R, 0603
Murata Electronics
GRM188R61C105KA93D
7
3
3
C26, C31, C33
Capacitor, 4.7 uF, 6.3 VDC, 20%, X5R, 0603
Murata Electronics
GRM188R60J475KE19D
8
1
1
C40
Capacitor, 2.2 uF, 6.3 VDC, 10%, X5R, 0603
Murata Electronics
GRM185R60J225KE26D
9
6
6
R58, R59, R60, R63, R65, R66
Resistor, ZERO, 0.1W, 0402
Panasonic®
ERJ-2GE0R00X
‘3813
10
1
1
R68
Resistor, ZERO, 0.1W, 0402
Panasonic
ERJ-2GE0R00X
PCTL
11
1
1
R2
Resistor, 330, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ331V
12
2
2
R3, R36
Resistor, 330, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ331V
13
6
6
R5, R6, R7, R20, R57, R71
Resistor, 2.2K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ222V
 2013 Microchip Technology Inc.
14
1
1
R16
Resistor, 12.0K, 1%, 1/16W, 0603
Panasonic
ERJ-3EKF1202V
15
7
7
R26, R32, R33, R38, R40, R41,
R42
Resistor, 10K, 5% 1/16W, 0603
Panasonic
ERJ-3GEYJ103V
16
2
2
R21, R25
Resistor, 10K, 5% 1/16W, 0603
Panasonic
ERJ-3GEY103V
17
1
1
R23
Resistor, 21.0K, 1%, 1/16W, 0603
Yageo America
9C06031A2102FKHFT
18
1
1
R24
Resistor, 150K, 1%, 1/10W, 0603
Panasonic
ERJ-3EKF1503V
19
1
1
R29
Resistor, 100K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ104V
20
2
2
R30, R31
Resistor, 100K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ104V
21
1
1
R34
Resistor, 82K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ823V
22
1
1
R69
Resistor, 33, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ330V
23
4
4
D1, D2, D3, D18
LED, Green, Bright (40 mcd), 0804, Right Angle
Stanley Electric
DG1113F
24
2
2
D5, D6
LED, Bright Red, 0804, Right Angle
Stanley Electric
FR1113F
25
1
1
J8
Connector, Power Jack, 2.1 mm x 5.5 mm, 12V, 4A,
Right Angle, TH
Cui Stack
PJ-002AH
26
1
1
J0
Receptacle, USB, Micro-AB, Right Angle, SMT
Hirose
ZX62-AB-5PA(11)
27
1
1
J2
Receptacle, USB, Style A, Right Angle, Through-hole
AMP
292303-1
‘3813
‘3813
‘3813
‘3813
‘3813
EEPROM
‘3813
‘3813
‘3813
28
1
1
J3
Receptacle, USB, Style A, Right Angle, Through-hole
AMP
292303-1
‘3813
29
2
2
J16, J17
Receptacle, Coax, U.FL, SMT, Vertical
Hirose
U.FL-R-SMT-1
‘3813
EVB-USB3813 Evaluation Board User’s Guide
DS50002195A-page 28
TABLE C-1:
 2013 Microchip Technology Inc.
TABLE C-1:
Item Qty
30
1
EVB-USB3813 EVALUATION BOARD BILL OF MATERIALS
Qty
Populated
Reference Designator(s)
Description
Manufacturer
Manufacturer Part Number
1
J54
Receptacle, SMA, Vertical
AMP
221789-1
TSW-102-14-L-S
31
2
2
J7, J33
Header, 1x2, 0.1 Inch, Vertical (cut from 1x36)
Samtec
32
1
1
J9
Header 1x2, 0.1 Inch, Vertical
Samtec
TSW-102-14-L-S
33
5
5
J11, J12, J18, J19, J22
Header, 2x1, 0.1 Inch, Vertical (cut from 2x36)
Samtec
TSW-102-14-L-S
34
1
1
J13
Header, 2x5, 0.1 Inch, Vertical
AMP
146256-1
35
1
1
SW1
Switch, Momentary, SPST, 100 mA, J-lead, NO
E-Switch
TL3301xF160QJor-RJ
36
2
2
TP3, TP10
Test Point, White, Loop, Mini, 0.04 Inch ID
Keystone
5002
37
4
4
TP5, TP7, TP9, TP16
Test Point, Black, Loop, Mini, 0.04 Inch ID
Keystone
5001
38
2
2
TP6, TP12
Test Point, Orange, Loop, Mini, 0.04 Inch ID
Keystone
5003
39
1
1
TP11
Test Point, White, Loop, Mini, 0.04 Inch ID
Keystone
5002
40
1
1
TP13
Test Point, Red, Loop, Mini, 0.04 Inch ID
Keystone
5000
41
1
1
TP15
Test Point, Yellow, Loop, Mini, 0.04 Inch ID
Keystone
5004
42
1
1
U0
IC, USB3813, 3-Port USB 2.0/HSIC Hub, WLCSP30
Standard
Microsystems Corp
USB3813
2
2
U1, U2
IC, AP2111SG-13, Power Distribution Switch, SOP-8
Diodes Inc.
AP2111SG-13
44
1
1
U6
IC, MCP1725-ADJE/SN, LDO Regulator, Adj., 500
mA, SOIC8
Microchip
Technology
MCP1725(T)-ADJE/SN
45
2
2
U9, U14
IC, 74LVC1G14, Inverter, Shottky, DCK
TI
SN74LVC1G14DCKR
46
1
1
U17
IC, ‘25VF640C, 64 Mb *(8M x 8) SPI Serial FLASH,
2.5V-3.6V, 75-80 MHz, Dual Read, SO8
Microchip
SST25VF064C-80-4I-S3AE
47
1
1
OSC1
Oscillator, 12.000MHz, 50 ppm, 3.3V, SMT
CTS
CB3LV-3C-12M0000
48
4
4
Foot, Silicone Rubber, Adhesive, Clear, Cylindrical,
.375” x .190”
Richco®
RBS-35
49
1
1
50
1
1
51
1
1
PCB Fab
PCB, Band (EVB-USB3x13), Rev. A
52
1
1
Assembly
Assembly, Band (EVB-USB3813), Rev. A1
53
1
0
C25
Capacitor, Low ESR, 100 uF, 6.3 VDC, 20%
Aluminum, Radial-SMT, 5 mm x 5.8 mm
Starting SN = Band-01
‘3813
SMBus
‘3813
SPI
Place bottom
side, one at
each corner
Serial Number Labels, 6 mm x 27 mm
Place bottom
side in white
S/N box
Assy Labels: “EVB-USB3813”, 6 mm x 27 mm
Place top side
in Assy# box
ViaSystems/DDi
EVB-USB3x13
Supplied by
SMSC
EVB-USB3813
United Chemi-Con
EMZA6R3ADA101ME61G
DNP
Bill of Materials (BOM)
DS50002195A-page 29
43
Notes
Item Qty
54
1
EVB-USB3813 EVALUATION BOARD BILL OF MATERIALS
Qty
Populated
0
Reference Designator(s)
Description
C9
Capacitor, Low ESR, 150 uF, 6.3 VDC, 20%
Aluminum, Radial-SMT, 5 mm x 5.7 mm
Manufacturer
Lelon
Manufacturer Part Number
VZS151M0JTR-0506
Notes
‘3613
55
1
0
C1
Capacitor, 0.1 uF, 25V, 10%, X5R, 0402
Murata Electronics
GRM155R61E104KA7D
‘3613
56
3
0
C5, C6, C7
Capacitor, 0.1 uF, 25V, 10% X5R, 0402
Murata Electronics
GRM155R61E104KA7D
ESD
57
1
0
C34
Capacitor, 0.1 uF, 25V, 10% X5R, 0402
Murata Electronics
GRM155R61E104KA7D
EEPROM-DNP
58
1
0
C37
Capacitor, 0.1uF, 16 VDC, 10%, X5R, 0603
Murata Electronics
GRM188R61C105KA93D
DNP
59
4
0
R61, R62, R64, R67
Resistor, ZERO, 0.1W, 0402
Panasonic
ERJ-2GE0R00X
‘3613
60
1
0
R1
Resistor, 330, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ331V
‘3613
61
2
0
R17, R19
Resistor, 10K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ103V
DNP
62
1
0
R43
Resistor, 100K, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ104V
‘3613
63
1
0
R70
Resistor, 33, 5%, 1/16W, 0603
Panasonic
ERJ-3GEYJ330V
DNP
64
1
0
J1
Receptacle, USB, Micro-AB, Right Angle, SMT
Hirose
ZX62-AB-5PA
‘3613
65
4
0
J14, J15, J20, J21
Receptacle, Coax, U.FL, SMT, Vertical
Hirose
U.FL-R-SMT-1
‘3613
66
1
0
J23
Header, 1x2, 0.1 Inch, Vertical
Samtec
TSW-102-14-L-S
‘3613
67
3
0
BR1, BR2, BR3
Diode, Bridge, Switching, 50V, 140 mA, KCAC,
SOT-143
Infineon Tech
BGX50A
ESD
68
3
0
L1, L2, L3
Inductor, Common Mode Choke, DLP11SN900SL2,
0504
Murata Electronics
DLP11SN900SL2
ESD
69
1
0
SKT1 (Place at U8)
Socket, IC, 8-Pin DIP, Leaf Contacts, Through-hole
Assmann
A08-LC-TT-R
EEPROM-DNP
70
1
0
U8
IC, 24C04, 2-Wire Serial EPROM, 4 Kb, 2.7V, DIP-8
Microchip
Technology
24LC04B-I/P
EEPROM-DNP
71
1
0
SHUNT1
Shunt, Insulated, 0.1 Inch
AMP
881545-2
DNP
EVB-USB3813 Evaluation Board User’s Guide
DS50002195A-page 30
TABLE C-1:
 2013 Microchip Technology Inc.
Worldwide Sales and Service
AMERICAS
ASIA/PACIFIC
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Fax: 82-2-558-5932 or
82-2-558-5934
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Tel: 63-2-634-9065
Fax: 63-2-634-9069
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Fax: 65-6334-8850
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Tel: 886-3-5778-366
Fax: 886-3-5770-955
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Tel: 886-7-213-7828
Fax: 886-7-330-9305
Taiwan - Taipei
Tel: 886-2-2508-8600
Fax: 886-2-2508-0102
Thailand - Bangkok
Tel: 66-2-694-1351
Fax: 66-2-694-1350
China - Xiamen
Tel: 86-592-2388138
Fax: 86-592-2388130
China - Zhuhai
Tel: 86-756-3210040
Fax: 86-756-3210049
DS50002195A-page 31
India - New Delhi
Tel: 91-11-4160-8631
Fax: 91-11-4160-8632
08/20/13
 2013 Microchip Technology Inc.