EVB-KSZ9897-1 - MICROCHIP TECHNOLOGY

 2017 Microchip Technology Inc. DS50002587A

EVB-KSZ9897

Gigabit Ethernet Switch

Evaluation Board

User’s Guide

DS50002587A-page 2  2017 Microchip Technology Inc.

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The Microchip name and logo, the Microchip logo, AnyRate, AVR, AVR logo, AVR Freaks, BeaconThings, BitCloud, CryptoMemory, CryptoRF,

dsPIC, FlashFlex, flexPWR, Heldo, JukeBlox, KEELOQ, KEELOQ logo, Kleer, LANCheck, LINK MD, maXStylus, maXTouch, MediaLB, megaAVR,

MOST, MOST logo, MPLAB, OptoLyzer, PIC, picoPower, PICSTART, PIC32 logo, Prochip Designer, QTouch, RightTouch, SAM-BA, SpyNIC,

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ISBN: 978-1-5224-1527-5

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

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• 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.

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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.

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.

QUALITYMANAGEMENTS

YSTEM

CERTIFIEDBYDNV

== ISO/TS16949==

 2017 Microchip Technology Inc. DS50002587A-page 3

EU Declaration of Conformity

This declaration of conformity is issued by the manufacturer.

The development/evaluation tool is designed to be used for research and development in a laboratory environment. This

development/evaluation tool is not a Finished Appliance, nor is it intended for incorporation into Finished Appliances that are

made commercially available as single functional units to end users under EU EMC Directive 2004/108/EC and as supported by

the European Commission's Guide for the EMC Directive 2004/108/EC (8th February 2010).

This development/evaluation tool complies with EU RoHS2 Directive 2011/65/EU.

This development/evaluation tool, when incorporating wireless and radio-telecom functionality, is in compliance with the

essential requirement and other relevant provisions of the R&TTE Directive 1999/5/EC and the FCC rules as stated in the

declaration of conformity provided in the module datasheet and the module product page available at www.microchip.com.

For information regarding the exclusive, limited warranties applicable to Microchip products, please see Microchip’s standard

terms and conditions of sale, which are printed on our sales documentation and available at www.microchip.com.

Signed for and on behalf of Microchip Technology Inc. at Chandler, Arizona, USA.

Object of Declaration: EVB-KSZ9897

EVB-KSZ9897 User’s Guide

DS50002587A-page 4  2017 Microchip Technology Inc.

NOTES:

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

 2017 Microchip Technology Inc. DS50002587A-page 5

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 ........................................................................................................... 13

2.1.1 +5V Power ................................................................................................. 13

2.2 Resets .......................................................................................................... 13

2.2.1 Power-on Reset ......................................................................................... 13

2.3 Clock ............................................................................................................ 13

2.4 Configuration ................................................................................................ 14

2.4.1 Switch Settings .......................................................................................... 15

2.4.2 Jumper Settings ........................................................................................ 15

2.4.3 SPI, I2C and MIIM Management ............................................................... 16

2.5 Using the EVB-KSZ9897 .............................................................................. 18

2.6 Mechanicals ................................................................................................. 18

Appendix A. EVB-KSZ9897 Evaluation Board

A.1 Introduction .................................................................................................. 19

Appendix B. EVB-KSZ9897 Evaluation Board Schematics

B.1 Introduction .................................................................................................. 21

Appendix C. Bill of Materials (BOM)

C.1 Introduction .................................................................................................. 27

Worldwide Sales and Service .................................................................................... 32

EVB-KSZ9897 User’s Guide

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NOTES:

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

 2017 Microchip Technology Inc. DS50002587A-page 7

Preface

INTRODUCTION

This chapter contains general information that will be useful to know before using

EVB-KSZ9897. 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-KSZ9897 as a development tool for the

Microchip EVB-KSZ9897 gigabit Ethernet switch. The manual layout is as follows:

•Chapter 1. “Overview” – Shows a brief description of the EVB-KSZ9897.

•Chapter 2. “Board Details & Configuration” – Includes details and instructions

for using the EVB-KSZ9897.

•Appendix A. “EVB-KSZ9897 Evaluation Board” – This appendix shows the

EVB-KSZ9897.

•Appendix B. “EVB-KSZ9897 Evaluation Board Schematics” – This appendix

shows the EVB-KSZ9897 schematics.

•Appendix C. “Bill of Materials (BOM)” – This appendix includes the

EVB-KSZ9897 Bill of Materials (BOM).

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.

EVB-KSZ9897 User’s Guide

DS50002587A-page 8  2017 Microchip Technology Inc.

CONVENTIONS USED IN THIS GUIDE

This manual uses the following documentation conventions:

DOCUMENTATION CONVENTIONS

Description Represents Examples

Arial font:

Italic characters Referenced books MPLAB® IDE User’s Guide

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

Initial caps A window the Output window

A dialog the Settings dialog

A menu selection select Enable Programmer

Quotes A field name in a window or

dialog

“Save project before build”

Underlined, italic text with

right angle bracket

A menu path File>Save

Bold characters A dialog button Click OK

A tab Click the Power tab

N‘Rnnnn A number in verilog format,

where N is the total number of

digits, R is the radix and n is a

digit.

4‘b0010, 2‘hF1

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

Courier New font:

Plain Courier New Sample source code #define START

Filenames autoexec.bat

File paths c:\mcc18\h

Keywords _asm, _endasm, static

Command-line options -Opa+, -Opa-

Bit values 0, 1

Constants 0xFF, ‘A’

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

any valid filename

Square brackets [ ] Optional arguments mcc18 [options] file

[options]

Curly brackets and pipe

character: { | }

Choice of mutually exclusive

arguments; an OR selection

errorlevel {0|1}

Ellipses... Replaces repeated text var_name [,

var_name...]

Represents code supplied by

user

void main (void)

{ ...

}

Preface

 2017 Microchip Technology Inc. DS50002587A-page 9

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

EVB-KSZ9897 User’s Guide

DS50002587A-page 10  2017 Microchip Technology Inc.

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 2017)

• Initial Release of this Document.

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

 2017 Microchip Technology Inc. DS50002587A-page 11

Chapter 1. Overview

1.1 INTRODUCTION

The EVB-KSZ9897 evaluation board features three Gigabit Ethernet products,

KSZ9897R, KSZ9031RNX and LAN7801. The KSZ9897R is a seven-port managed

gigabit Ethernet switch. It has five 10BASE-Te/100BASE-TX/1000BASE-T physical

layer transceivers (PHYs) and associated MAC units, and two MAC ports with individ-

ually configurable RGMII/MII/RMII interfaces. These two ports can be used for direct

connection to a host Microprocessor or Microcontroller, another Ethernet switch or an

Ethernet PHY.

KSZ9031 is a single chip 10/100/1000 Mbps IEEE 802.3 compliant Ethernet PHY. This

demonstration board features the RGMII variant, KSZ9031RNX, of the KSZ9031 fam-

ily. This feature-rich device offers diagnostic features, such as, LinkMD®, Parametric

NAND tree and loopback functions to facilitate system bring-up and debugging in prod-

uct testing and deployment. The on-chip termination resistors for the four differential

pairs reduce the total board cost.

LAN7801 is a USB 3.1 to 10/100/1000 Gigabit Ethernet bridge with integrated OTP and

EEPROM controller. The internal USB controller and USB PHY are compliant with the

USB 3.1 Gen 1 SuperSpeed standard that implements Control, Interrupt, Bulk-in, and

Bulk-out USB Endpoints. The Ethernet controller is compliant with the IEEE 802.3,

IEEE 802.3u, IEEE 802.3ab, and 802.3az (Energy Efficient Ethernet) standards. The

device provides multiple power management features, including Energy Efficient Ether-

net (IEEE 802.3az), support for Microsoft's Always On Always Connected (AOAC), and

“Magic Packet”, “Wake On LAN”, and “Link Status Change” wake events.

An external clock, DSC400, is used on this board to provide very low jitter clock pulses

to the KSZ9897, LAN7801 and KSZ9031 Gigabit Ethernet controllers. The DSC400 is

a four output crystal-less™ clock generator. It utilizes MEMS technology to provide

excellent jitter and stability while providing excellent shock and vibration immunity. The

device outputs wide frequency range of 2.3 MHz to 460 MHz with high noise rejection

of -50 dbC. The DSC400 provides two independent select lines for choosing between

two sets of pre-configured frequencies per bank. It also has two Output Enable pins to

allow for enabling and disabling outputs.

On this board, the KSZ9897R Ethernet switch's five ports, 1 through 5, are connected

directly to RJ45 Ethernet jacks with integrated magnetics which are available to use

with any Ethernet devices. The rest of the two MAC ports are configured as RGMII

interfaces. Port 6 is connected to a KSZ9031 Gigabit Ethernet PHY and an RJ45 Ether-

net jack with integrated magnetics and port 7 is connected to a LAN7801 USB-to-Ether-

net bridge and a USB connector.

The scope of this document is to describe the EVB-KSZ9897 evaluation board setup,

which includes RGMII, SPI and I2C interface and corresponding jumper configurations.

A simplified block diagram of the board is shown in Figure 1-1.

EVB-KSZ9897 User’s Guide

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FIGURE 1-1: KSZ9897 BLOCK DIAGRAM

1.2 REFERENCES

Concepts and material available in the following documents will be helpful when read-

ing this document. Visit www.microchip.com for the latest documentation.

• KSZ9897R Data Sheet

• KSZ9031RNX Data Sheet

• LAN7801 Data Sheet

• EVB-KSZ9897 Schematic

• DSC400 Data Sheet

1.3 TERMS AND ABBREVIATIONS

EVB - Evaluation Board

MII - Media Independent Interface

MIIM - Media Independent Interface Management, also known as MDIO/MDC

RGMII - Reduced Gigabit Media Independent Interface

I2C - Inter Integrated Circuit

SPI - Serial Protocol Interface

PHY - Physical Transceiver

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

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Chapter 2. Board Details & Configuration

This section includes sub-sections on the following KSZ9897 details:

•Power

• Resets

• Clock

• Configuration

• Mechanicals

2.1 POWER

2.1.1 +5V Power

A 5V/2A power supply should be connected to J7 on the board. The SW2 switch must

be in the ON position to power the board. The F1 fuse is provided on the board for the

over voltage protection.

2.2 RESETS

2.2.1 Power-on Reset

There are three jumpers, J15, J21 and J23, available for configuring the various reset

options for the chips. Unless experimentation with reset is required, it is suggested to

use the default configurations highlighted in bold text in the tables below. With these

default settings, pressing the SW1 reset button will reset all three devices (KSZ9897,

KSZ9031 and LAN7801). By changing the jumpers, the effect of SW1 can be limited to

a subset of the three devices.

2.3 CLOCK

The evaluation board utilizes an external clock, DSC400, which provides 25 MHz

25 ppm clock to the KSZ9897, LAN7801 and KSZ9031. It also provides 125 MHz to the

LAN7801.

EVB-KSZ9897 User’s Guide

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2.4 CONFIGURATION

The following sub-sections describe the various board features and configuration set-

tings. A top view of the KSZ9897 is shown in Figure 2-1.

FIGURE 2-1: KSZ9897 TOP VIEW WITH CALLOUTS

KSZ9897

RJ45

(with

Magnetics)

Port5Port1Port2Port3Port4Port6

KSZ9031

LAN7801

Power

Strap

Switch

LAN7801

GPIO

KSZ9897Port6

RGMIIExternal

Access

USB EEPROM

KSZ9031

MIIM

External

Access

KSZ9897Port7

RGMIIExternal

Access

Clock

AARDVARK/SPI/

I2CInterface

Board Details & Configuration

 2017 Microchip Technology Inc. DS50002587A-page 15

2.4.1 Switch Settings

SW4 is an eight-position switch which controls many of the KSZ9897 configuration

strap options. The KSZ9897 samples these signals at the rising edge of RESET_N to

determine some internal settings. Following reset, the configuration of these switches

is irrelevant. For initial bring-up, leave most switches in the OFF/OPEN position.

2.4.1.1 KSZ9897 MANAGEMENT INTERFACE MODE

The management interface can be configured to be SPI, I2C or MIIM (a.k.a.

MDC/MDIO). This is controlled by switches 1 and 7 of SW4.

Tab le 2 -1 details the switch configuration for the management interface mode.

2.4.1.2 OTHER SWITCH SETTINGS

Please refer the device data sheet for the detailed configuration strap settings.

2.4.2 Jumper Settings

Tab le 2 -2 , Ta ble 2 -3 and Tab le 2- 4 describe the jumper settings. The preferred config-

uration is shown in bold text.

TABLE 2-1: MANAGEMENT INTERFACE MODE

SW4.7 (LED4_1) SW4.1(LED3_1) Mode

On On MDIO

On Off I2C

Off Don’t Care SPI

TABLE 2-2: TWO-PIN JUMPERS

Jumper Label Description Open Closed

J16 P6 100 Mbps KSZ9897 Port 6 RGMII speed configu-

ration strap setting. The setting of this

jumper takes effect only after reset. This

setting must match the actual link

speed of port 6.

The KSZ9897 port 6 speed can also be

set via the SPI or I2C interface by writ-

ing to registers 0x6300 (bit 4) and

0x6301 (bit 6). See the data sheet for

details. This method is required when

the port 6 link speed is 10 Mbps.

1000 Mbps 100 Mbps

J18 IBA Enable Enable KSZ9897 In-Band-Manage-

ment (IBA) (Configuration strap)

Disabled

(Default)

Enabled

J28 EEPROM CS Enable external EEPROM for LAN7801 Disabled Enabled

TABLE 2-3: THREE-PIN JUMPERS

Jumper Label Description Jumper 1-2 Jumper 2-3

J6 PWR SEL Board power source: 5V barrel

connector or USB

Power from

barrel jack

USB powered

(not recom-

mended)

J8 VDET SEL LAN7801 USB Vbus detect Board +3.3V Vbus from

USB connec-

tor (Default)

J11 PME Mode

SEL

LAN7801 PME Mode input pin High

(Default)

Low

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2.4.3 SPI, I2C and MIIM Management

External access to the KSZ9031 MIIM bus is available via header J17 as outlined in the

table above. External access to the KSZ9897 (either SPI, I2C or MIIM) is available via

header J22 as outlined in Tab le 2 -4 . If both connections are needed simultaneously, it

will be necessary to remove resistor R95. Please visit Tab le 2- 5 and Table 2-6 for I2C

and SPI connections.

J21 LAN7801

RESET SEL

LAN7801 Reset input source Master SW1

& RC Circuit

(Default)

Alternate RC

circuit

J23 KSZ9897

RESET SEL

KSZ9031 Reset input source Master SW1 &

RC circuit

LAN7801

Reset output

(Default)

J24 KSZ9897

MDIO enable

Install these jumpers to allow the KSZ9897 MIIM interface

(together with the KSZ9031 MIIM interface) to be accessible from

the LAN7801 or from J17. If the KSZ9897 management port is con-

figured for SPI or I2C, do not install these jumpers.

J25 KSZ9897

MDC enable

TABLE 2-4: MULTI-PIN HEADERS

Jumper Label Description Configuration

J15 KSZ9031 RESET

SEL

KSZ9031 Reset input

source 3x2 header

Install a jumper on one of the

three pairs only:

1-2: LAN7801 Reset output

(Default)

3-4: Master SW1 & RC circuit

5-6: Alternate RC circuit

J17 MDIO/MDC ISO KSZ9031 MIIM

(MDC/MDIO) external

access and jumpers 4hx2

header

Install jumpers 3-4 and 5-6 to

access the KSZ9031 MIIM bus

from the LAN7801. (Not cur-

rently available)

For external access to KSZ9031

MIIM bus, install only jumper

2-4, and use pins 1,3,5 and 7

for external connection.

J14 GPIO LAN7801 GPIO pins 8x1

header

Provides access to the GPIO

pins of the LAN7801. No jump-

ers.

J22 AARDVARK KSZ9897 SPI/I2C header

for external access 5x2

header

Supports Aardvark (TTP100005

- Total Phase Aardvark I2C/SPI

Host Adapter) and Cheetah

(TTP100004 - Total Phase

Cheetah SPI Host Adapter)

from Totalphase.

TABLE 2-5: I2C

I2C Signal Connector Pin

SDA J22.3 and/or J22.8

SCL J22.7 (R126 not currently installed)

GND J22.2 and/or J22.10

TABLE 2-3: THREE-PIN JUMPERS (CONTINUED)

Jumper Label Description Jumper 1-2 Jumper 2-3

Board Details & Configuration

 2017 Microchip Technology Inc. DS50002587A-page 17

FIGURE 2-2: SPI/AARDVARK HEADER

TABLE 2-6: SPI

SPI Signal Connector Pin

MISO J22.5

MOSI J22.8

SCK J22.7

SS J22.9

GND J22.2 and/or J22.10

Note: Communication formats and register details are provided in the device data

sheets. Note that SPI or I2C provide access to all KSZ9897 registers, but

MIIM does not. It only provides access to the PHY registers of the switch.

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2.5 USING THE EVB-KSZ9897

The EVB-KSZ9897 board can be used to connect up to 7 Ethernet devices using 6

Ethernet ports and 1 USB port.

For example, connect a PC (PC1) on port 1 and another PC (PC2) to port 2. Configure

both PCs for STATIC IP address using the Ethernet interface’s properties windows.

Then, run a simple PING command to test communication between the two PCs.

Lastly, connect PC2 to the USB port, port 7, on the board.

A user can access the KSZ9897 switch's internal registers by connecting Aardvark

I2C/SPI host adapter to jumper 22. The adapter is available to purchase from

MicrochipDirect.com web site (part number TTP100005).

2.6 MECHANICALS

FIGURE 2-3: KSZ9897 MECHANICAL DIMENSIONS

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

 2017 Microchip Technology Inc. DS50002587A-page 19

Appendix A. EVB-KSZ9897 Evaluation Board

A.1 INTRODUCTION

This appendix shows the EVB-KSZ9897 Evaluation Board.

FIGURE A-1: EVB-KSZ9897 EVALUATION BOARD

EVB-KSZ9897 User’s Guide

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NOTES:

 2017 Microchip Technology Inc. DS50002587A-page 21

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

Appendix B. EVB-KSZ9897 Evaluation Board Schematics

B.1 INTRODUCTION

This appendix shows the EVB-KSZ9897 Evaluation Board Schematics.

EVB-KSZ9897 User’s Guide

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FIGURE B-1: KSZ9897 FUNCTIONAL

LED4_13

LED4_03

LED5_03

LED5_13

LED2_13

LED2_03

LED1_13

LED1_03

6.04k

R108

Strapping Options

LED1_0

LED1_1

LED2_0

LED2_1

LED3_0

LED3_1

LED4_0

LED4_1

LED5_0

LED5_1

KSZ9897R

TXRX1P_A

TXRX1M_A

TXRX1P_B

TXRX1M_B

TXRX1P_C

TXRX1M_C

TXRX1P_D

TXRX1M_D

TXRX2P_A

TXRX2M_A

TXRX2P_B

TXRX2M_B

TXRX2P_C

TXRX2M_C

TXRX2P_D

TXRX2M_D

TXRX3P_A

TXRX3M_A

TXRX3P_B

TXRX3M_B

TXRX3P_C

TXRX3M_C

TXRX3P_D

TXRX3M_D

TXRX4P_A

TXRX4M_A

TXRX4P_B

TXRX4M_B

TXRX4P_C

TXRX4M_C

TXRX4P_D

TXRX4M_D

TX_CLK6/REFCLKI6 48

TX_EN6/TX_CTL6 49

TX_ER6 50

COL6 51

TXD6_3 52

TXD6_2 53

TXD6_1 54

TXD6_0 55

RX_CLK6/REFCLKO6 57

RX_DV6/CRS_DV6/RX_CTL6 58

RX_ER6 59

CRS6 60

RXD6_3 62

RXD6_2 63

RXD6_1 64

RXD6_0 65

TX_CLK7/REFCLKI7 66

TX_EN7/TX_CTL7 67

TX_ER7 68

COL7 69

TXD7_3 70

TXD7_2 71

TXD7_1 72

TXD7_0 73

RX_CLK7/REFCLKO7 75

RX_DV7/CRS_DV7/RX_CTL7 76

RX_ER7 78

CRS7 79

RXD7_3 80

RXD7_2 81

RXD7_1 82

RXD7_0 83

TXRX5P_A

112

TXRX5M_A

113

TXRX5P_B

115

TXRX5M_B

116

TXRX5P_C

117

TXRX5M_C

118

TXRX5P_D

120

TXRX5M_D

121

LED4_0

LED4_1

LED3_0

LED3_1

LED2_0

LED2_1

LED5_0

102

LED5_1

103

LED1_0

105

LED1_1

106

MII/RMII/RGMII

CLK SPI

CONTROL

PME_N 93

INTRP_N 94

CLKO_25__125 95

RESET_N 96

SDO 97

SDI/SDA/MDIO 98

SCS_N 100

SCL/MDC 101

XO 125

XI 126

ISET 127

U3A

PHY_INT_N

PME_N

P1_TXRXA_P3

P1_TXRXA_N3

P1_TXRXB_P3

P1_TXRXB_N3

P1_TXRXC_P3

P1_TXRXC_N3

P1_TXRXD_P3

P1_TXRXD_N3

P2_TXRXA_P3

P2_TXRXA_N3

P2_TXRXB_P3

P2_TXRXB_N3

P2_TXRXC_P3

P2_TXRXC_N3

P2_TXRXD_P3

P2_TXRXD_N3

LED3_13

LED3_03

P3_TXRXA_P3

P3_TXRXA_N3

P3_TXRXB_P3

P3_TXRXB_N3

P3_TXRXC_P3

P3_TXRXC_N3

P3_TXRXD_P3

P3_TXRXD_N3

P4_TXRXA_P3

P4_TXRXA_N3

P4_TXRXB_P3

P4_TXRXB_N3

P4_TXRXC_P3

P4_TXRXC_N3

P4_TXRXD_P3

P4_TXRXD_N3

P5_TXRXA_P3

P5_TXRXA_N3

P5_TXRXB_P3

P5_TXRXB_N3

P5_TXRXC_P3

P5_TXRXC_N3

P5_TXRXD_P3

P5_TXRXD_N3

(default = all LEDs low)

P6_TXD3 4

P6_TXD2 4

P6_TXD1 4

P6_TXD0 4

P6_RXD3 4

P6_RXD2 4

P6_RXD1 4

P6_RXD0 4

P7_TXD3 5

P7_TXD2 5

P7_TXD1 5

P7_TXD0 5

P7_RXD3 5

P7_RXD2 5

P7_RXD1 5

P7_RXD0 5

SW1

VDDIO2v5

"SW Reset"

R40

R39

KSZ9897_25MHZ 5

R106

XI 0R

DNP

R102

DNP

R105

MISO

KSZ_RESET_N

P6_TX_CTL 4

P6_TXC 4

P6_RX_CTL 4

P6_RXC 4

P7_TX_CTL 5

P7_TXC 5

P7_RX_CTL 5

P7_RXC 5

ISET

PHY_INT_N 5

Place all termination close to 9897

MDC 4, 5

MDIO 4, 5

i RGMII

PHY_RESET_N_OUT 4, 5

J23

1-2 Reset from Push Button

2-3 Reset from LAN7801

9897 Reset Select

SW_RESET_N 2, 4, 5

Place Reset ckt close to 9897

P7_RXD3_R

SW_RESET_N 2, 4, 5

TXD

TXD0

RXD

RXD2

RXD1

RXD

TXD3

TXD

TXD0

RXD

RXD2

RXD

P7_RXD

CTL

P7_RX_

P7_RX

RXD3

SCL/MDC

SDA/MDIO

SCS_N

VDDIO2v5

1 2

J16

P7_RXD2_R

P7_RXD1_R

P7_RXD0_R

P7_RXC_R

P7_RX_CTL_R

P6_RXD3_R

P6_RXD2_R

P6_RXD1_R

P6_RXD0_R

P6_RXC_R

P6_RX_CTL_R

R83

VDDIO2v5

1 2

J18

R91

Prt 7: LAN7801

Prt 6: KSZ9031

Optional

15pF

C167

15pF

C168

DNP

25MHz

VDDIO2v5

R81

0.1uF

C45

2 4

VCC

GND

VCC

GND

U14

74LVC1G14GW,125 Br Red

SPI / Aardvark

SDA/MDIO

MISO

SCS_N

0RDNP R126

R127

SCL/MDC

SDA/MDIO

R128 0R

R129

3V3_Board

"9897 SPI Activity"

R96

0.1uF

C31

Blue

2 4

VCC

GND

VCC

GND

74LVC1G14GW,125

10k

R92

VDDIO2v5

10k

DNP

R94

1 2

3 4

5 6

7 8

9 10

J22

Header 5x2 Shrouded

SP_CLK

I2C_SDA

I2C_SCL

22R

R75

22R

R76

22R

R77

22R

R78

22R

R80

22R

R82

22R

R25

22R

R26

22R

R27

22R

R28

22R

R30

22R

R35

LED2_0

LED4_0

LED1_0

LED1_1

LED2_1

LED4_1

LED5_1

7 10

8 9

SW4

SPST 8POS

R100

R104

R98

R99

R101

R109

R113

R103

LED3_1

10k

R45

10uF

6.3V

C73

2.05k

R93

1 2

J24

1 2

J25

SP_MOSI

RGMII layout requirements

1. Match trace legths within 100 mils.

2. RX signals do not need to be length matched to TX signals.

3. Due to KSZ9897 port 6 RGMII setup time requirement, P6_TXC must be

routed for additional 1.2ns delay relative to P6_TXD[3:0] and P6_TX_CTL.

The amount of required extra delay may differ for different VDDIO voltage

or for a different device driving the signals.

4. Alternatively, the additional P6_TXC trace delay is not needed if the

RGMII ingress delay bit is set in the KSZ9897: bit 4 in register 0x6301.

EVB-KSZ9897 Evaluation Board Schematics

 2017 Microchip Technology Inc. DS50002587A-page 23

FIGURE B-2: RJ45 MAGJACK CONNECTORS

GA1 14

GC1

GREEN (LINK/ACT)

SHIELD1 0

GA2 16

GC2

GREEN (Duplex/Collision)

TRD1-

10 TRCT1

12 TRD1+

TRD4-

9TRCT4

7TRD4+

TRD2-

5TRCT2

6TRD2+

TRD3-

2TRCT3

1TRD3+

RJ45 Magjack

GA1 14

GC1

GREEN (LINK/ACT)

SHIELD1 0

GA2 16

GC2

GREEN (Duplex/Collision)

TRD1-

10 TRCT1

12 TRD1+

TRD4-

9TRCT4

7TRD4+

TRD2-

5TRCT2

6TRD2+

TRD3-

2TRCT3

1TRD3+

RJ45 Magjack

GA1 14

GC1

GREEN (LINK/ACT)

SHIELD1 0

GA2 16

GC2

GREEN (Duplex/Collision)

TRD1-

10 TRCT1

12 TRD1+

TRD4-

9TRCT4

7TRD4+

TRD2-

5TRCT2

6TRD2+

TRD3-

2TRCT3

1TRD3+

RJ45 Magjack

GA1 14

GC1

GREEN (LINK/ACT)

SHIELD1 0

GA2 16

GC2

GREEN (Duplex/Collision)

TRD1-

10 TRCT1

12 TRD1+

TRD4-

9TRCT4

7TRD4+

TRD2-

5TRCT2

6TRD2+

TRD3-

2TRCT3

1TRD3+

RJ45 Magjack

LED4_12

LED4_02

LED3_12

LED3_02

LED5_02

LED5_12LED2_12

LED2_02

LED1_12

LED1_02

LED1_1

LED1_0

0.1uF

LED4_1

LED4_0

0.1uF

LED5_1

LED5_0

0.1uF

C10

0.1uF

C12

0.1uF

C14

0.1uF

C16

LED2_1

LED2_0

0.1uF

C11

0.1uF

C13

0.1uF

C15

LED3_1

LED3_0

0.1uF

C22

0.1uF

C23

0.1uF

C24

0.1uF

C25

EARTH_ETH

VDDIO2v5

EARTH_ETH

EARTH_ETHEARTH_ETH

VDDIO2v5

EARTH_ETH

GA1 14

GC1

GREEN (LINK/ACT)

SHIELD1 0

GA2 16

GC2

GREEN (Duplex/Collision)

TRD1-

10 TRCT1

12 TRD1+

TRD4-

9TRCT4

7TRD4+

TRD2-

5TRCT2

6TRD2+

TRD3-

2TRCT3

1TRD3+

RJ45 Magjack

PORT 1

PORT 2

PORT 3

PORT 4

PORT 5

P1_TXRXA_P2

P1_TXRXA_N2

P1_TXRXB_P2

P1_TXRXB_N2

P1_TXRXC_P2

P1_TXRXC_N2

P1_TXRXD_P2

P1_TXRXD_N2

P2_TXRXA_P2

P2_TXRXA_N2

P2_TXRXB_P2

P2_TXRXB_N2

P2_TXRXC_P2

P2_TXRXC_N2

P2_TXRXD_P2

P2_TXRXD_N2

P3_TXRXA_P2

P3_TXRXA_N2

P3_TXRXB_P2

P3_TXRXB_N2

P3_TXRXC_P2

P3_TXRXC_N2

P3_TXRXD_P2

P3_TXRXD_N2

P4_TXRXA_P2

P4_TXRXA_N2

P4_TXRXB_P2

P4_TXRXB_N2

P4_TXRXC_P2

P4_TXRXC_N2

P4_TXRXD_P2

P4_TXRXD_N2

P5_TXRXA_P2

P5_TXRXA_N2

P5_TXRXB_P2

P5_TXRXB_N2

P5_TXRXC_P2

P5_TXRXC_N2

P5_TXRXD_P2

P5_TXRXD_N2

Power

VDDIO2v5

1000 pF

2 kV

C95

100R

R15

EVB-KSZ9897 User’s Guide

DS50002587A-page 24  2017 Microchip Technology Inc.

FIGURE B-3: KSZ9031 FUNCTIONAL

MDIO/Yellow

MDIO/Green

MDC/Orange

GND/Black

AVDDL

AVDDH

AVDDL_PLL

DVDDHDVDDL

P6_RXD3 2, 4

P6_RXD2 2, 4

P6_RXD1 2, 4

P6_RXD0 2, 4

P6_RXC 2, 4

1 2

3 4

5 6

7 8

J17

Header 4x2

10k

R72

Single LED Mode

Default:

short 3-4 &

short 5-6

1-2 Reset from LAN7801

3-4 Reset from Push Button

5-6 Reset from R/C

12.1kR73

EARTH_ETH

PORT 6

LED1

0.1uF

C118

0.1uF

C119

0.1uF

C120

0.1uF

C122

GA1

14 GC1 13

GREEN (LINK/ACT)

SHIELD1

GA2

16 GC2 15

GREEN (Duplex/Collision)

TRD1- 10

TRCT1 12

TRD1+ 11

TRD4- 9

TRCT4 7

TRD4+ 8

TRD2- 5

TRCT2 6

TRD2+ 4

TRD3- 2

TRCT3 1

TRD3+ 3

J20

RJ45 Magjack

LED2

220R

FB14

220R

FB16

2V5_Board

4.7uF

6.3V

C108

0.1μF

35V

C110

0.1μF

35V

C109

4.7uF

6.3V

C123

0.1μF

35V

C125

0.1μF

35V

C124

220R

FB11

1V2_Board

4.7uF

6.3V

C106

0.1μF

35V

C107

AVDDL

AVDDL_PLL

220R

FB15

4.7uF

6.3V

C111

0.1μF

35V

C113

0.1μF

35V

C112

DVDDL

0.1μF

35V

C115

0.1μF

35V

C114

0.1μF

35V

C117

0.1μF

35V

C116

AVDDH

220R

FB17

4.7uF

6.3V

C126

0.1μF

35V

C128

0.1μF

35V

C127

0.1μF

35V

C129

DVDDH

9031 Reset Select

KSZ9031_25MHZ5

10k

R65

10k

R66

10k

R64

10k

R68

DNP

R70

DNP

R71

Mode3 Mode2 Mode1 Mode0

Mode [3:0] Description

1100 1000BT Full-duplex only (RGMII)

1101 1000BT Full and half duplex mode (RGMII)

1110 10/100/1000BT Full duplex mode (RGMII)

1111 10/100/1000BT Full and half mode (RGMII)

R79

CLK125_EN

PD=Disable

R74

DVDDH

Power

EARTH6

AVDDH

DVDDH

AVDDL

AVDDL_PLL

DVDDL

Optional

R32

DNP

R38

DNP

R33

9031_XIXI_R

XO_R

DNP

1 2

3 4

5 6

7 8

9 10

11 12

J12

Port 6 RGMII (TX)

Port 6 RGMII (RX)

P6_TXD32, 4

P6_TXD22, 4 P6_TXD12, 4 P6_TXD02, 4

Place Reset ckt close to 9031

Place termination close to 9031

1 2

3 4

5 6

J15

SW_RESET_N2, 5

PHY_RESET_N_OUT2, 5

1.0μF

C17

100k

R69

15pF

C130

15pF

C131

CLK125_E

PD=D

ble

9031_MDIO 9031_MDIO

9031_LED2LED2

9031_LED1LED1

P6_TXRXD_P

P6_TXRXA_P

P6_TXRXA_N

P6_TXRXB_N

P6_TXRXC_P

P6_TXRXB_P

P6_TXRXC_N

P6_TXRXD_N

9031_XO

9031_RESET_N

P6_RX_CTL 2, 4

R48

P6_TXD3 2, 4

P6_TXD2 2, 4

P6_TXD2_R

P6_TXD3_R

R42

R41

R34

R20

P6_TX_CTL_R

P6_TXD0_R

P6_TXD1_R

9031_MDC

P6_TXC_R P6_TXC 2, 4

P6_TXD0 2, 4

P6_TXD1 2, 4

P6_TX_CTL 2, 4

9031_MDC MDC 2, 5

MDIO 2, 5

LED_MODE

RGMII

10k

R85

10k

R86

DNP

R88

DNP

R90

9031_LED2 9031_LED1

PHYAD2 PHYAD1 PHYAD0

P6_TXC2, 4

10k

R84

Address: 111

P6_RX_CTL2, 4

P6_RXC2, 4

P6_RXD32, 4

P6_RXD22, 4

P6_RXD12, 4

P6_RXD02, 4

DNP

910

1112

J10

P6_TX_CTL2, 4

P6_TXC2, 4

P6_TXD32, 4

P6_TXD22, 4

P6_TXD12, 4

P6_TXD02, 4

DNP

25MHz

KSZ9031RNXCC

AVDDH

TXRAP_A

TXRAM_A

AVDDL

TXRXM_B

6TXRXP_B

TXRXP_C

TXRXM_C

AVDDL

TXRXP_D

TXRXM_D

AVDDH

DVDDL

LED2/PHYAD1

DVDDH

LED1/PHYAD0/PME_N1

DVDDL

TXD0

TXD1

TXD2

TXD3

DVDDL

GTX_CLK

TX_EN 25

DVDDL 26

RXD3/MODE3 27

RXD2/MODE2 28

VSS 29

DVDDL 30

RXD1/MODE1 31

RXD0/MODE0 32

RX_DV/CLK125_EN 33

DVDDH 34

RX_CLK/PHYAD2 35

MDC 36

MDIO 37

INT_N/PME_N2 38

DVDDL 39

DVDDH 40

CLK125O/LED_MODE 41

RESET_N 42

LDO_O 43

AVDDL_PLL 44

XO 45

XI 46

NC 47

ISET 48

P_GND 49

KSZ9031RNXCC

Paddle Ground (Chip Bottom)

(QFN48)

2.05k

R24

DVDDH

100R

R87

100R

R124

R49

12pF

R89

R49 is reduced to 0 ohms, and capacitor is

installed at R89 to improve P6_TXD3 setup

time at KSZ9897 relative to P6_TXC.

Reason: P6_TXC is routed 5 inches longer than

the other P6_TX signals on this board, but this

added delay is insufficient.

See note on sheet 2 about KSZ9897 port 6

RGMII signal routing.

EVB-KSZ9897 Evaluation Board Schematics

 2017 Microchip Technology Inc. DS50002587A-page 25

FIGURE B-4: LAN7801 64QFN FUNCTIONAL

12k

R23

R19

1uF

16V

C136

VDDVARIO

J11

10k

R29

TP4

Mini Black

PME Mode Sel

10k

R50

MDC2, 4

MDIO2, 4

PHY_INT_N2

10k

R67

R44

DNP

R46

REF_REXT

REF_FILT

LAN7801_RESET_N

XTAL1

XTAL2

USBRBIAS

VBUS_DET

XTAL1

XTAL2

TEST

EECS/GPIO0

EEDI/GPIO1

EEDO/GPIO2

EECLK/GPIO3

RXD1 15

REF_REXT 1

REF_FILT 2

RESET_N/PME_CLEAR

GPIO7/TDI

GPIO8/TCK

GPIO9/TMS

GPIO10/TDO

SUSPEND_N 30

DUPLEX 33

GPIO4

PME_MODE/GPIO5

RXD2 16

RXD3 17

PHY_INT_N

PHY_RESET_N

MDIO

MDC

TXD3 4

TXD2 5

TXD1 6

TXD0 8

TX_CTL 9

TXC 10

RXC 12

RX_CTL 13

RXD0 14

REF_CLK25/GPIO11 61

CLK125 19

PME_N/GPIO6/<USBATEST>

USBRBIAS

USBDP

USBDM

TXP

TXN

RXP

RXN

U1A

LAN7801/RGMII_QFN64

TEST

DNP

R36

DSC400-1111Q0085KI1

2.3MHz - 460MHz

VDD2 9

VSS

OE1

VSS

CLK0-

CLK0+

6CLK1- 7

CLK1+ 8

VDD1

VSS 13

VSS 14

OE2 11

CLK2- 15

CLK2+ 16

CLK3-

CLK3+

FSB1

20 FSB2 10

NC 12

ePAD

DNP

R43

0.1μF

C26

0.1μF

C19

10k

DNP

R11 10k

DNP

R12

R31

LAN7801_25MHz

GPIO4

GPIO5

GPIO6

GPIO7

GPIO8

GPIO9

GPIO10

R14

Vbus 1

D- 2

D+ 3

GND1 4

SSTX- 5

SSTX+ 6

GND2 7

SSRX- 8

SSRX+ 9

SH2

SH1

USB3 STANDARD B RECEPTACLE

3V3_Board

2.2uF

C33

SSTX_P

SSTX_N

0.1uF

C35

0.1uF

C36

0.1μF

35V

C41

330R

R37

Vbus Detect Sel

R13

Br Grn

D12

"VBus Detect"

3V3_Board

2.1 mm

5V (typ)

SW2

TOGGLE SWITCH

5V_Board

0.1μF

35V

C18

20R

0603

R10

2A FUSE_SMF

5V Pwr Off/On

Self/Bus Pwr Sel

5V_Barrel 5V_Barrel_F

5V_Barrel_Sw

5V_Barrel

5V_Barrel_F

5V_Barrel_Sw

VBUS

Power

Barrel

Barre

USB2D_P

USB2D_N

USB3RX_P

USB3RX_N

USB3TX_P

USB3TX_N

20k

R17

10k

R16

10k

DNP

R18

CLK125

VBUS_DET

40.2k

R21

0.1μF

C27

PORT 7

EARTH7

LAN7801_EECLK

LAN7801_EEDO

LAN7801_EEDI

LAN7801_EECS

VDDVARIO

10k

R22

SW_RESET_N2, 4

1-2 Reset from Push Button

2-3 Reset from R/C

LAN7801 Reset Select

J21

VDDVARIO

0.1uF

C135

100k

R114

EARTH7

R111

R107

Optional

R110

3V3_Board

"LAN7801 EEPROM Activity"

R112

0.1uF

C134

EEPROM CS

LAN7801_EECS_J

LAN7801_EEDI

LAN7801_EEDO

LAN7801_EECLK

P7_TX_CTL2, 5

P7_TXD32, 5

P7_TXD22, 5

P7_TXD12, 5

P7_TXD02, 5

P7_TXC2, 5

DNP

1 2

3 4

5 6

7 8

9 10

11 12

J19

P7_RX_CTL2, 5

P7_RXD32, 5

P7_RXD22, 5

P7_RXD12, 5

P7_RXD02, 5

P7_RXC2, 5

P7_RXD3 2, 5

P7_RXD2 2, 5

P7_RXD1 2, 5

P7_RXD0 2, 5

P7_RX_CTL 2, 5

P7_RXC 2, 5

P7_TXD3 2, 5

P7_TXD2 2, 5

P7_TXD1 2, 5

P7_TXD0 2, 5

P7_TX_CTL 2, 5

P7_TXC 2, 5

Port 7 RGMII (TX)

Port 7 RGMII (RX)

VBUS

DNP

25MHz

R117

R118

R119

R120

R115

R116

2 4

VCC

GND

VCC

GND

U10

74LVC1G14GW,125

PHY_RESET_N_OUT2, 4

Place Reset ckt close to 7801

12 J28

Blue

15pF

C39

15pF

C43

P7_TXD3_R

P7_TXD2_R

P7_TXD1_R

P7_TXD0_R

P7_TX_CTL_R

P7_TXC_R

RXD

, 5

RXD2

, 5

RXD

RXD0

CTL

, 5

TXD

, 5

TXD

, 5

TXD

CTL

TXC

, 5

R117

R118

R119

R120

R115

R116

TXD3

P7_TXD

TXD1

TXD

CTL

TXC

RGMII

3V3_Board

"LAN7801 Suspend"

0.1uF

C32

2 4

VCC

GND

VCC

GND

74LVC1G14GW,125

SUSPEND_N

YELLOW

D5 330R

R122

XTAL1_R

XTAL2_R

2 4

VCC

GND

VCC

GND

U15

74LVC1G14GW,125

CS 1

DO 4

DI 3

VSS

5CLK 2

ORG

VCC

93AA66C-I/SN

0.1uF

25V

C20

VDDVARIO

10k

R51

KSZ9031_25MHZ4LAN7801_25MHz

CLK125 KSZ9897_25MHZ 2

DNP

910

1112

J13

J14

2V5_Board

USB3 Signal pairs are swapped for better

routin

EVB-KSZ9897 User’s Guide

DS50002587A-page 26  2017 Microchip Technology Inc.

FIGURE B-5: LAN7801 / KSZ9897 POWER & REGULATORS

0.1μF

35V

C140

0.1μF

35V

C141

0.1μF

35V

C142

0.1μF

35V

C138

0.1μF

35V

C139

0.1μF

35V

C48

1uF

16V

C40

0.1μF

35V

C21

0.1μF

35V

C137

0.1μF

35V

C37

0.1μF

35V

C38

0.1μF

35V

C42

0.1μF

35V

C34

0.1μF

35V

C28

0.1μF

35V

C47

4.7uF

6.3V

0603

C29

1uF

16V

C44

4.7uF

6.3V

0603

DNP

C30

TP2

Mini Black

DNP

TP10

Mini Orange

DNP

TP17

Mini Orange

VDD12PLLA0

Power

FID1 FID2

FID3 FID4

FID5 FID6

VSS 65

VDDVARIO

VDD12_SW_OUT 20

VDD33_SW_IN 21

VDD12_SW_FB 22

VDDVARIO

VDD12CORE

VDDVARIO

VDD12A

VDD33A

VDD12A

VDD25_REG_OUT 63

VDD33_REG_IN 64

nc 34

VDD12CORE

U1B

LAN7801/RGMII_QFN64

MCP16311T-E/MNY

AGND

8PGND

VIN

VFB 1

BOOST 7

VCC 2

SW 6

5V_Board TP7

Mini Red 0.1μF

35V

C46

10k

R55

3V3_FB

3V3_SW

3V3_Board

R54

"3.3V Board"

TP1

Mini White

Br Grn

VCC1

TP5

Mini Black

MCP16311T-E/MNY

AGND

8PGND

VIN

VFB 1

BOOST 7

VCC 2

SW 6

5V_Board

0.1μF

35V

C64

10k

R59

2V5_FB

2V5_SW

2V5_Board

VCC2

Orange

TP3

31.6k

R53

1 %

21.5K

R58

0.1μF

35V

DNP

C87

15uH

10uF

25V

C49

10uF

25V

C60

10uF

25V

C61

10uF

25V

C62

1uF

C63

3.3V @ 1A Output

2.5V @ 1A Output

10uF

25V

C76

10uF

25V

C85

10uF

25V

C88

10uF

25V

C89

1uF

C90

15uH

220R

FB5

1V2_Board

3V3_Board

VDD33_REG_IN

VDD12_SW_IN / FB

3V3_Board

VDD25_REG_OUT

2V5_Board VDDVARIO

0.1uF

C55

0.1uF

C56

0.1uF

C57

0.1uF

C58

0.1uF

C59

0.1uF

C54

0.1uF

C53

0.1uF

C52

0.1uF

C51

0.1uF

C69

0.1uF

C70

0.1uF

C71

0.1uF

C68

0.1uF

C67

0.1uF

C66

0.1uF

C65

0.1uF

C80

0.1uF

C81

0.1uF

C82

0.1uF

C83

0.1uF

C84

0.1uF

C79

0.1uF

C78

0.1uF

C77

0.1uF

C72

0.1uF

C143

1uF

C50

1uF

C75

AVDDL

AVDDH

DVDDL

AVDDL

AVDDH

DVDDL

AVDDL

AVDDH

AVDDL

AVDDH

DVDDL

GND 46

GND 47

DVDDL

VDDIO 61

DVDDL

VDDIO 77

GND 84

DVDDL

nu 90

VDDIO 99

DVDDL

104

GND 107

nc 108

GND 109

DVDDL

110

AVDDH

111

AVDDL

114

AVDDL

119

AVDDH

122

GND 123

AVDDL

124

AVDDH

128

ePAD 129

2.5V ANALOG 1.2V ANALOG1.2V DIGITAL

KSZ9897R

U3B

220R

FB8

2V5_Board

220R

FB13

220R

FB12

1V2_Board

220R

FB4

VDDIO2v5

0.1uF

C144

5V_Board

3V3_Board

2V5_Board

1V2_Board

VDDVARIO

VDD33_REG_IN

VDD12_SW_IN / FB

VDD25_REG_OUT

VDD12PLLA0

VDDIO2v5

3V3_SW 2V5_SW 1V2_SW

MH4MH3MH2MH1

R47

R125

R123

AVDDL1v2

AVDDH2v5

DVDDL1v2

AVDDL1v2

AVDDH2v5

DVDDL1v2

1uF

16V

C132

10uF

6.3V

C86

10uF

6.3V

C74

10uF

6.3V

C96

1V2_Board

1.235V @ 2A Output

TP6

Mini Yellow

TP8

Mini Black

GND

BS 4

FB 5

MIC4684YM-TR

VIN

SW 1

GND

47μF

25V

C92

B340A

MBRX140

0.33uF

50V

C91

330uF

6.3V

TANT-D

C93

0.1uF

C94

1V2_SW

1V2_BS

1V2_FB

5V_Board

R56

DNP

R60

R52

0.1μF

35V

DNP

C98

0.1μF

35V

DNP

C97

4.7k

R57

27uH

10k

R61

 2017 Microchip Technology Inc. DS50002587A-page 27

EVB-KSZ9897

EVALUATION BOARD

USER’S GUIDE

Appendix C. Bill of Materials (BOM)

C.1 INTRODUCTION

This appendix includes the EVB-KSZ9897 Evaluation Board Bill of Materials (BOM).

EVB-KSZ9897 User’s Guide

DS50002587A-page 28  2017 Microchip Technology Inc.

TABLE C-1: EVB-KSZ9897 EVALUATION BOARD BILL OF MATERIALS

Item Qty Reference Description Populated Manufacturer Manufacturer Part Number

1 56 C1, C2, C3, C4, C5, C6, C7, C8,

C9, C10, C11, C12, C13, C14,

C15, C16, C22, C23, C24, C25,

C31, C32, C45, C51, C52, C53,

C54, C55, C56, C57, C58, C59,

C65, C66, C67, C68, C69, C70,

C71, C72, C77, C78, C79, C80,

C81, C82, C83, C84, C94, C118,

C119, C120, C122, C134, C143,

C144

CAP CER 0.1uF 50V 10% X7R SMD 0402 YES TDK Corporation C1005X7R1H104K050BB

2 1 C17 CAP CER 1UF 50V 10% X7R 0603 YES Taiyo Yuden UMK107AB7105KA-T

3 35 C18, C19, C21, C26, C27, C28,

C34, C37, C38, C41, C42, C46,

C47, C48, C64, C107, C109,

C110, C112, C113, C114, C115,

C116, C117, C124, C125, C127,

C128, C129, C137, C138, C139,

C140, C141, C142

CAP CER 0.1UF 35V X5R 0402 YES TDK Corporation C1005X5R1V104M050BB

4 2 C20, C135 CAP CER 0.1uF 25V 10% X7R SMD 0603 YES Murata GRM188R71E104KA01D

5 6 C29, C106, C108, C111, C123,

C126

CAP CER 4.7uF 6.3V 20% X5R SMD 0603 YES Panasonic ECJ-1VB0J475M

6 1 C33 CAP CER 2.2uF 6.3V 10% X7R SMD 0603 YES TDK C1608X7R0J225K

7 2 C35, C36 CAP CER 0.1uF 10V 10% X5R SMD 0402 YES KEMET C0402C104K8PACTU

8 6 C39, C43, C130, C131, C167,

C168

CAP CER 15pF 50V 5% NP0 SMD 0402 YES Murata GRM1555C1H150JA01D

9 4 C40, C44, C132, C136 CAP CER 1uF 16V 10% X5R SMD 0603 YES AVX 0603YD105KAT2A

10 8 C49, C60, C61, C62, C76, C85,

C88, C89

CAP CER 10uF 25V 10% X5R SMD 0805 YES Murata GRM21BR61E106KA73L

11 2 C50, C75 CAP CER 1uF 16V 10% X5R SMD 0402 YES TDK Corporation C1005X5R1C105K

12 2 C63, C90 CAP CER 1UF 35V 10% X5R SMD 0402 YES Murata Electronics North America GRM155R6YA105KE11D

13 4 C73, C74, C86, C96 CAP CER 10uF 6.3V 20% X5R SMD 0603 YES AVX 06036D106MAT2A

14 1 C91 CAP CER 0.33uF 50V 10% X7R SMD 0805 YES TDK Corporation C2012X7R1H334K125AA

15 1 C92 CAP CER 47UF 25V X5R 1206 YES TDK Corporation C3216X5R1E476M160AC

16 1 C93 CAP TANT 330uF 6.3V 20% 45mOhm SMD D YES KEMET T520D337M006ATE045

17 1 C95 CAP CER 1000PF 2KV 1808 YES Murata GR442QR73D102KW01L

Bill of Materials (BOM)

 2017 Microchip Technology Inc. DS50002587A-page 29

18 1 R89 CAP CER 12pF 50V 5% NP0 SMD 0603 YES Panasonic ECJ-1VC1H120J

19 1 D1 DIO SCTKY MBRX140-TP 550mV 1A 40V SMD SOD-123 YES Micro Commercial Co MBRX140-TP

20 2 D2, D12 LED, Bright Green, 0603 YES Lite-On LTST-C191KGKT

21 2 D3, D4 LED, Blue, 0603 YES Kingbright APT1608VBC/D

22 1 D5 DIO LED YELLOW 2.1V 20mA 14mcd Diffuse SMD 0603 YES Lumex sml-lx0603yw

23 1 D6 LED, Bright Red, 0603 YES Lite-On LTST-C191KRKT

24 1 D7 DIO SCTKY B340A 500mV 3A 40V DO-214AC_SMA YES Diodes Incorporated B340A-13-F

25 1 F1 Surface Mount Fuses Fuseblock w/ fuse 2A OMNI BLOK

154

YES Littelfuse 0154002.DR

26 10 FB4, FB5, FB8, FB11, FB12,

FB13, FB14, FB15, FB16, FB17

FERRITE 2A 220R SMD 0805 YES Murata Electronics North America BLM21PG221SN1D

27 6 J1, J2, J3, J4, J5, J20 CON MODULAR RJ45 MAGJACK TH R/A YES Amphenol Commercial Products RJMG2012211A0FR

28 3 J6, J8, J11 HDR 3POS .100" SGL GOLD YES Samtec Inc. TSW-103-07-G-S

29 1 J7 CONN PWR JACK 2.5X5.5MM HIGH CUR YES CUI Inc. PJ-002AH

30 1 J9 CONN RCPT USB TYPE B 3.0 R/A YES Wurth Electronics Inc 6.92221E+11

31 1 J14 CON HDR-2.54 MALE 1x8 GOLD 5.84MH TH VERT YES Samtec TSW-108-07-G-S

32 1 J15 CONN HEADER 6POS .100" DUAL GOLD YES Samtec TSW-103-07-G-D

33 4 J16, J18, J24, J25 CON HDR-2.54 MALE 1x2 GOLD 5.84MH TH VERT YES Samtec TSW-102-07-G-S

34 1 J17 CON HDR-2.54 Male 2x3 Gold 5.84MH TH VERT YES Samtec TSW-104-07-G-D

35 2 J21, J23 CON HDR-2.54 MALE 1x3 GOLD 5.84MH TH VERT YES Samtec TSW-103-07-G-S

36 1 J28 HDR 2POS .100" SGL GOLD YES Samtec Inc. TSW-102-07-G-S

37 1 L1 IND 27uH 20 % 2.35A SMD YES Bourns SRR1240-270M

38 2 L2, L3 INDUCTOR 15uH 1.16A 20% SMD MSS6132 YES Coilcraft MSS6132-153ML

39 12 R1, R2, R3, R4, R5, R6, R7, R8,

R9, R15, R87, R124

RES TKF 100R 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ101V

40 1 R10 RES TKF 20R 5% 1/10W SMD 0603 YES NIC Components NRC06J200TRF

41 2 R13, R54 RES 1k 5% 1/10W SMD 0603 YES Panasonic Electronic Components ERJ-3GEYJ102V

42 16 R14, R31, R32, R44, R47, R52,

R56, R106, R107, R110, R111,

R123, R125, R127, R128, R129

RES TKF 0R 1/10W SMD 0603 YES Panasonic ERJ-3GEY0R00V

43 1 R49 RES TKF 0R SMD 0402 YES Panasonic ERJ-2GE0R00X

44 15 R16, R22, R29, R50, R51, R61,

R64, R65, R66, R67, R68, R72,

R84, R85, R86

RES TKF 10k 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ103V

45 1 R17 RES TKF 20k 5% 1/10W SMD 0603 YES Panasonic ERJ-3GSYJ203

TABLE C-1: EVB-KSZ9897 EVALUATION BOARD BILL OF MATERIALS (CONTINUED)

Item Qty Reference Description Populated Manufacturer Manufacturer Part Number

EVB-KSZ9897 User’s Guide

DS50002587A-page 30  2017 Microchip Technology Inc.

46 1 R19 RES TKF 2k 1% 1/10W SMD 0603 YES Panasonic ERJ-3EKF2001V

47 11 R20, R34, R41, R42, R48, R115,

R116, R117, R118, R119, R120

RES 22ohm 5% 1/10W SMD 0402 YES Panasonic ERJ-2GEJ220X

48 1 R21 RES TKF 40.2k 1% 1/16W SMD 0603 YES Panasonic Electronic Components ERJ-3EKF4022V

49 1 R23 RES TKF 12k 1% 1/10W SMD 0603 YES Yageo RC0603FR-0712KL

50 2 R24, R93 RES TKF 2.05k 1% 1/10W SMD 0603 YES Yageo RC0603FR-072K05L

51 12 R25, R26, R27, R28, R30, R35,

R75, R76, R77, R78, R80, R82

RES TKF 22R 1% 1/10W SMD 0603 YES Yageo RC0603FR-0722RL

52 1 R37 RES TKF 330R 5% 1/10W SMD 0603 YES Panasonic Electronic Components ERJ-3GEYJ331V

53 17 R39, R40, R74, R79, R81, R83,

R91, R96, R98, R99, R100,

R101, R103, R104, R109, R112,

R113

RES TKF 1k 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ102V

54 2 R45, R92 RES TKF 10k 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ103V

55 1 R53 RES TKF 31.6K 1% 1/10W SMD 0603 YES Panasonic Electronic Components ERJ-3EKF3162V

56 2 R55, R59 RES TKF 10k 1% 1/10W SMD 0603 YES NIC Components NRC06F1002TRF

57 1 R57 RES TKF 4.7k 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ472V

58 1 R58 RES TKF 21.5K 1% 1/10W SMD 0603 YES Panasonic ERJ-3EKF2152V

59 2 R69, R114 RES TKF 100k 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ104V

60 1 R73 RES 12.1K 1% 1/10W 0603 YES Panasonic Electronic Components ERJ-3EKF1212V

61 1 R108 RES TKF 6.04k 1% 1/10W SMD 0603 YES Yageo 9T06031A6041FBHFT

62 1 R122 RES TKF 330R 5% 1/10W SMD 0603 YES Panasonic ERJ-3GEYJ331V

63 1 SW1 Tactile Switch SPST-NO Top Actuated Surface Mount YES C&K PTS810 SJM 250 SMTR LFS

64 1 SW2 Slide Switch SPDT Through Hole YES C&K 1101M2S3CQE2

65 1 SW4 SWITCH SLIDE SPST 24V 100mA 1825058-9EXT ACT

8POS 24V

YES TE Connectivity Alcoswitch

Switches

1-1825058-9

66 1 TP1 TEST POINT PC MINI .040"D WHITE YES Keystone Electronics 5002

67 4 TP2, TP4, TP5, TP8 TEST POINT PC MINI .040"D BLACK YES Keystone Electronics 5001

68 1 TP3 TEST POINT PC MINI .040"D ORANGE YES Keystone Electronics 5003

69 1 TP6 TEST POINT PC MINI .040"D YELLOW YES Keystone Electronics 5004

70 1 TP7 TEST POINT PC MINI .040"D RED YES Keystone Electronics 5000

71 5 U2, U9, U10, U14, U15 74LVC1G14GW,125 SCHMITT-TRG INVERTER YES NXP 74LVC1G14GW,125

72 1 U1 Edinburgh LAN7801/RGMII pinout, QFN64 YES Microchip LAN7801/RGMII_QFN64

TABLE C-1: EVB-KSZ9897 EVALUATION BOARD BILL OF MATERIALS (CONTINUED)

Item Qty Reference Description Populated Manufacturer Manufacturer Part Number

Bill of Materials (BOM)

 2017 Microchip Technology Inc. DS50002587A-page 31

73 1 U3 IC, 7-Port Gigabit Ethernet Switch with 2 RGMII / MII /

RMII Interfaces, TQFP128

YES Microchip Technology KSZ9897RTXC

74 1 U4 IC EEPROM 4KBIT 3MHZ 8SOIC YES Microchip Technology 93AA66C-I/SN

75 2 U5, U6 IC REG BUCK SYNC ADJ 1A 8TDFN YES Microchip Technology MCP16311T-E/MNY

76 1 U7 IC REG BUCK ADJ 2A 8SOIC YES Micrel Inc MIC4684YM-TR

77 1 U8 KSZ9031RNXCC Gigabit Ethernet PHY with RGMII YES Microchip KSZ9031RNXCC

78 1 J22 HDR 10POS .100" DUAL SHROUDED YES Adam Tech BHR-10-VUA

79 1 X1 OSC MEMS CONFIGURABLE FOUR OUTPUT YES Microchip Technology DSC400-1111Q0085KI1

80 0 C30 CAP CER 4.7uF 6.3V 20% X5R SMD 0603 NO Panasonic ECJ-1VB0J475M

81 0 C87, C97, C98 CAP CER 0.1UF 35V X5R 0402 NO TDK Corporation C1005X5R1V104M050BB

82 0 J10, J12, J13, J19 CON HDR-2.54 Male 2x5 Gold 5.84MH TH VERT NO Samtec Inc TSW-106-07-G-D

83 0 R11, R12, R18, R94 RES TKF 10k 5% 1/10W SMD 0603 NO Panasonic ERJ-3GEYJ103V

84 0 R33, R36, R38, R43, R46, R60,

R102, R105, R126

RES TKF 0R 1/10W SMD 0603 NO Panasonic ERJ-3GEY0R00V

85 0 R70, R71, R88, R90 RES TKF 1k 5% 1/10W SMD 0603 NO Panasonic ERJ-3GEYJ102V

86 0 TP10, TP17 TEST POINT PC MINI .040"D ORANGE NO Keystone Electronics 5003

87 0 Y1, Y2, Y3 Crystal 25MHz 10pF SMD 4Pin DFN LCC NO Abracon ABM8G-25.000MHZ-B4Y-T

TABLE C-1: EVB-KSZ9897 EVALUATION BOARD BILL OF MATERIALS (CONTINUED)

Item Qty Reference Description Populated Manufacturer Manufacturer Part Number

DS50002587A-page 32  2017 Microchip Technology Inc.

AMERICAS

Corporate Office

2355 West Chandler Blvd.

Chandler, AZ 85224-6199

Tel: 480-792-7200

Fax: 480-792-7277

Technical Support:

http://www.microchip.com/

support

Web Address:

www.microchip.com

Atlanta

Duluth, GA

Tel: 678-957-9614

Fax: 678-957-1455

Austin, TX

Tel: 512-257-3370

Boston

Westborough, MA

Tel: 774-760-0087

Fax: 774-760-0088

Chicago

Itasca, IL

Tel: 630-285-0071

Fax: 630-285-0075

Dallas

Addison, TX

Tel: 972-818-7423

Fax: 972-818-2924

Detroit

Novi, MI

Tel: 248-848-4000

Houston, TX

Tel: 281-894-5983

Indianapolis

Noblesville, IN

Tel: 317-773-8323

Fax: 317-773-5453

Tel: 317-536-2380

Los Angeles

Mission Viejo, CA

Tel: 949-462-9523

Fax: 949-462-9608

Tel: 951-273-7800

Raleigh, NC

Tel: 919-844-7510

New York, NY

Tel: 631-435-6000

San Jose, CA

Tel: 408-735-9110

Tel: 408-436-4270

Canada - Toronto

Tel: 905-695-1980

Fax: 905-695-2078

ASIA/PACIFIC

Asia Pacific Office

Suites 3707-14, 37th Floor

Tower 6, The Gateway

Harbour City, Kowloon

Hong Kong

Tel: 852-2943-5100

Fax: 852-2401-3431

Australia - Sydney

Tel: 61-2-9868-6733

Fax: 61-2-9868-6755

China - Beijing

Tel: 86-10-8569-7000

Fax: 86-10-8528-2104

China - Chengdu

Tel: 86-28-8665-5511

Fax: 86-28-8665-7889

China - Chongqing

Tel: 86-23-8980-9588

Fax: 86-23-8980-9500

China - Dongguan

Tel: 86-769-8702-9880

China - Guangzhou

Tel: 86-20-8755-8029

China - Hangzhou

Tel: 86-571-8792-8115

Fax: 86-571-8792-8116

China - Hong Kong SAR

Tel: 852-2943-5100

Fax: 852-2401-3431

China - Nanjing

Tel: 86-25-8473-2460

Fax: 86-25-8473-2470

China - Qingdao

Tel: 86-532-8502-7355

Fax: 86-532-8502-7205

China - Shanghai

Tel: 86-21-3326-8000

Fax: 86-21-3326-8021

China - Shenyang

Tel: 86-24-2334-2829

Fax: 86-24-2334-2393

China - Shenzhen

Tel: 86-755-8864-2200

Fax: 86-755-8203-1760

China - Wuhan

Tel: 86-27-5980-5300

Fax: 86-27-5980-5118

China - Xian

Tel: 86-29-8833-7252

Fax: 86-29-8833-7256

ASIA/PACIFIC

China - Xiamen

Tel: 86-592-2388138

Fax: 86-592-2388130

China - Zhuhai

Tel: 86-756-3210040

Fax: 86-756-3210049

India - Bangalore

Tel: 91-80-3090-4444

Fax: 91-80-3090-4123

India - New Delhi

Tel: 91-11-4160-8631

Fax: 91-11-4160-8632

India - Pune

Tel: 91-20-3019-1500

Japan - Osaka

Tel: 81-6-6152-7160

Fax: 81-6-6152-9310

Japan - Tokyo

Tel: 81-3-6880- 3770

Fax: 81-3-6880-3771

Korea - Daegu

Tel: 82-53-744-4301

Fax: 82-53-744-4302

Korea - Seoul

Tel: 82-2-554-7200

Fax: 82-2-558-5932 or

82-2-558-5934

Malaysia - Kuala Lumpur

Tel: 60-3-6201-9857

Fax: 60-3-6201-9859

Malaysia - Penang

Tel: 60-4-227-8870

Fax: 60-4-227-4068

Philippines - Manila

Tel: 63-2-634-9065

Fax: 63-2-634-9069

Singapore

Tel: 65-6334-8870

Fax: 65-6334-8850

Taiwan - Hsin Chu

Tel: 886-3-5778-366

Fax: 886-3-5770-955

Taiwan - Kaohsiung

Tel: 886-7-213-7830

Taiwan - Taipei

Tel: 886-2-2508-8600

Fax: 886-2-2508-0102

Thailand - Bangkok

Tel: 66-2-694-1351

Fax: 66-2-694-1350

EUROPE

Austria - Wels

Tel: 43-7242-2244-39

Fax: 43-7242-2244-393

Denmark - Copenhagen

Tel: 45-4450-2828

Fax: 45-4485-2829

Finland - Espoo

Tel: 358-9-4520-820

France - Paris

Tel: 33-1-69-53-63-20

Fax: 33-1-69-30-90-79

France - Saint Cloud

Tel: 33-1-30-60-70-00

Germany - Garching

Tel: 49-8931-9700

Germany - Haan

Tel: 49-2129-3766400

Germany - Heilbronn

Tel: 49-7131-67-3636

Germany - Karlsruhe

Tel: 49-721-625370

Germany - Munich

Tel: 49-89-627-144-0

Fax: 49-89-627-144-44

Germany - Rosenheim

Tel: 49-8031-354-560

Israel - Ra’anana

Tel: 972-9-744-7705

Italy - Milan

Tel: 39-0331-742611

Fax: 39-0331-466781

Italy - Padova

Tel: 39-049-7625286

Netherlands - Drunen

Tel: 31-416-690399

Fax: 31-416-690340

Norway - Trondheim

Tel: 47-7289-7561

Poland - Warsaw

Tel: 48-22-3325737

Romania - Bucharest

Tel: 40-21-407-87-50

Spain - Madrid

Tel: 34-91-708-08-90

Fax: 34-91-708-08-91

Sweden - Gothenberg

Tel: 46-31-704-60-40

Sweden - Stockholm

Tel: 46-8-5090-4654

UK - Wokingham

Tel: 44-118-921-5800

Fax: 44-118-921-5820

Worldwide Sales and Service

11/07/16