Board_Users_Manual_XMC4700_XMC4800_Relax_Kit_Series V1_R1.2x Infineon Board User Manual XMC4700 XMC4800 Relax Kit Series UM V01 02 EN

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Evaluation Board
For XMC4000 Family

XMC4700
XMC4700
XMC4700
XMC4800

Relax
Relax
Relax
Relax

Lite Kit &
Kit for 5V Shields &
Kit &
EtherCAT Kit

Kit Version 1

Board User‘s Manual
Revision 1.2, 2016-06-16

Microcontroller

Edition 2016-06-16
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2016 Infineon Technologies AG
All Rights Reserved.
Legal Disclaimer
The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all
warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual
property rights of any third party.
Information
For further information on technology, delivery terms and conditions and prices, please contact the nearest
Infineon Technologies Office (www.infineon.com).
Warnings
Due to technical requirements, components may contain dangerous substances. For information on the types in
question, please contact the nearest Infineon Technologies Office.
Infineon Technologies components may be used in life-support devices or systems only with the express written
approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the
failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life
support devices or systems are intended to be implanted in the human body or to support and/or maintain and
sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other
persons may be endangered.

XMC4700/XMC4800 Relax Kit Series-V1

Revision History
Page or Item

Subjects (major changes since previous revision)

Revision 1.0,
2015-11-20

Initial Version

Revision 1.1,
2016-02-11
Revision 1.2
2016-06-15

Figure 7 has been updated: X2.16 has been changed from P6.1 to P6.4; X2.15 has been
changed from P5.3 to P6.3; X1.14 has been changed from P3.9 to P3.0
EtherCAT® added to “Other Trademarks”

Trademarks of Infineon Technologies AG
AURIX™, C166™, CanPAK™, CIPOS™, CIPURSE™, EconoPACK™, CoolMOS™, CoolSET™,
CORECONTROL™, CROSSAVE™, DAVE™, EasyPIM™, EconoBRIDGE™, EconoDUAL™, EconoPIM™,
EiceDRIVER™, eupec™, FCOS™, HITFET™, HybridPACK™, I²RF™, ISOFACE™, IsoPACK™, MIPAQ™,
ModSTACK™, my-d™, NovalithIC™, OptiMOS™, ORIGA™, PRIMARION™, PrimePACK™, PrimeSTACK™,
PRO-SIL™, PROFET™, RASIC™, ReverSave™, SatRIC™, SIEGET™, SINDRION™, SIPMOS™,
SmartLEWIS™, SOLID FLASH™, TEMPFET™, thinQ!™, TRENCHSTOP™, TriCore™.
Other Trademarks
Advance Design System™ (ADS) of Agilent Technologies, AMBA™, ARM™, MULTI-ICE™, KEIL™,
PRIMECELL™, REALVIEW™, THUMB™, µVision™ of ARM Limited, UK. AUTOSAR™ is licensed by
AUTOSAR development partnership. Bluetooth™ of Bluetooth SIG Inc. CAT-iq™ of DECT Forum.
COLOSSUS™, FirstGPS™ of Trimble Navigation Ltd. EMV™ of EMVCo, LLC (Visa Holdings Inc.). EPCOS™
of Epcos AG. FLEXGO™ of Microsoft Corporation. FlexRay™ is licensed by FlexRay Consortium.
HYPERTERMINAL™ of Hilgraeve Incorporated. IEC™ of Commission Electrotechnique Internationale. IrDA™
of Infrared Data Association Corporation. ISO™ of INTERNATIONAL ORGANIZATION FOR
STANDARDIZATION. MATLAB™ of MathWorks, Inc. MAXIM™ of Maxim Integrated Products, Inc.
MICROTEC™, NUCLEUS™ of Mentor Graphics Corporation. Mifare™ of NXP. MIPI™ of MIPI Alliance, Inc.
MIPS™ of MIPS Technologies, Inc., USA. muRata™ of MURATA MANUFACTURING CO., MICROWAVE
OFFICE™ (MWO) of Applied Wave Research Inc., OmniVision™ of OmniVision Technologies, Inc.
Openwave™ Openwave Systems Inc. RED HAT™ Red Hat, Inc. RFMD™ RF Micro Devices, Inc. SIRIUS™ of
Sirius Satellite Radio Inc. SOLARIS™ of Sun Microsystems, Inc. SPANSION™ of Spansion LLC Ltd.
Symbian™ of Symbian Software Limited. TAIYO YUDEN™ of Taiyo Yuden Co. TEAKLITE™ of CEVA, Inc.
TEKTRONIX™ of Tektronix Inc. TOKO™ of TOKO KABUSHIKI KAISHA TA. UNIX™ of X/Open Company
Limited. VERILOG™, PALLADIUM™ of Cadence Design Systems, Inc. VLYNQ™ of Texas Instruments
Incorporated. VXWORKS™, WIND RIVER™ of WIND RIVER SYSTEMS, INC. ZETEX™ of Diodes Zetex
Limited.
Last Trademarks Update 2011-02-24
EtherCAT® is registered trademark and patented technology, licensed by Beckhoff Automation GmbH,
Germany.

Template: IFX_Template_2011-02-24.dot

XMC4700/XMC4800 Relax Kit Series-V1
Table of Contents

Table of Contents
1
1.1
1.2

Introduction ........................................................................................................................................5
Key Features ........................................................................................................................................6
Block Diagram ......................................................................................................................................7

2
2.1
2.2
2.3
2.4
2.5
2.5.1
2.5.2
2.6
2.7
2.8
2.9
2.10
2.11

Hardware Description ........................................................................................................................7
Power Supply .....................................................................................................................................10
Pin Header X1 and X2 .......................................................................................................................11
Arduino Compatible Connector ..........................................................................................................12
User Push Buttons and User LEDs....................................................................................................13
Debugging and UART-to-USB Communiction ...................................................................................13
On-board Debug Probe ......................................................................................................................13
Cortex™ Debug Connector (10-pin) ..................................................................................................13
Reset ..................................................................................................................................................14
CAN Transceiver ................................................................................................................................14
Serial Flash Memory ..........................................................................................................................14
microSD Card.....................................................................................................................................15
Ethernet..............................................................................................................................................15
Boot Option ........................................................................................................................................15

3
3.1
3.2
3.3

Production Data................................................................................................................................16
Schematics.........................................................................................................................................16
Components Placement and Geometry.............................................................................................22
List of Material ....................................................................................................................................23

List of Figures
Figure 1
Figure 2
Figure 3
Figure 4
Figure 5
Figure 6
Figure 7
Figure 8
Figure 9
Figure 10
Figure 11
Figure 12
Figure 13
Figure 14

Block Diagram of the XMC4700/XMC4800 Relax Kit Series-V1 .........................................................7
XMC4700 Relax Lite Kit .......................................................................................................................8
XMC4700 Relax Kit for 5V Shields ......................................................................................................8
XMC4700 Relax Kit ..............................................................................................................................9
The XMC4800 Relax EtherCAT Kit includes the XMC EtherCAT PHY Board ....................................9
Power Supply Concept.......................................................................................................................10
Signal mapping of the pin headers X1 and X2...................................................................................11
Mapping of Arduino Functions to XMC Pin Functions .......................................................................12
Relax Kit Schematic: MCU, Push Buttons, LEDs, Reset Button, Crystals, USB ...............................17
Relax Kit Schematic: OBD Probe, Ethernet, Quad-SPI Memory, microSD Card Slot.......................18
Relax Kit Schematic: Pin Header, Voltage Level Shifter, Power Supply, CAN transceiver...............19
XMC EtherCAT Phy Board Schematic: Input and Output Phy ..........................................................20
XMC EtherCAT Phy Board Schematic: Power, Connectors, LEDs ...................................................21
Components Placement and Geometry.............................................................................................22

List of Tables
Table 1
Table 2
Table 3
Table 4
Table 5
Table 6
Table 7
Table 8
Table 9
Table 10
Table 11
Table 12

Kit Specification....................................................................................................................................5
Kit Features of Assembly Versions ......................................................................................................6
XMC4700/XMC4800 Pin Mapping for User LEDs .............................................................................13
XMC4700/XMC4800 Pin Mapping for User Push Buttons.................................................................13
XMC4700/XMC4800 Pins Mapping for Debugging and UART-Communication ...............................13
Pin Assignment of the Cortex™ Debug Connector (X102)................................................................13
CAN Signals and XMC4700/XMC4800 Pin Mapping.........................................................................14
XMC4700/XMC4800 Pins Mapping for Serial Flash Memory............................................................14
XMC4700/XMC4800 Pins Mapping for microSD Card ......................................................................15
XMC4700/XMC4800 Pins used for Ethernet .....................................................................................15
Boot Mode Selection with external Pull Resistors..............................................................................15
List of Material ....................................................................................................................................23

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XMC4700/XMC4800 Relax Kit Series-V1
Introduction

1

Introduction

This document describes the features and hardware details of the XMC4700/XMC4800 Relax Kit Series-V1
®
®
equipped with an ARM Cortex -M4 based XMC™ Microcontroller from Infineon Technologies AG.
It can be used with a wide range of development tools including Infineon’s free of charge Eclipse based IDE
DAVE. The XMC4700/XMC4800 Relax Kit Series-V1 are designed to evaluate the capabilities of the
XMC4700 / XMC4800 Microcontroller. Table 1 shows its specification.
Table 1

Kit Specification
®

®

Processor

Infineon’s ARM Cortex -M4 XMC4700 or XMC4800 Microcontroller in LQFP144
package (order number XMC4700-F144K2048 or XMC4800-F144K2048)

Flash Memory

2048 kB

Data Memory

352 kB

Dimensions

66 x 99 mm (66 x 101 mm with connectors)
• 12 MHz and 32.768 kHz crystal for CPU
• 25 MHz crystal for Ethernet Phy
• 5V external powering
• Micro-AB USB Connector interface or
• On-Board Debugger USB interface

Clock Crystals

Power

Connectors

Debugger

Others

•
•
•
•
•
•
•

Arduino compatible connectors
All relevant XMC™ pins available on expansion pads (X1, X2)
All EtherCAT signals available on expansion pads (X1, X2)
Ethernet interface via RJ45 jack
microUSB
microSD-Card slot
Serial Wire Debug interface (2x5, 50 mil pitch) to XMC™
(on board debugger can be overridden by externally connected debugger)
On-Board J-Link Debug Probe via USB supporting
• Serial Wire Debug (SWD)
• UART-to-USB bridge (virtual COM)
• On-board debug probe, based on XMC4200 Microcontroller
• Ethernet Phy
• CAN transceiver
• 32 Mbit Quad-SPI Flash Memory
• 2 user push-buttons, 2 user LEDs
• Reset push-button

The XMC4700/XMC4800 Relax Kit Series-V1 are available in four different assembly versions differentiating in
features:
•
•
•
•

XMC4700 Relax Lite
XMC4700 Relax for 5V Shields
XMC4700 Relax
XMC4800 Relax EtherCAT
®

The XMC4700 Relax Kit and the XMC4800 Relax EtherCAT Kit feature with an Ethernet-enabled
communication option, e.g. to run an embedded web server. You can store your own HTML web pages on a
microSD Card or control the XMC4700 / XMC4800 via the web browser on your PC.
Additional voltage level shifters and Aruino connection header on theXMC4700 Relax Kit for 5V Shields allow
the usage of Arduino shields with 3.3V or 5V logic level.

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XMC4700/XMC4800 Relax Kit Series-V1
Introduction
The embedded web server application is not supported by the KXMC4700 Relax Lite Kit and the
XMC4700 Relax Kit for 5V Shields, because some components e.g. for Ethernet and SD-Card are not
assembled.
®

The XMC4800 Relax EtherCAT Kit is assembled with a XMC4800 (pin compatible to XMC4700) and comes
®
together with a top-mounted XMC EtherCAT Phy Board. It’s a complete development kit for EtherCAT slave
devices and the XMC4800 is powerful and functional enough to make this board an ideal choice for the
®
development engineers of EtherCAT slaves such as servo drives and intelligent I/O devices.
All boards are marked with “XMC4700/XMC4800 Relax Kit Series-V1” and can be distinguished by the
assembled devices (see pictures in chapter 2). These boards are neither cost nor size optimized and do not
serve as a reference design.

1.1

Key Features

Table 2 summarizes the features of the different assembly versions of the XMC4700/XMC4800 Relax Kit
Series-V1.
Table 2

Kit Features of Assembly Versions

Feature

XMC4700
Relax Lite
Kit

XMC4700
Relax Kit for
5V Shields

XMC4700
Relax Kit

XMC4800
Relax
®
EtherCAT Kit

XMC4700 Microcontroller
XMC4800 Microcontroller
On-board Debug Probe with USB interface
supporting SWD + SWO
Virtual COM Port via Debug Probe
2 x User Push-Buttons and
2 x User LED and
1 x Reset Push-Button
Voltage Regulator 5 V -> 3.3 V
USB (Micro USB Plug)
12 MHz Crystal
32.768 kHz RTC Crystal
Arduino compatible connector and voltage level
shifter for 3.3 V / 5 V Arduino shields
0 Ohm Bridges for 3.3 V Arduino shields
Ethernet PHY and RJ45 Jack
32 Mbit Quad-SPI Flash Memory
microSD Card Slot
CAN Transceiver
Pin Header at X1 and X2 with mounted
XMC™ EtherCAT Phy Board

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XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description

1.2

Block Diagram

The block diagram in Figure 1 shows the main components of the XMC4700/XMC4800 Relax Kit Series-V1 and
their interconnections. There are following main building blocks:
•

XMC4700 / XMC4800 Microcontroller in a LQFP144 package

•

On-board USB debug probe based on XMC4200 for SWD, SWV and Virtual COM Port support

•

Ethernet Phy with RJ45 Plug

•

Two 40-pin header X1 and X2

•

Connection Header for Arduino

•

On-board power generation

•

2 User Push-Buttons, 2 User LEDs, Reset Push-Button

•

Micro-AB USB Plug

•

microSD Card Slot

•

CAN Transceiver

•

Quad SPI Flash

XMC4700 / XMC4800
Relax Kit Series-V1

25 MHz
Crystal

RJ45

ETH
PHY

micro
SD

SD/MMC

SDMMC

12 MHz
Crystal

OCS

Debug*
(10pin)
Micro
USB

SWD
SWV

5V

SWD
SWV
UART

XMC4200
Debug IC
Debug
LED

COM
LED

Debug,
U0C0

EVR

3.3V

GPIO

P15.13
BUTTON1

P5.9
LED1

BUTTON2
P15.12

LED1
P5.8

Pin Header Arduino™ (DIGITAL)

RMII

Power
LED

Voltage
Regulator

Not assembled in
Lite and ARDUINO
version

Pin Header X1
2x20, 0.1"

Assembled in
ARDUINO version
only

ETH

BSL

PORST
#

EtherCAT, U1C0, CCU80, ADC,
DAC, CAN, ERU0

RX/TX, SPI,
PWM, INT, IO

Level
Shifter

U2C1

qSPI
Flash

RTC

32.768
kHz

USB

USB

XMC4700 / XMC4800
Microcontroller

EtherCAT, U0C1, U2C0, ERU1,
CCU4, CCU8

CAN

CAN
Trans.

2x3
pin

Micro
USB

ADC

Pin Header Arduino™ (ANALOG IN)

RESET

Pin Header X2
2x20, 0.1"
Assembeld in
EtherCAT version
only

Not assembled in
any versions

Figure 1

Block Diagram of the XMC4700/XMC4800 Relax Kit Series-V1

2

Hardware Description

BlockDiag.emf

The following chapters give a detailed description of the board hardware and how it can be used. The different
assembly versions of the kits series are shown in Figure 2, Figure 3, Figure 4 and Figure 5.

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XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description

Figure 2

Figure 3

XMC4700 Relax Lite Kit

XMC4700 Relax Kit for 5V Shields

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XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description

Figure 4

XMC4700 Relax Kit

Figure 5

The XMC4800 Relax EtherCAT Kit includes the XMC EtherCAT PHY Board

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XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description

2.1

Power Supply

The XMC4700/XMC4800 Relax Kit Series-V1 must be supplied by an external 5 Volt DC power supply
connected to any of the micro USB plugs (X100, X101). Out of the box with the pre-programmed web server
application and the on-board debug probe in operation theXMC4700 Relax Kit typically draws about 250 mA,
the XMC4700 Relax Lite Kit and the XMC4700 Relax Kit for 5V Shields without the web server capabilities
draws about 200 mA and the XMC4800 Relax EtherCAT Kit together with the XMC EtherCAT Phy Board in
an EtherCAT network draws about 500 mA. This current can be delivered via the USB plug of a PC, which is
specified to deliver up to 500 mA. The green Power LED (VDD3.3) indicates the presence of the generated
3.3 V supply voltage.
On-board reverse current protection diodes will ensure safe operation in case power is provided through both
USB plugs at the same time. These protection diodes allows to use the on-board debug probe connected with a
PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4700 / XMC4800 Relax Kit via
X100.
If the board is powered via a USB plug, it’s not recommended to apply an additional 5 Volt power supply to one
of the 5 Volt power pins (VDD5, 5 V) on the pin headers X1 or X2 or the Arduino Power header, because there
is no protection against reverse current into the external power supply. These power pins can be used to power
an external circuit. But care must be taken not to draw more current than USB can deliver. A PC as USB host
typically can deliver up to 500 mA current. If higher currents are required and in order to avoid damages on the
USB host the use of an external USB power supply unit which is able to deliver higher currents than 500 mA is
strongly recommended.
After power-up the green DEBUG LED starts blinking. In case there is a connection to a PC via the Debug USB
plug X101 and the USB Debug Device drivers are installed on this PC, the DEBUG LED will turn from blinking to
constant illumination.
ARDUINO POWER Pin Header

XMC4700 / XMC4800
Relax Kit Series-V1

IC402
+5V

IC400, IC401

IFX1051LE
CAN
Transceiver

Ethernet
Phy, QSPI
Flash

IC100

Infineon
JP300, IOREF

3.3V

IC300, IC301
X100

Micro
USB

Power
LED

Voltage Level
Shifter for
ARDUINO

+5V
Infineon

3.3V

X101
+5V

+5V
Infineon

Infineon

IC101

IC102

Micro
USB

XMC4700 /
XMC4800
Microcontroller

IFX1117
Lin. Voltage
Regulator

3.3V

Infineon

XMC4200
Debug IC

Infineon

Pin Header X1 and X2
2x20, 0.1"
Power_BlockDiag.emf

Figure 6

Power Supply Concept

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XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description

2.2

Pin Header X1 and X2

The pin headers X1 and X2 can be used to extend the evaluation board or to perform measurements on the
XMC4700 / XMC4800. Figure 7 shows the available GPIOs / signals at these pin headers. The pin table is also
printed onto the bottom side of the PCB.

Pin Header X2
GND

40 39 GND

GND

38 37 GND

Pin Header X1
GND

VDD3.3 36 35 CANL

40 39

GND

VDD3.3 38 37

GND

VDD3.3 36 35 VDD5

VDD3.3 34 33 CANH

P5.11

34 33 P5.10

RST#

32 31 VDD5

P1.14

32 31 P2.13

HIB_1

30 29 HIB_0

P14.8

30 29 P14.9

P2.6

28 27 P5.7

P15.14 28 27 P15.15

P5.6

26 25 P5.5

P14.6

P5.4

24 23 P5.3

P14.12 24 23 P14.13

P5.2

22 21 P5.1

P14.14 22 21 P14.15

P5.0

20 19 P1.15

P15.2

20 19 P15.3

P6.6

18 17 P6.5

P15.4

18 17 P15.5

P6.4

16 15 P6.3*

P15.7

16 15 P15.6

P6.2

14 13 P6.1

P3.0

14 13

P3.1

P6.0

12 11 P1.2

P0.9

12 11

P3.2

P0.8

10 9

P0.0

10 9

P0.10

P3.3

8

7 P3.14

P0.2

8

7

P0.1

P0.15

6

5 P0.14

P0.4

6

5

P0.3

P0.12

4

3 P3.11

P0.6

4

3

P0.5

P3.12

2

1 P3.13

P0.11

2

1

P3.4

P0.7

26 25 P14.7

(Top
View)
Figure 7

Signal mapping of the pin headers X1 and X2

* The silkscreen on the PCB of this pin is wrong: It says “P5.3” (wrong) instead of “P6.3” (right). PCB version 1
is affected only.

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Hardware Description

2.3

Arduino Compatible Connector

The mapping of GPIOs and XMC pin functions to Arduino compatible functions can be found in Figure 8. The
Arduino compatible connector supports
•
•
•
•
•
•

SPI interface (SPI_xxx)
I2C interface (I2C_xxx)
UART interface (UART_xxx)
PWM signal outputs (PWM0-5)
ADC input (ADC0-5)
Interrupt input (INT0-1)
(Top View)

N.C.
IOREF
RESET#
3V3

4

5V

5

GND

6

GND

7

N.C.

8

P0.13 /
P14.5

I2C_SCL / U1C1.SCLKOUT

ADC5 / VADC.G0CH0

9

P3.15 /
P14.4

I2C_SDA: U1C1.DOUT0

ADC4: VADC.G0CH1

8

VAREF

7

GND

6

P3.9

5

P3.7

SPI_MISO: U2C0.DX0C

4

P3.8

SPI_MOSI: U2C0.DOUT0

3

P3.10

SPI_CS: U2C0.SELO0

2

P1.11

1

P1.10

IO2: P1.10

8

P1.9

IO1: P1.9

7

P2.11

AREF: VAREF

SPI_CLK: U2C0.SCLKOUT

6

P2.12

ADC1: VADC.G1CH1

P14.1

2

5

P1.8

IO0: P1.8

4

P1.1

INT1: ERU0.3A0

3

P1.0

INT0: ERU0.3B0

2

P2.14

UART_TXD: U1C0.DOUT0

1

P2.15

UART_RXD: U1C0.DX0C

P14.2

3

P14.3

4

ADC4: VADC.G2CH0

P14.4 /
P3.15

5

ADC5 / VADC.G2CH1

P14.5 /
P0.13

6

SPI_MOSI: U2C0.DOUT0

DIGITAL

1

ADC2: VADC.G1CH2

5

3

1

6

4

2

RESET#

P3.7

GND

5V

P3.8

P3.9

PWM4: CCU41.OUT0

PWM2: CCU80.OUT22

P14.0

ADC3 / VADC.G1CH3

PWM5: CCU41.OUT2

PWM3: CCU81.OUT11

ADC0: VADC.G0CH0

PWM5: CCU41.OUT2

Figure 8

3

ANALOG IN

I2C_SCL / U1C1.SCLKOUT

2

POWER

I2C_SCL / U1C1.DOUT0

1

10

PWM1: CCU81.OUT33

PWM0: CCU40.OUT2

SPI_MISO: U2C0.DX0C

SPI_CLK: U2C0.SCLKOUT

Ard uino_Pin_Mappin g.emf

Mapping of Arduino Functions to XMC Pin Functions

The XMC4700 Relax Kit for 5V Shields features bi-directional voltage level shifter and therefor supports 5 V
Arduino shields. Jumper JP300 (IOREF) determines whether the Arduino shield is driven with 5 V or 3.3 V.
Analog input signals ADC0-5 are limited to 3.3 V input voltage. Primarily ADC0 to ADC3 should be used as
analog input, because there is no additional circuit connected to these pins, whereas ADC4 and ADC5 have
additional circuitry and require an input signal with lower input impedance.
Note: Parallel operation of I2C and ADC4 / ADC5 is not possible, because they share the same Arduino pins.

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Hardware Description

2.4

User Push Buttons and User LEDs

The XMC4700/XMC4800 Relax Kit Series-V1 provides two push buttons and two LEDs. The port pins used can
be found in Table 3 and Table 4. These pins are used exclusively for this function and they are not mapped to
other devices or connectors.
Table 3

XMC4700/XMC4800 Pin Mapping for User LEDs

LED

XMC Pin

LED1

P5.9

LED2

P5.8

Table 4

XMC4700/XMC4800 Pin Mapping for User Push Buttons

Button

XMC Pin

BUTTON1

P15.13

BUTTON2

P15.12

2.5

Debugging and UART-to-USB Communiction

The XMC4700/XMC4800 Relax Kit Series-V1 supports debugging via 2 different channels:
•
•

On-board debug probe
10-pin Cortex™ Debug Connector (not assembled)

2.5.1

On-board Debug Probe

The on-board debug probe supports Serial Wire Debug (SWD) and UART communication. Both require the
installation of Segger’s J-Link Driver which is part of the DAVE™ installation. DAVE™ is a highly efficient
development platform for the XMC microcontroller families to simplify and shorten SW development. It can be
downloaded at www.infineon.com/dave. The latest Segger J-Link Driver can be downloaded at
http://www.segger.com/jlink-software.html. Table 5 shows the pin assignment of the XMC4700/XMC4800 used
for debugging and UART communication.
Table 5

XMC4700/XMC4800 Pins Mapping for Debugging and UART-Communication

Pin Funtion

Input/Output

XMC Pin

Data pin for Debugging via SWD

I/O

TMS

Clock pin for Debugging ia SWD

O

TCK

Transmit pin for UART communication (PC_RX)

O

P1.5 (U0C0.DOUT)

Receive pin for UART communication (PC_TX)

I

P1.4 (U0C0.DX0B)

2.5.2

Cortex™ Debug Connector (10-pin)

The 10-pin Cortex™ Debug Connector supports Serial Wire Debug (SWD) and Serial Wire Viewer (SWV). The
pin assignment of the Cortex™ Debug Connector is shown in Table 6.
Table 6

Pin Assignment of the Cortex™ Debug Connector (X102)

Pin No.

Signal Name

Description

1

VCC

+3.3 V

2

TMS

Serial Wire Data I/O

3

GND

Ground

4

TCK

Serial Wire Clock

5

GND

Ground

Board Users Manual

13

Revision 1.2, 2016-06-16

XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Pin No.

Signal Name

Description

6

SWV

Serial Wire Viewer (Trace Data Out)

7

Key

Key

8

NC

Not connected

9

GND_Detect

Ground detect

10

RESET

Rest (active low)

2.6

Reset

The reset pin (PORST#) of the XMC4700/XMC4800 is a bi-directional pin in open drain mode. An internal pullup resistor keeps the PORST# pin high during normal operation. A low level at this pin will force a hardware
reset. In case of a MCU internal reset the PORST# pin will drive a low signal.
A reset signal can be issued by
• the on-board Reset Button (SW102, “RESET”)
• the on-board debug probe (IC101.46)
• the external debugger connected to the 10-pin Cortex™ Debug probe connector (X102)
• the Arduino Power Header (X302.3, “RESET”)
• the pin header X2 (X2.32, “RST#”)
An XMC™ internal circuit always ensures a save Power-on-Reset. XMC™ does not require any additional
external components to generate a reset signal during power-up.

2.7

CAN Transceiver

The XMC4700 Relax Kit and the XMC4800 Relax EtherCAT Kit provide a CAN interface via the X2 connector.
Infineon’s high speed CAN transceiver IFX1051LE for industrial application supports 3.3V I/O logic and is
suitable for 12V and 24V bus systems with an excellent EMC performance. The CAN bus (signals CANH,
CANL) is not terminated by a 120 Ohm and needs to be terminated externally.
Table 7
Signal
Name

CAN Signals and XMC4700/XMC4800 Pin Mapping
Pin No. at Pin Header X2
XMC Pin, XMC Function

CANH

X2.33

-

CANL

X2.35

-

CAN_TX

-

P1.12, CAN.N1_TXD

CAN_RX

-

P1.13, CAN.N1_RXDC

2.8

Serial Flash Memory

The XMC4700 Relax Kit and the XMC4800 Relax EtherCAT Kit provide a 32 Mbit serial flash memory from
Micron (type: N25Q032A) interfaced to XMC4700/XMC4800 through a SPI interface. The SPI interface can be
configured as single, dual or quad SPI.
Table 8

XMC4700/XMC4800 Pins Mapping for Serial Flash Memory

XMC Pin

Function in qSPI Mode, XMC Function

Function in SPI Mode, XMC Function

P4.2

Clock, U2C1.SCLKOUT

Clock, U2C1.SCLKOUT

P4.3

Chip Select, U2C1.SELO2

Chip Select, U2C1.SELO2

P4.7

Data Line 0 I/O, U2C1.DOUT0

Master Out Slave In (MOSI, MTSR), U2C1.DOUT0

P4.6

Data Line 1, U2C1.DOUT1

Master In Slave Out (MISO, MRST), U2C1.DX0E

P4.4

Data Line 3, U2C1.DOUT3

HOLD (low active)

P4.5

Data Line 2, U2C1.DOUT2

Write Protection (low active)

Board Users Manual

14

Revision 1.2, 2016-06-16

XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description

2.9

microSD Card

The XMC4700 Relax Kit and the XMC4800 Relax EtherCAT Kit provide a microSD card slot (X401). The
microSD card can be operated in SD mode via the SDMMC peripheral or in SPI mode via the USIC0 Channel1
(U0C1) of the XMC4700/XMC4800.
Table 9

XMC4700/XMC4800 Pins Mapping for microSD Card

XMC Pin

Function in SD Mode, XMC Function

Function in SPI Mode, XMC Function

P3.6

Clock, SDMMC.CLK_OUT (IN)

Clock, U0C1.SCLKOUT

P3.5

Command Line, SDMMC.CMD_OUT (IN)

Master Out Slave In (MOSI, MTSR), U0C1.DOUT0

P4.0

Data Line 0, SDMMC.DATA0_OUT (IN)

Master In Slave Out (MISO, MRST), U0C1.DX0E

P1.6

Data Line 1, SDMMC.DATA1_OUT (IN)

Unused

P1.7

Data Line 2, SDMMC.DATA2_OUT (IN)

Unused

P4.1

Data Line 3, SDMMC.DATA3_OUT (IN)

Chip Select (CS) / Slave Select (SS), U0C1.SELO0

2.10

Ethernet

The XMC4700 Relax Kit and the XMC4800 Relax EtherCAT Kit provide an Ethernet Phy and RJ45 plug.
Table 10

XMC4700/XMC4800 Pins used for Ethernet

XMC Pin

Ethernet Function

XMC Function

P15.9

Carrier Sense / Receive Data Valid

ETH0.CRS_DVC

P15.8

Clock Input

ETH0.CLK_RMIIC

P2.10

LED

GPIO P2.10

P2.9

Transmit Data Line 1

ETH0.TXD1

P2.8

Transmit Data Line 0

ETH0.TXD0

P2.5

Transmit Enable

ETH0.TX_EN

P2.4

Receive Error

ETH0.RXERA

P2.3

Receive Data Line 1

ETH0.RXD1A

P2.2

Receive Data Line 0

ETH0.RXD0A

P2.0

Management Data In/Out

ETH0.MDIB / ETH0.MDO

P2.7

Management Data Clock

ETH0.MDC

P1.3

Interrupt (disabled via solder jumper R401) GPIO P1.3

2.11

Boot Option

During power-on-reset the XMC4700/XMC4800 latches the signal level at the pins TMS and TCK. Based on the
logic levels latched at these pins after reset the XMC4700/XMC4800 starts booting in different modes. TMS and
TCK pins are used for debugging and by default program execution is always starting from on-chip flash (normal
mode).
The XMC4700/XMC4800 Relax Kit Series-V1 does not support the selection of the boot options by switches
directly. In case of no external debug probe is used the boot mode can be influenced by applying 1 kOhm pullup- or pull-down resistors to TMS and TCK pins. These pins are available at the 10-pin debug connector X102.
Table 11

Boot Mode Selection with external Pull Resistors

Logic Level at TMS
during Reset

Logic Level at TCK
during Reset

Boot Mode

High

Low

Normal Mode (boot from on-chip flash) (DEFAULT)

Board Users Manual

15

Revision 1.2, 2016-06-16

XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Logic Level at TMS
during Reset

Logic Level at TCK
during Reset

Boot Mode

Low

Low

ASC BSL Mode (boot from UART)

High

High

BMI Customized Boot Mode

Low

High

CAN BSL Mode (boot from CAN)

3

Production Data

This chapter covers schematics, board dimensions, component placement and the list of material.

3.1

Schematics

In the following figures shows the schematics of the XMC4700/XMC4800 Relax Kit Series-V1 and the XMC
EtherCAT Phy Board-V1:
•
•
•
•
•

Figure 9: Relax Kit Schematic: MCU, Push Buttons, LEDs, Reset Button, Crystals, USB
Figure 10: Relax Kit Schematic: OBD Probe, Ethernet, Quad-SPI Memory, microSD Card Slot
Figure 11: Relax Kit Schematic: Pin Header, Voltage Level Shifter, Power Supply, CAN transceiver
Figure 12: XMC EtherCAT Phy Board Schematic: Input and Output Phy
Figure 13: XMC EtherCAT Phy Board Schematic: Power, Connectors, LEDs

Board Users Manual

16

Revision 1.2, 2016-06-16

E

1
2
3
4
5

X100

USB Connector

3 D1

D100 1

1

GND GND GND GND

R107 22R
R108 22R

L100 BLM18PG600

2

A

C

D101
BAS3010A-03W

GND

10uF/10V

C101

D

10uF/10V

C102

ADC_3
ADC_2
ADC_1
ADC_0
SDA, ADC_4
SCL, ADC_5

10uF/10V

C103

C

ECAT0.P0_TXD3
ECAT0.P0_TXD2
ECAT0.P0_TXD1
ECAT0.P0_LINK_ACT
ECAT0.P0_TXD0
ECAT0.P0_TX_ENA
ECAT0.PHY_CLK

10uF/10V

C104

ZX62-AB-5PA

135
136
137
138
139
3
4
127
128
140
141
142
143
144
1
2

3

31
32
33
34
51
52
35
36
37
38
39
40
41
42

95
96
97
98
99
100
101

125
90
61
VDDC 19

126
86
62
18

15
16
17

24

HIB_IO_1 20
HIB_IO_0 21

USB_DM
USB_DP

VDD3.3

P14.15
P14.14
P14.13
P14.12
P14.9
P14.8
P14.7
P14.6
P14.5
P14.4
P14.3
P14.2
P14.1
P14.0

P6.6
P6.5
P6.4
P6.3
P6.2
P6.1
P6.0

QSPI_IO0
QSPI_IO1
QSPI_IO2
QSPI_IO3
QSPI_CS
QSPI_CLK
MMC_DAT3
MMC_DAT0

100nF

C105

R106

117
118
119
120
121
122
123
124

VDD5

B

100nF

C106

1M

94
102
103
104
105
106
113
114
115
116
107
108
109
110
111
112

100nF
C107

100nF

C100

ECAT0.P0_LINKB P1.15
ECAT_LED_3 P1.14
CAN_RX
CAN_TX
PWM_3 P1.11
IO_2 P1.10
IO_1 P1.9
IO_0 P1.8
MMC_DAT2
MMC_DAT1
P1.5
P1.4
ETH_Interrupt P1.3
ECAT_LED_4 P1.2
INT_1, PWM_0 P1.1
INT_0 P1.0

100nF
C108

2

D2

P0.15
P0.14
P0.13
P0.12
P0.11
P0.10
P0.9
P0.8
P0.7
P0.6
P0.5
P0.4
P0.3
P0.2
P0.1
P0.0

GND

100nF
C109

A

ESD8V0L2B-03L

ECAT_LED_8
ECAT_LED_7
SCL, ADC_5
ECAT0.MDO
ECAT0.P1_RXD0A
ECAT0.P1_TX_CLKA
ECAT0.P1_RX_DVA
ECAT0_LED_RUN
ECAT0_LED_ERR
ECAT0.P1_RXD1A
ECAT0.P1_RXD2A
ECAT0.P1_RXD3A
ECAT0.P1_TXD3
ECAT0.P1_TXD2
ECAT0.P1_RX_CLKA
ECAT0.PHY_RST

100nF
C110

Target Device

100nF
C111

XMC4700 / XMC4800 Relax Kit Series-V1

VDD3.3

3

100nF
C112

VDDC3
VDDC2
VDDC1
VDDC

VDDP3
VDDP2
VDDP1
VDDP

Analog

Digital

IC100

VSSO
VSS
EPAD

PORST#
TCK
TMS

XTAL1

XTAL2

RTC_XTAL_1

RTC_XTAL_2

VAREF
VAGND

VDDA
VSSA

P15.15
P15.14
P15.13
P15.12
P15.9
P15.8
P15.7
P15.6
P15.5
P15.4
P15.3
P15.2

P5.11
P5.10
P5.9
P5.8
P5.7
P5.6
P5.5
P5.4
P5.3
P5.2
P5.1
P5.0

P2.15
P2.14
P2.13
P2.12
P2.11
P2.10
P2.9
P2.8
P2.7
P2.6
P2.5
P2.4
P2.3
P2.2
P2.1
P2.0

P3.15
P3.14
P3.13
P3.12
P3.11
P3.10
P3.9
P3.8
P3.7
P3.6
P3.5
P3.4
P3.3
P3.2
P3.1
P3.0

4

XMC4700/XMC4800_LQFP144

Supply

Hibernate/RTC

USB_DUSB
USB_D+
VBUS

HIB_IO_1
HIB_IO_0
VBAT

P14.15
P14.14
P14.13
P14.12
P14.9
P14.8
P14.7
P14.6
P14.5
P14.4
P14.3
P14.2
P14.1
P14.0

P6.6
P6.5
P6.4
P6.3
P6.2
P6.1
P6.0

P4.7
P4.6
P4.5
P4.4
P4.3
P4.2
P4.1
P4.0

P1.15
P1.14
P1.13
P1.12
P1.11
P1.10
P1.9
P1.8
P1.7
P1.6
P1.5
P1.4
P1.3
P1.2
P1.1
P1.0

P0.15
P0.14
P0.13
P0.12
P0.11
P0.10
P0.9
P0.8
P0.7
P0.6
P0.5
P0.4
P0.3
P0.2
P0.1
P0.0

4

89
85
EXP

91
93
92

87

88

22

23

46
45

7

GND

100nF

RTC_XTAL_2

GND

GND

Q400
32.768KHZ

GND

S
S1

P

C119 P1

SW102
TMPS2-SMD

RTC_XTAL_1

GND

C120
10nF

P
P1

BUTTON2

GND

GND

V1 / 01.09.2015

S
S1

BUTTON 2
SW101
TMPS2-SMD

S
S1

BUTTON 1
SW100
TMPS2-SMD

5

6

Sheet: 1/3
8

14.09.2015 14:34:39

XMC4700_Relax-V1

GND

GND

GND

100nF

C118 P1

P

ADJ_3

The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights
of any third party.

GND

RTC Crystal

GND

BUTTON1

ADJ_2

8

XMC4700 Relax Kit Series

GND

100nF

LED2

RESET#

Reset

LED1

Buttons & LEDs

ADJ_1

7

LED100
LED-RT/D/0603

Legal Disclaimer

GND

RESET#
TCK
TMS

510R/0402 Q100
12MHZ/S/3.2X2.5

GND

C115

100nF

ECAT0.P1_RX_ERRB

6

C114

ECAT0.P0_RXD3B
ECAT0.P0_RX_DVB
ECAT0.P0_TX_CLKB
ECAT0.P0_RX_CLKB
ECAT_LED_2
ECAT0.P0_RXD2
ECAT0.P0_RXD1
ECAT0.P0_RXD0

ECAT0.P0_RX_ERRB

PWM_2
PWM_1

UART_RX
UART_TX

ECAT0.P1_LINKA
ECAT0.MCLK
ECAT0.P1_TXD1
ECAT0.P1_TXD0
ECAT0.P1_TX_ENA

SDA, ADC_4
ECAT_LED_6
ECAT_LED_1
ECAT0.P1_LINK_ACT
ECAT_LED_5
SPI_CS, PWM_4
SPI_CLK
SPI_MOSI, PWM_5
SPI_MISO

R111

RTC_XTAL_1

RTC_XTAL_2

P15.15
P15.14
BUTTON1
BUTTON2
ETH_CRS
ETH_CLK
P15.7
P15.6
P15.5
P15.4
P15.3
P15.2

43
44
49
50
53
54
25
26
27
28
29
30
48
47

P5.11
P5.10
LED1
LED2
P5.7
P5.6
P5.5
P5.4
P5.3
P5.2
P5.1
P5.0

P2.15
P2.14
P2.13
P2.12
P2.11
P2.10
ETH_TXD1
ETH_TXD0
ETH_MDC
P2.6
ETH_TXEN
ETH_RXER
ETH_RXD1
ETH_RXD0
SWV
ETH_MDIO

P3.15
P3.14
P3.13
P3.12
P3.11
P3.10
P3.9
P3.8
P3.7
MMC_CLK
MMC_CMD
P3.4
P3.3
P3.2
P3.1
P3.0

55
56
57
58
77
78
79
80
81
82
83
84

59
60
63
64
65
66
67
68
75
76
69
70
71
72
73
74

133
134
8
9
10
11
12
13
14
129
130
131
132
5
6
7

5

R109
VAREF
no ass./0R
R110
0R L101
BLM18PG600
VDD3.3
L102
15pF
C116

LED1
LED2

2mA LED
2mA LED

R112
R113
VDD3.3

2

10uF/10V
C113

BLM18PG600
15pF
C117

17

R116

VDD3.3
R114
VDD3.3
R115

680R
680R

LED101
LED-RT/D/0603
10K/0402

10k
10k

Board Users Manual
C400 15pF

Figure 9
C401 15pF

1

E

D

C

B

A

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

Relax Kit Schematic: MCU, Push Buttons, LEDs, Reset Button, Crystals, USB

Revision 1.2, 2016-06-16

/ / m

uc s dn3 1 . e u. i nf i ne on. c om

/ Ro e m

m

e l m

/ M

y

E

D

C

doc um

e n t s / Bo o t l o a d e r _ Re m

GND

a ppi ng/ qr c ode . bm

p

GND

1

U1C0
DX0A-P0.4
DOUT0-P0.5
GPIO-P0.6

RESET#
GPIO-P0.3
DEBUG_LED# GPIO-P0.2
AUX_LED#
GPIO-P0.1

RXD
TXD

RESET#
DEBUG_LED#
COM_LED#

2

U1C1
DX0D-P0.0

U0C1
DX2A-P2.3
DX1A-P2.4
DOUT0-P2.5
DX0A-P2.2

SPI Slave
CS_IN
CLK_IN
MISO
MOSI

UART2 (DM2)
RXD
TXD
TXACTIVE#

SWV

U0C0
DX0B-P1.4
DOUT0-P1.5
SCLKOUT-P1.1
SELO0-P1.0

SPI Master
MISO
MOSI
CLK_OUT
CS_OUT

Supply

31
6

41
28
5

3
4

7
10

19
20
11
12
13
14
15
16

C123 100nF

R120
R121

3

2
4
6
8
10

TMS
TCK
SWV

GND

4

FTSH-105-01-F-D-K
no ass.

1
3
5
7
9

X102

GND

GND

DBGPRES#

GND

22R/0402
22R/0402

GND

TCK

TCK
CS

SWV

PC_TXD
PC_RXD

TMS

C129 100nF

TMS

COM_LED
SWV

DEBUG_LED

Level Shifter
No RESET Pin
UART
SPD
SWV
JTAG

Cortex Debug

VDDC1
VDDC

VDDP2
VDDP1
VDDP

USB_D+

HIB_IO_0
VBAT

P14.9
P14.8
P14.7
P14.6
P14.5
P14.4
P14.3
P14.0

P1.5
P1.4
P1.3
P1.2
P1.1
P1.0

USB USB_D-

Hibernate/RTC

XMC4200_QFN48

VSS
EPAD

PORST#
TCK
TMS

XTAL1

XTAL2

RTC_XTAL_1

RTC_XTAL_2

VAREF
VAGND

Analog

UART
RXD

TDI
TDO

TMS
TCK

32
34
33

29

30

8

9

18
17

27
EPAD

GND

DBGPRES#
WTCK
WTMS

510R/0402

On-board Debugger Concept

no ass.

1
2
3
4
5

X103

GND

C122 15pF

Q101
R118
12MHZ/S/3.2X2.5

VDD3.3

35
36
37
38
39
40

C124 100nF

Digital

C125 4.7uF/10V

B

R119

P1.4
P1.5
RESET#

C126 10uF/10V

VDD3.3

R122
510R/0402

C130 100nF

42
43
44
45
46
47
48
1
2

VDD3.3

VDD3.3
VDD5

P0.8
P0.7
P0.6
P0.5
P0.4
P0.3
P0.2
P0.1
P0.0

C128 100nF

P2.5
P2.4
P2.3
P2.2
P2.1
P2.0

C127 10uF/10V

C

R126

D103
4k7/0402

R127

A

R124

L103
BLM18PG600

R123
RESET#

GND GND

1

SWV

D2

BAS3010A-03W
10k/0402

LED102 680R VDD3.3
LED-GN/D/0603
2D102
3 D1

1
2
3
4
5

X101

GND GND

ETH_MDC
ETH_MDIO

ETH_CLK
ETH_TXEN
ETH_TXD0
ETH_TXD1
ETH_CRS
ETH_RXD0
ETH_RXD1
ETH_RXER

VDD3.3

8

7

11
10

16
19
20
21
15
13
12
17

14
1
2

GND

KSZ8081RNA

XI

XO

MDC
MDIO

REF_CLK
TXEN
TXD0
TXD1
CRS_DV
RXD0
RXD1
RXER

VDDIO
VDD_1.2
VDDA_3.3

IC400

GND

100nF

C413

R401

1
6
5
2

7

8

(IO0)
(IO1)

VDD3.3
GND

GND

S1
S2
S3
S4
S5

7

RJ45

S1
S2

RA
RC

LA
LC

S1
S2

12
11

9
10

V1 / 01.09.2015

P2.10

Würth 7499010211A

NC
CG

RD-

CTR

RD+

TD-

CTT

TD+

X400

RESET#

8

5

6

Sheet: 2/3
8

13.11.2015 18:36:31

XMC4700_Relax-V1

G1
G2
G3
G4
G5

7
8

6

5

3

2

4

1

2

D401

1

BAT64-02V

L401
BLM18PG600

GND

QSPI_IO2

MOLEX-0475710001

DAT2
DAT3/CS_N
CMD/MOSI
VDD
CLK/SCK
GND
DAT0/MISO
DAT1

X401

R402

XMC4700 Relax Kit Series

P1
P2
P3
P4
P5
P6
P7
P8

3

4

1k

The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights
of any third party.

GND

N25Q032A

CS#
CLK
DI
DO

GND
WP#
(IO2)

HOLD#
(IO3)

22
EXP

9

18

23
3
4
5
6

24

VCC

IC401

GND
P_GND

REXT

INTRP

LED0
RXM
RXP
TXM
TXP

RST#

no ass./0R

P1.3

7

R406

Legal Disclaimer

MMC_DAT0
MMC_DAT1

MMC_CLK

MMC_DAT2
MMC_DAT3
MMC_CMD

QSPI_CS
QSPI_CLK
QSPI_IO0
QSPI_IO1

QSPI_IO3

GNDGND GNDGND GND

Micro SD-Card

qSPI Flash

C403
100nF

GND GND

6

2

1

IC101

ESD8V0L2B-03L

R403
10uF/10V

5
Ethernet

2.2uF/10V
C405

21
22
23
24
25
26

R125

LED103 680R VDD3.3
LED-GN/D/0603
1M

22uF/10V
C402
C406 100nF
22uF/10V
C407

TCK
CS
SWV

C131 100nF

L400

100nF
C408

R407

A

C121 15pF

5 TH-Pads
2.54mm pitch

VDD3.3

10k

BLM18PG600

22pF
C409

1k R400
22pF
25MHz/50ppm
Q401
C410
10k
R408
R410 10k

4

10k
R411 10k

3

R412 10k

VDD3.3
R413 10k

2

R414 10k

BAT64-02V
6K49/0603
R409

D400 VDD3.3
100nF
C411
VDD3.3

10k
C404

1

VDD3.3

18

10k

Board Users Manual
100nF

120R
R404

VDD3.3
120R
R405

Figure 10
C412

On-board Debugger

E

D

C

B

A

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

Relax Kit Schematic: OBD Probe, Ethernet, Quad-SPI Memory, microSD Card Slot

Revision 1.2, 2016-06-16

ZX62-AB-5PA

E

D

C

B

1

VDD3.3

IOREF

IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX

VDD3.3

IOREF

SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI, PWM_5
SPI_CS, PWM_4
PWM_3
IO_2

Arduino Level Shifter

P0.13*
P3.15*
P3.9*
P3.7*
P3.8*
P3.10*
P1.11*
P1.10*

P1.9*
P2.11*
P2.12*
P1.8*
P1.1*
P1.0*
P2.14*
P2.15*

GNDGND

VCCB
VCCA

B1
B2
B3
B4
B5
B6
B7
B8

IC301

A1
A2
A3
A4
A5
A6
A7
A8

39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

OE
GND

A1
A2
A3
A4
A5
A6
A7
A8

OE
GND

10
11

1
3
4
5
6
7
8
9

10
11

1
3
4
5
6
7
8
9

JP300

3
2
1

GND

2

100nF

C304

IOREF

VDD3.3

VDD5

GND

P1.9
P2.11
P2.12
P1.8
P1.1
P1.0
P2.14
P2.15

GND

P0.13
P3.15
P3.9
P3.7
P3.8
P3.10
P1.11
P1.10

IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX

SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI, PWM_5
SPI_CS, PWM_4
PWM_3
IO_2

GND

3

GND

1
2
3
4
P3.15* 5
P0.13* 6

X301

X302

4

IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX

SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI, PWM_5
SPI_CS, PWM_4
PWM_3
IO_2

P1.9*
P2.11*
P2.12*
P1.8*
P1.1*
P1.0*
P2.14*
P2.15*

P0.13*
P3.15*
P3.9*
P3.7*
P3.8*
P3.10*
P1.11*
P1.10*

Arduino Level Shifter Bridges

All resistors 100R
R100-R105

GND

IOREF
RESET#

1
2
3
4
5
6
7
8

8
7
6
5
4
3
2
1

8
7
6
5
4
3
2
1

RESET#

P3.7*

RA200

0R Array

RA201
9
10
11
12
13
14
15
16

9
10
11
12
13
14
15
16

VDD5

0R Array

GND

GND

NC
VDD5
P5.10 CAN.N5_RXDA
IOREF
P2.13
RESET
P14.9 DAC.OUT_1
3V3
P15.15
5V VDD3.3
P14.7
GND
P14.13
GND
VDD5
P14.15
NC
P15.3
P15.5
P15.6
P3.1 ECAT0.P1_TXD0
P3.2 ECAT0.P1_TXD1
ADC_0 P14.0
P0.10 ECAT0.P1_TX_CLKA
ADC_1 P14.1
P0.1 ECAT0.P1_RX_CLKA
ADC_2 P14.2
P0.3 ECAT0.P1_TXD3
ADC_3 P14.3
P0.5 ECAT0.P1_RXD2A SDA, ADC_4 P14.4
P3.4 ECAT0.P1_LINKA
SCL, ADC_5 P14.5

Arduino Level Jumper

TXS0108EPW

19
2

20
18
17
16
15
14
13
12

GNDGND

VCCB
VCCA

B1
B2
B3
B4
B5
B6
B7
B8

IC300

X1

TXS0108EPW

19
2

20
18
17
16
15
14
13
12

VDD3.3
CAN.N5_TXD P5.11
P1.14
DAC.OUT_0 P14.8
P15.14
P14.6
P14.12
P14.14
ECAT0.P1_RX_ERRB P15.2
P15.4
P15.7
ECAT0.P1_TX_ENA P3.0
ECAT0.P1_RX_DVA P0.9
ECAT0.PHY_RST P0.0
ECAT0.P1_TXD2 P0.2
ECAT0.P1_RXD3A P0.4
ECAT0.P1_RXD1A P0.6
ECAT0.P1_RXD0A P0.11

40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

X300

ARDUINO Compatible Connectors
6
4

5
3
1 P3.9*

P3.8* 2

4

8
7
6
5
4
3
2
1

P1.9*
P2.11*
P2.12*
P1.8*
P1.1*
P1.0*
P2.14*
P2.15*

10 P0.13*
9 P3.15*
8 VAREF
7
GND
6 P3.9*
5 P3.7*
4 P3.8*
3 P3.10*
2 P1.11*
1 P1.10*

RM
CANH
CANL
V33

IN

7

GND

OUT1
OUT2

IC102
IFX1117MEV33

IFX1051LE

TXD
GND
VCC
RXD

39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

CANL
CANH

2
4

8
7
6
5

VDD3.3

CANH
CANL

HIB_IO_0
P5.7
P5.5
P5.3
P5.1
P1.15
P6.5
P6.3
P6.1
P1.2
P0.7
P3.14
P0.14
P3.11
P3.13

VDD5

ECAT0_LED_ERR

GND GND

V1 / 01.09.2015

ECAT0.P0_RXD1
ECAT0.P0_LINKB
ECAT0.P0_TXD2
ECAT0.P0_LINK_ACT
ECAT0.P0_TX_ENA

ECAT0.P0_RXD3B
ECAT0.P0_TX_CLKB

5

6

Sheet: 3/3
8

14.09.2015 14:34:39

XMC4700_Relax-V1

GND

3

1
2*2
3
4

IC402

X2

8

XMC4700 Relax Kit Series

VDD5

CAN_RX

CAN_TX

RESET#
HIB_IO_1
P2.6
P5.6
P5.4
P5.2
P5.0
P6.6
P6.4
P6.2
P6.0
P0.8
P3.3
P0.15
P0.12
P3.12

40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

7

The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights
of any third party.

IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX

Power Target Device

CAN Transceiver

SCL, ADC_5
SDA, ADC_4
AREF
GND
SPI_CLK
SPI_MISO
VDD3.3
SPI_MOSI, PWM_5
SPI_CS, PWM_4
PWM_3
ECAT0.P0_RX_ERRB
IO_2
ECAT0.P0_RX_DVB
ECAT0.P0_RX_CLKB
ECAT0.P0_RXD2
ECAT0.P0_RXD0
ECAT0.P0_TXD3
IO_1
ECAT0.P0_TXD1
PWM_2
ECAT0.P0_TXD0
PWM_1
ECAT0.PHY_CLK
IO_0
ECAT0_LED_RUN
INT_1, PWM_0
ECAT0.MCLK
INT_0
UART_TX
ECAT0.MDO
UART_RX

SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI, PWM_5
SPI_CS, PWM_4
PWM_3
IO_2

X303

X304

6

GND

Legal Disclaimer

P1.9
P2.11
P2.12
P1.8
P1.1
P1.0
P2.14
P2.15

P0.13
P3.15
P3.9
P3.7
P3.8
P3.10
P1.11
P1.10

5

GND

3

GND

VDD5

A

2

GND

GND

C300 100nF

C302 100nF

VDD3.3

1

C132 10uF/10V

VDD3.3
10k
no ass./0R
VDD3.3

C301 100nF

C303 100nF

R300
R301
R302
R303

10k
no ass./0R

ADJ
1

19

R130

Board Users Manual
C133 10uF/10V

Figure 11
LED104 680R/0603
LED-GN/D/0603

Pinheader

E

D

C

B

A

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

Relax Kit Schematic: Pin Header, Voltage Level Shifter, Power Supply, CAN transceiver

Revision 1.2, 2016-06-16

/ / m

uc s dn3 1 . e u. i nf i ne on. c om

/ Ro e m

m

e l m

/ M

y

E

D

C

B

doc um

e n t s / Bo o t l o a d e r _ Re m

a ppi ng/ qr c ode . bm

p

5

VCC GND

I0
MUX Z
I1

S

2

4

NC7SZ157P6X GND
RA100A
100nF/0402 P6.6
P6.5
GND
P6.4
P6.2
4*49R9
RA101A
P5.7
P5.2
P5.1
P5.0
4*49R9

C100

VDD3.3

ECAT0.MDO
ECAT0.MCLK

P5.4 R101

P5.5 R100

C150

5

VCC GND

I0
MUX Z
I1

S

U150

2

4

1

P0.12
P3.3

P5.6
P2.6

P6.1
49R9/0603

2

1
2

30
29
13
14

28
27
26
25
24
20
15
16
17
18
19
21

P3.0
49R9/0603

P0.12
P3.3

30
29
13
14

28
27
26
25
24
20
15
16
17
18
19
21

49R9/0603 23

IC1_RXD0_PHYAD0
P0.9
P15.2

P0.1 R151

P0.10 R150

PHY1_CLK_1_8V

ECAT0.MDO
ECAT0.MCLK

NC7SZ157P6X GND
RA150A
100nF/0402 P0.3
P0.2
GND
P3.2
P3.1
4*49R9
RA151A
P0.4
P0.5
P0.6
P0.11
4*49R9

VDD1.8

P6.0

3
1

6

1
2

49R9/0603 23

PHY0_CLK_1_8V

ECAT Port1 OUT

VDD1.8

P6.0

3
1

6

RESET

LED2
LED1

RDAC
GNDOUT
EXP

OVDD
OVDD
AVDD
DVDD

TD+
TDRD+
RD-

RESET

LED2
LED1

RDAC
GNDOUT
EXP

3

BCM5241XA1KMLG

CRS
COL
MDIO
MDC

TXC
TXD3
TXD2
TXD1
TXD0
TXEN
RXC
RXD3
RXD2
RXD1
RXD0
RXDV
RXER

XTALI
XTALO

U151

TD+
TDRD+
RD-

OVDD
OVDD
AVDD
DVDD

BCM5241XA1KMLG

CRS
COL
MDIO
MDC

TXC
TXD3
TXD2
TXD1
TXD0
TXEN
RXC
RXD3
RXD2
RXD1
RXD0
RXDV
RXER

XTALI
XTALO

U101

10

11
12

VDD3.3

GND

BLM18PG600

L150

100nF/0402

4

GND

100nF/0402

C152

R107
49R9/0603

R106
49R9/0603

R105
49R9/0603

R104
49R9/0603

R157
49R9/0603

R156
49R9/0603

R155
49R9/0603

R154
49R9/0603

GND

GND

GND

GND

6

GNDGND

GNDGND

14

11
10
9

3

6
7
8

15
14

11
10
9

2
3

6
7
8

PT61017PEL

16

1

L151

15

2

PT61017PEL

16

1

L101

GND

GND

5

6

The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights
of any third party.

Legal Disclaimer

GNDGND GND GND GND GND GND GND

P3.4
ECAT0.P1_LINKA
ECAT_PHY_RST

R152
2k2/0603 VDD3.3

ECAT0.PHY_RST

GND

100nF/0402

C102

5

GNDGND GND GND GND GND GND GND

C151

GND

ECAT0.PHY_RST

BLM18PG600

L100

100nF/0402

C101

P1.15
ECAT0.P0_LINKB
ECAT_PHY_RST

R102
2k2/0603

VDD3.3

8
31
EXP

9
22
7
32

3
4
6
5

10

11
12

8
31
EXP

9
22
7
32

3
4
6
5

VDD3.3

R103

U100

1k24/0603
R153

A

1k24/0603

ECAT Port0 IN

C103
100nF/0402
C153
100nF/0402

7

7

R108

VDD3.3

S1
S2

1
2
3
4
5
6
7
8

VDD3.3

43860-0010

S1
S2

1
2
3
4
5
6
7
8

X100

GND

43860-0010

S1
S2

1
2
3
4
5
6
7
8

X150

GND

Sheet: 1/2
8

03.08.2015 16:51:38

/ / m

uc s dn3 1 . e u. i nf i ne on. c om

XMC_ECAT_PB-V1

1000pF/2kV/1206

1000pF/2kV/1206

C164

C163

S1
S2

1
2
3
4
5
6
7
8

270R/0603 V150
LED-GE/D/0603
LED-GN/D/0603
R159
V151
P3.12
ECAT0.P1_LINK_ACT
270R/0603

P3.4
ECAT0.P1_LINKA

R158

1000pF/2kV/1206

C113

1000pF/2kV/1206

C114

8

270R/0603 V100
LED-GE/D/0603
LED-GN/D/0603
R109
V101

270R/0603
ECAT0.P0_LINK_ACT

P6.3

P1.15
ECAT0.P0_LINKB

75R/0603

4

C104
100nF/0402
C154
100nF/0402

3

C105
10uF/10V/0805
VDD1.8
C106
100nF/0402
C155
10uF/10V/0805
VDD1.8
C156
100nF/0402

2

VDD3.3
C107
100nF/0402
VDD3.3
C157
100nF/0402

VDD3.3

C108
10uF/10V/0805
C158
10uF/10V/0805

C109
100nF/0402
C159
100nF/0402

R111
R161

C110
100nF/0402
C160
100nF/0402

75R/0603
75R/0603

C111
100nF/0402
C112
100nF/0402
C161
100nF/0402
C162
100nF/0402

R112
R162

R110
R160

75R/0603
75R/0603

75R/0603
75R/0603

R113
R163

20

75R/0603

Board Users Manual
CHASSIS_GND

Figure 12
CHASSIS_GND

1

/ Ro e m

m

e l m

/ M

y

doc um

e n t s / Bo o t l o a d e r _ Re m

a ppi ng/ qr c ode . bm

p

E

D

C

B

A

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

XMC EtherCAT Phy Board Schematic: Input and Output Phy

Revision 1.2, 2016-06-16

E

D

C

B

LEDs

GND

1

Power 3,3V

R213

R214

VDD3.3RK

10k/0603

49k9/0603

VDD3.3

GND

C200
10uF/10V/0805

A

GND

GND

6

7

9*2

6

7

9*2

BYP
EXP

SENSE/ADJ

OUT

BYP
EXP

2

IFX54441LDV33

GND

EN

IN

U210

OUT

SENSE/ADJ

IFX54441LDV

GND

EN

IN

U200

680R/0603

VDD5

C210
10uF/10V/0805

2

10nF/0402
C201

10nF/0402
C211

GND

5
EXP

4

1*2

GND

5
EXP

4

1*2

R223

Power 1,8V

TOPLED/GN
V230

R220

P0.8

ECAT0_LED_RUN

680R/0603
TOPLED/RT
R221
V231

P0.7

ECAT0_LED_ERR

V232
LED-RT/D/0603
LED2

680R/0603
P0.14

LED1

R227

P1.14

R200
680R/0603

4k87/0603

GND

GND

GND

GND

3

GND

GND

T200
BCR108W

4

4

ADJ_2

P3.0
P0.9
P0.0
P0.2
P0.4
P0.6
P0.11

ECAT0.P1_TX_ENA
ECAT0.P1_RX_DVA
ECAT0.PHY_RST
ECAT0.P1_TXD2
ECAT0.P1_RXD3A
ECAT0.P1_RXD1A
ECAT0.P1_RXD0A

ADJ_1

P15.2

P1.14

ECAT0.P1_RX_ERRB

VDD3.3RK

B2*20

X1

ADJ_3

40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

6

VDD3.3RK

GND
2

P2.6
P5.6
P5.4
P5.2
P5.0
P6.6
P6.4
P6.2
P6.0
P0.8
P3.3
P0.15
P0.12
P3.12

GND

P0.12

6

7

1k5/0603

R233

4k7/0603

R232

The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights
of any third party.

5

7

P0.0

40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

VDD3.3

VDD3.3

Select PHY Adress for PHY 1

GND

IC1_RXD0_PHYAD0

GND

4

U230G

ECAT0.MDO

ECAT_PHY_RST

NC7SZ125

ECAT0.P0_RX_ERRB
ECAT0.P0_RX_DVB
ECAT0.P0_RX_CLKB
ECAT0.P0_RXD2
ECAT0.P0_RXD0
ECAT0.P0_TXD3
ECAT0.P0_TXD1
ECAT0.P1_TXD0
ECAT0.P0_TXD0
ECAT0.P1_TXD1
ECAT0.PHY_CLK
ECAT0.P1_TX_CLKA ECAT0_LED_RUN
ECAT0.P1_RX_CLKA
ECAT0.MCLK
ECAT0.P1_TXD3
ECAT0.P1_RXD2A
ECAT0.MDO
ECAT0.P1_LINKA

VDD5

GND
ECAT0.PHY_RST

P3.1
P3.2
P0.10
P0.1
P0.3
P0.5
P3.4

Phy Pull Resistors

Phy Reset Buffer

5

Legal Disclaimer

Pin header Relax Kit

GND

3

VDD1.8
C202
10uF/10V/0805
VDD3.3
C212
10uF/10V/0805

R201
R210
R211
680R/0603

R230

10k/0603
0R/0603
NA/0603

V233
LED-RT/D/0603
LED3
R224
P3.14

R212
V236
LED-RT/D/0603
LED6

VDD3.3
680R/0603

V234
LED-RT/D/0603
LED4
R222
P0.15

V235
LED-RT/D/0603
LED5
R226
P1.2

1

VDD5
680R/0603
R229

R231

R202
680R/0603

P3.13

10k/0603

1k5/0603
V200
LED-GN/D/0603
680R/0603

680R/0603
V210
LED-GN/D/0603
V237
LED-RT/D/0603
LED7
R228
P5.3

V238
LED-RT/D/0603
LED8
R225

V239
LED-RT/D/0603
680R/0603

10k/0603

21
P3.11

B2*20

X2
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

VDD

5

U230P

VDD3.3

Board Users Manual
GND

3

Figure 13
GND

1

ECAT0_LED_ERR

Sheet: 2/2
8

03.08.2015 16:51:38

/ / m

uc s dn3 1 . e u. i nf i ne on. c om

XMC_ECAT_PB-V1

/ Ro e m

m

ECAT0.P0_RXD1
ECAT0.P0_LINKB
ECAT0.P0_TXD2
ECAT0.P0_LINK_ACT
ECAT0.P0_TX_ENA

ECAT0.P0_RXD3B
ECAT0.P0_TX_CLKB

VDD5

GND
100nF/0402

C230

P5.7
P5.5
P5.3
P5.1
P1.15
P6.5
P6.3
P6.1
P1.2
P0.7
P3.14
P0.14
P3.11
P3.13

8

e l m

/ M

y

doc um

e n t s / Bo o t l o a d e r _ Re m

a ppi ng/ qr c ode . bm

p

E

D

C

B

A

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

XMC EtherCAT Phy Board Schematic: Power, Connectors, LEDs

Revision 1.2, 2016-06-16

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

6
12

X400

IC101

8
12 R122

R414

R404

R403

C408 IC400

C406

Q401

JP300
C304

R401

D401
R402
C402

R400

LED101
R113
C133

C

C115

11
0
C113

2
10
C L
11
1

C114

R110
R109
X302

C117

6
10
6C 1
11
RC

C

11

L101

10
7

R301

R300

98.3mm

C132

IC300

RA200

C301

40

C300

IC102

IC402

Q

40

0

C

2
11

5

8

C

10

10

10

4

C101

C

0
40
C
1
40

C

C

IC401

10
9

C

53.3mm

X1

X304

IC100

R407

X301

C303

RA201

IC301

C302

R108

1

ADJ_2

X300

R302

X303

R106

L100
D101

R107

X100

ADJ_1

R104

1

6

C120

SW102

SW101

SW100
LED100
R112

R303

C100

R413
R412
R410
R411

D103
LED103

1

D100

R105

Q101
0
13
C
1
12
8
CC
12 11
4 R

C

C

R120
R121

X2

R103

C404
C410

LEFT
RIGHT

X101

R124
LED104

R101

C403
R406

D400
C405
R130

C411 C412
L400
C407
C409

2
4
6
8

1
LED102

R102

C122

3
5
R123

40

R100

2.5mm

Revision 1.2, 2016-06-16

22

Board Users Manual

R119
ADJ_3

52.1mm

R409

C413
R408

C103

Q100

27.9mm

14mm

C102

R405
C129
C127

L401
R116
R115
C119
R114
C118

7
R127

10
12
R125

R126

X401

9
11
L103

D102

C123
C125

FRONT
C131
X103

Components Placement and Geometry

Figure 14

Components Placement and Geometry
3.2

66mm
X102

XMC4700/XMC4800 Relax Kit Series-V1
Production Data

3.3

List of Material

The list of material is valid for the XMC4700/XMC4800 Relax Kit Series-V1.
Table 12

List of Material

Value

Device

Qty Reference Designator

Note*

IFX1051LE TSON8

CAN Transceiver Infineon

1

IC402

B

15pF 50V 10% 0402

Capacitor COG

4

C116, C117, C121, C122

15pF 50V 10% 0402

Capacitor COG

2

C400, C401

B

22pF 50V 5% 0402

Capacitor COG

2

C409, C410

B

B
B

10uF 10V 10% 0805

Capacitor X5R

9

10uF 10V 10% 0805

Capacitor X5R

1

C101, C102, C103, C104,
C113, C126, C127, C132,
C133
C404

22uF 10V 20% 0805

Capacitor X5R

2

C402, C407

100nF 16V 10% 0402

Capacitor X7R

19

100nF 16V 10% 0402

Capacitor X7R

5

100nF 16V 10% 0402

Capacitor X7R

6

10nF 16V 10% 0402

Capacitor X7R

1

C100, C105, C106, C107,
C108, C109, C110, C111,
C112, C114, C115, C118,
C119, C123, C124, C128,
C129, C130, C131
C300, C301, C302, C303,
C304
C403, C406, C408, C411,
C412, C413
C120

2.2uF 10V 10% 0805

Capacitor X7R

1

C405

4.7uF 10V 10% 0805

Capacitor X7R ESR<50mOhm

1

C125

1

X304

A

1

X301

A

2

X302, X303

A

1

X400

B

2

X100, X101

1

X401

2

Q100, Q101

1

Q401

B

1

Q400

B

2

D400, D401

B

BAS3010A-03W SOD323 Diode Schottky 30V 1A Infineon

2

D101, D103

KSZ8081RNACA QFN24

Ethernet PHY RMII Micrel

1

IC400

BLM18PG600SN1D 0603

Ferrite Bead 60R 500mA Murata

4

L100, L101, L102, L103

BLM18PG600SN1D 0603

Ferrite Bead 60R 500mA Murata

2

L400, L401

6-pin

Connection Header 10-pin 0.1" THT
SSW-110-01-G-S
Connection Header 6-pin 0.1" THT
SSW-106-01-G-S

8-pin

Connection Header 8-pin 0.1" THT
SSW-108-01-G-S

10-pin

12MHz 3.2x2.5

Connector 10/100 Ethernet
7499010211A Wüth
Connector Micro USB AB SMD ZX62AB-5PA Hirose
Connector microSD MOLEX0475710001
Crystal 12MHz 4Pad NX3225SA
12MHz NDK

25MHz 3.2x2.5

Crystal 25MHz 4Pad NX3225SA
25MHz NDK

RJ45
ZX62-AB-5PA
microSD-Card Slot

32.768KHz 3.2x1.5
BAT64-02V SC79

Board Users Manual

Crystal 32.768KHz SMD 12.5pF NDK
NX3215SA-32.768K
Diode Infineon

23

A
B
B

B

B
B
Revision 1.2, 2016-06-16

XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Value

Device

Qty Reference Designator

Note*

N25Q032A13ESE40
SO8W

Flash serial SPIx4 32-Mbit Micron

1

IC401

B

LED-GN 0603

LED SMD gn LSQ971-Z

3

LED102, LED103, LED104

LED-RT 0603

LED SMD rt LSQ976-Z

2

LED100, LED101

TXS0108EPW TSSOP-20 Level Shifter 8-bit

2

IC300, IC301

XMC4200-Q48K256
QFN48

Microcontroller XMC4200 Infineon

1

IC101

XMC4700/XMC4800F144F2048 LQFP144
2x20pin 0.1"

Microcontroller XMC4700/XMC4800
Infineon
Pin Header THT

1

IC100

2

X1, X2

C

2x3-pin 0.1"

Pin Header THT

1

X300

A

3-pin 0.1"

Pin Header THT

1

JP300

A

no ass. 2x5pin 0.05"

Pin Header THT FTSH-105-01-F-D-K

1

X102

N

no ass. 5-pin 0.1"

Pin Header THT no assembly

1

X103

N

ESD8V0L2B-03L TSLP-3Diode Protection Infineon
1
FSM2JSMA
Pushbutton ON SMD Tyco

2

D100, D102

3

SW100, SW101, SW102

0R 1% 0402

Resistor

1

R110

100R 1%0 402

Resistor

6

10K 1% 0402

Resistor

5

R100, R101, R102, R103,
R104, R105
R114, R115, R116, R119,
R127

10k 1% 0402

Resistor

2

R300, R302

A

B
B

A

10k 1% 0402

Resistor

9

120R 1% 0603

Resistor

2

R403, R407, R408, R409,
R410, R411, R412, R413,
R414
R404, R405

1k 1% 0402

Resistor

2

R400, R402

1M 1% 0402

Resistor

2

R106, R125

22R 1% 0402

Resistor

2

R107, R108

22R 1% 0402

Resistor

2

R120, R121

4k7 1% 0402

Resistor

1

R126

510R 1% 0402

Resistor

3

R111, R118, R122

680R 1% 0603

Resistor

4

R112, R113, R123, R124

680R 1% 0603

Resistor

1

R130

6K49 1% 0603

Resistor

1

R406

B

no ass. 0R

Resistor

4

R109, R301, R303, R401

N

0R 0402 Array

Resistor Network EXB2HVR000V
Panasonic
Voltage Regulator 3.3 V Infineon

2

RA200, RA201

D

1

IC102

IFX1117MEV33 SOT223

B

*Agenda:
A: Assembled on Relax Kit for 5V Shields only
B: Assembled on Relax Kit and Relax EtherCAT Kit only
C: Assembled on Relax EtherCAT Kit only
D: Assembled on Relax Kit , Relax Lite Kit and Relax EtherCAT Kit only
N: Not Assembled
Board Users Manual

24

Revision 1.2, 2016-06-16

w w w . i n f i n e o n . c o m

Published by Infineon Technologies AG



---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.5
Linearized                      : No
Page Count                      : 25
Page Mode                       : UseNone
XMP Toolkit                     : 3.1-701
Producer                        : Nuance PDF Create
Creator Tool                    : Microsoft Word - Board_Users_Manual_XMC4700_XMC4800_Relax_Kit_Series-V1_R1.2.docx
Create Date                     : 2016:06:16 12:59:58+02:00
Modify Date                     : 2016:06:16 13:00:40+02:00
Title                           : Microsoft Word - Board_Users_Manual_XMC4700_XMC4800_Relax_Kit_Series-V1_R1.2.docx
Creator                         : Claussen Kay (IFAG PMM IMC M BD CES)
Language                        : en-US
Author                          : Claussen Kay (IFAG PMM IMC M BD CES)
Company                         : Infineon Technologies AG
Business Unit                   : Microcontroller
Doc Author                      : KC
Doc Distribution                : Toolpartner
Doc Issue Date                  : 2016-06-16
Doc State                       : Revision 1.2
Doc Top Right 1                 : XMC4700/XMC4800 Relax Kit Series-V1
Doc Top Right 2                 : Evaluation Board
Doc Type                        : Board Users Manual
Product Long                    : XMC4700/XMC4800 Relax Kit Series-V1
Family Short                    : Evaluation Board
Family Long                     : For XMC4000 Family
Product Sales Code              : XMC4700/XMC4800 Relax Kit Series-V1

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