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Microcontro l ler
Evaluat ion BoardFor XMC4000 Family
Board User ‘s Manual
Revision 1.0, 2015-11-20
XMC4700 Relax Li te Ki t &
XMC4700 Relax Ki t for 5V Shie lds &
XMC4700 Relax Ki t &
XMC4800 Relax EtherCAT Ki tKit Version 1
Edition 2015-11-20
Published byInfineon Technologies AG81726 Munich, Germany
© 2015 Infineon Technologies AGAll Rights Reserved.
Legal Disclaimer
The information given in this document shall in no event be regarded as a guarantee of conditions orcharacteristics. With respect to any examples or hints given herein, any typical values stated herein and/or anyinformation regarding the application of the device, Infineon Technologies hereby disclaims any and allwarranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectualproperty rights of any third party.
Information
For further information on technology, delivery terms and conditions and prices, please contact the nearestInfineon Technologies Office (www.infineon.com).
Warnings
Due to technical requirements, components may contain dangerous substances. For information on the types inquestion, please contact the nearest Infineon Technologies Office.
Infineon Technologies components may be used in life-support devices or systems only with the express writtenapproval of Infineon Technologies, if a failure of such components can reasonably be expected to cause thefailure of that life-support device or system or to affect the safety or effectiveness of that device or system. Lifesupport devices or systems are intended to be implanted in the human body or to support and/or maintain andsustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or otherpersons may be endangered.
XMC4700/XMC4800 Relax Kit Series-V1
Template: IFX_Template_2011-02-24.dot
Revision History
Page or Item Subjects (major changes since previous revision)
Revision 1.0,
2015-11-20
Initial Version
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 byAUTOSAR 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 FORSTANDARDIZATION. 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., MICROWAVEOFFICE™ (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™ ofSirius 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 CompanyLimited. VERILOG™, PALLADIUM™ of Cadence Design Systems, Inc. VLYNQ™ of Texas InstrumentsIncorporated. VXWORKS™, WIND RIVER™ of WIND RIVER SYSTEMS, INC. ZETEX™ of Diodes ZetexLimited.
Last Trademarks Update 2011-02-24
XMC4700/XMC4800 Relax Kit Series-V1
Table of Contents
Board Users Manual 4 Revision 1.0, 2015-11-20
Table of Contents
Introduction............................................................................................................................................................51.1 Key Features ........................................................................................................................................61.2 Block Diagram ......................................................................................................................................7
2 Hardware Description ........................................................................................................................72.1 Power Supply .....................................................................................................................................102.2 Pin Header X1 and X2 .......................................................................................................................112.3 Arduino™ Compatible Connector ......................................................................................................122.4 User Push Buttons and User LEDs....................................................................................................132.5 Debugging and UART-to-USB Communiction ...................................................................................132.5.1 On-board Debug Probe......................................................................................................................132.5.2 Cortex™ Debug Connector (10-pin) ..................................................................................................132.6 Reset ..................................................................................................................................................142.7 CAN Transceiver ................................................................................................................................142.8 Serial Flash Memory ..........................................................................................................................142.9 microSD Card.....................................................................................................................................152.10 Ethernet..............................................................................................................................................152.11 Boot Option ........................................................................................................................................15
3 Production Data................................................................................................................................163.1 Schematics.........................................................................................................................................163.2 Components Placement and Geometry.............................................................................................223.3 List of Material ....................................................................................................................................23
List of FiguresFigure 1 Block Diagram of the XMC4700/XMC4800 Relax Kit Series-V1 .........................................................7Figure 2 XMC4700 Relax Lite Kit .......................................................................................................................8Figure 3 XMC4700 Relax Kit for 5V Shields ......................................................................................................8Figure 4 XMC4700 Relax Kit ..............................................................................................................................9Figure 5 The XMC4800 Relax EtherCAT Kit includes the XMC EtherCAT PHY Board ....................................9Figure 6 Power Supply Concept.......................................................................................................................10Figure 7 Signal mapping of the pin headers X1 and X2...................................................................................11Figure 8 Mapping of Arduino™ Functions to XMC Pin Functions....................................................................12Figure 9 Relax Kit Schematic: MCU, Push Buttons, LEDs, Reset Button, Crystals, USB...............................17Figure 10 Relax Kit Schematic: OBD Probe, Ethernet, Quad-SPI Memory, microSD Card Slot.......................18Figure 11 Relax Kit Schematic: Pin Header, Voltage Level Shifter, Power Supply, CAN transceiver...............19Figure 12 XMC EtherCAT Phy Board Schematic: Input and Output Phy ..........................................................20Figure 13 XMC EtherCAT Phy Board Schematic: Power, Connectors, LEDs ...................................................21Figure 14 Components Placement and Geometry.............................................................................................22
List of TablesTable 1 Kit Specification....................................................................................................................................5Table 2 Kit Features of Assembly Versions ......................................................................................................6Table 3 XMC4700/XMC4800 Pin Mapping for User LEDs .............................................................................13Table 4 XMC4700/XMC4800 Pin Mapping for User Push Buttons.................................................................13Table 5 XMC4700/XMC4800 Pins Mapping for Debugging and UART-Communication ...............................13Table 6 Pin Assignment of the Cortex™ Debug Connector (X102)................................................................13Table 7 CAN Signals and XMC4700/XMC4800 Pin Mapping.........................................................................14Table 8 XMC4700/XMC4800 Pins Mapping for Serial Flash Memory............................................................14Table 9 XMC4700/XMC4800 Pins Mapping for microSD Card ......................................................................15Table 10 XMC4700/XMC4800 Pins used for Ethernet .....................................................................................15Table 11 Boot Mode Selection with external Pull Resistors..............................................................................15Table 12 List of Material ....................................................................................................................................23
XMC4700/XMC4800 Relax Kit Series-V1
Introduction
Board Users Manual 5 Revision 1.0, 2015-11-20
1 IntroductionThis 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 IDEDAVE. The XMC4700/XMC4800 Relax Kit Series-V1 are designed to evaluate the capabilities of theXMC4700 / 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)
Clock Crystals • 12 MHz and 32.768 kHz crystal for CPU• 25 MHz crystal for Ethernet Phy
Power
• 5V external powering• Micro-AB USB Connector interface or• On-Board Debugger USB interface
Connectors
• 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)
Debugger On-Board J-Link Debug Probe via USB supporting• Serial Wire Debug (SWD)• UART-to-USB bridge (virtual COM)
Others
• 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 infeatures:
• 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-enabledcommunication option, e.g. to run an embedded web server. You can store your own HTML web pages on amicroSD 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 allowthe usage of Arduino™ shields with 3.3V or 5V logic level.
XMC4700/XMC4800 Relax Kit Series-V1
Introduction
Board Users Manual 6 Revision 1.0, 2015-11-20
The embedded web server application is not supported by the KXMC4700 Relax Lite Kit and theXMC4700 Relax Kit for 5V Shields, because some components e.g. for Ethernet and SD-Card are notassembled.
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 slavedevices 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 theassembled devices (see pictures in chapter 2). These boards are neither cost nor size optimized and do notserve as a reference design.
1.1 Key Features
Table 2 summarizes the features of the different assembly versions of the XMC4700/XMC4800 Relax KitSeries-V1.
Note: Arduino is a trademark of Arduino Smart Projects S.r.l., Italy
Table 2 Kit Features of Assembly Versions
Feature XMC4700Relax Lite
Kit
XMC4700Relax Kit for5V Shields
XMC4700Relax Kit
XMC4800Relax
EtherCAT®
Kit
XMC4700 Microcontroller
XMC4800 Microcontroller
On-board Debug Probe with USB interfacesupporting 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 levelshifter 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 mountedXMC™ EtherCAT Phy Board
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 7 Revision 1.0, 2015-11-20
1.2 Block Diagram
The block diagram in Figure 1 shows the main components of the XMC4700/XMC4800 Relax Kit Series-V1 andtheir 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
Figure 1 Block Diagram of the XMC4700/XMC4800 Relax Kit Series-V1
2 Hardware DescriptionThe following chapters give a detailed description of the board hardware and how it can be used. The differentassembly versions of the kits series are shown in Figure 2, Figure 3, Figure 4 and Figure 5.
XMC4700 / XMC4800Microcontroller
U2C1
SDMMC
USB
Debug,U0C0
ETH
OCS
EVR
ADC
SD/MMC
12 MHzCrystal
32.768kHz
MicroUSB
microSD
qSPIFlash
BUTTON2
ETHPHY
25 MHzCrystal
RJ45 RMII
EtherCAT, U1C0, CCU80, ADC,DAC, CAN, ERU0
EtherCAT, U0C1, U2C0, ERU1,CCU4, CCU8
SWV
SWD
USB
GPIOPORST
#
RESETLED1
BUTTON1
XMC4200Debug IC
MicroUSB
VoltageRegulator
5V 3.3V
UARTBSL
Pin Header X22x20, 0.1"
Not assembled inLite and ARDUINO
version
Not assembled inany versions
XMC4700 / XMC4800Relax Kit Series-V1
LED1
P15.13
P15.12
PowerLED
BlockDiag.emf
Debug*(10pin)
RX/TX, SPI,PWM, INT, IO
CANTrans.
LevelShifter
Pin Header Arduino™ (DIGITAL)
DebugLED
COMLED
SWD
SWV
Pin Header Arduino™ (ANALOG IN)
CAN
RTC
Pin Header X12x20, 0.1"
P5.9
P5.8
Assembled inARDUINO version
only
Assembeld inEtherCAT version
only
2x3pin
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 8 Revision 1.0, 2015-11-20
Figure 2 XMC4700 Relax Lite Kit
Figure 3 XMC4700 Relax Kit for 5V Shields
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 9 Revision 1.0, 2015-11-20
Figure 4 XMC4700 Relax Kit
Figure 5 The XMC4800 Relax EtherCAT Kit includes the XMC EtherCAT PHY Board
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 10 Revision 1.0, 2015-11-20
2.1 Power Supply
The XMC4700/XMC4800 Relax Kit Series-V1 must be supplied by an external 5 Volt DC power supplyconnected to any of the micro USB plugs (X100, X101). Out of the box with the pre-programmed web serverapplication 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 capabilitiesdraws about 200 mA and the XMC4800 Relax EtherCAT Kit together with the XMC EtherCAT Phy Board inan EtherCAT network draws about 500 mA. This current can be delivered via the USB plug of a PC, which isspecified to deliver up to 500 mA. The green Power LED (VDD3.3) indicates the presence of the generated3.3 V supply voltage.
On-board reverse current protection diodes will ensure safe operation in case power is provided through bothUSB plugs at the same time. These protection diodes allows to use the on-board debug probe connected with aPC/Notebook via X101 and a second host PC/Laptop connected with the XMC4700 / XMC4800 Relax Kit viaX100.
If the board is powered via a USB plug, it’s not recommended to apply an additional 5 Volt power supply to oneof the 5 Volt power pins (VDD5, 5 V) on the pin headers X1 or X2 or the Arduino™ Power header, becausethere is no protection against reverse current into the external power supply. These power pins can be used topower an external circuit. But care must be taken not to draw more current than USB can deliver. A PC as USBhost typically can deliver up to 500 mA current. If higher currents are required and in order to avoid damages onthe USB host the use of an external USB power supply unit which is able to deliver higher currents than 500 mAis strongly recommended.
After power-up the green DEBUG LED starts blinking. In case there is a connection to a PC via the Debug USBplug X101 and the USB Debug Device drivers are installed on this PC, the DEBUG LED will turn from blinking toconstant illumination.
Figure 6 Power Supply Concept
XMC4700 / XMC4800Relax Kit Series-V1
3.3V
Power_BlockDiag.emf
MicroUSB
MicroUSB
IFX1117Lin. VoltageRegulator
IC102
XMC4200Debug IC
IC101
XMC4700 /XMC4800
Micro-controller
IC100
PowerLEDX100
IC402
X101
Infineon
Infineon
Infineon
InfineonVoltage LevelShifter forARDUINO
JP300, IOREF
Pin Header X1 and X22x20, 0.1"
IFX1051LECAN
Transceiver
EthernetPhy, QSPI
Flash
IC300, IC301
InfineonInfineon
IC400, IC401
+5V
+5V
ARDUINO POWER Pin Header
3.3V
+5V
+5V
3.3V
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 11 Revision 1.0, 2015-11-20
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 theXMC4700 / XMC4800. Figure 7 shows the available GPIOs / signals at these pin headers. The pin table is alsoprinted onto the bottom side of the PCB.
Pin Header X2 Pin Header X1
GND 40 39 GND GND 40 39 GND
GND 38 37 GND VDD3.3 38 37 GND
VDD3.3 36 35 CANL 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 26 25 P14.7
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
P6.1 16 15 P5.3 P15.7 16 15 P15.6
P6.2 14 13 P6.1 P3.9 14 13 P3.1
P6.0 12 11 P1.2 P0.9 12 11 P3.2
P0.8 10 9 P0.7 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
(TopView)
Figure 7 Signal mapping of the pin headers X1 and X2
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 12 Revision 1.0, 2015-11-20
2.3 Arduino™ Compatible Connector
The mapping of GPIOs and XMC pin functions to Arduino™ compatible functions can be found in Figure 8. TheArduino™ 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)
Figure 8 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 VArduino™ 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 asanalog input, because there is no additional circuit connected to these pins, whereas ADC4 and ADC5 haveadditional 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.
10
9P3.15 /P14.4
I2C_SDA: U1C1.DOUT0
P0.13 /P14.5
I2C_SCL / U1C1.SCLKOUT ADC5 / VADC.G0CH0
ADC4: VADC.G0CH1
8 VAREF AREF: VAREF
7 GND
6 P3.9 SPI_CLK: U2C0.SCLKOUT
P3.7 SPI_MISO: U2C0.DX0C
4 P3.8 SPI_MOSI: U2C0.DOUT0 PWM5: CCU41.OUT2
3 P3.10 SPI_CS: U2C0.SELO0 PWM4: CCU41.OUT0
2 P1.11 PWM3: CCU81.OUT11
1 P1.10 IO2: P1.10
8 P1.9 IO1: P1.9
7 P2.11 PWM2: CCU80.OUT22
6 P2.12 PWM1: CCU81.OUT33
4 P1.1 INT1: ERU0.3A0 PWM0: CCU40.OUT2
5 P1.8 IO0: P1.8
3 P1.0 INT0: ERU0.3B0
2 P2.14 UART_TXD: U1C0.DOUT0
1 P2.15 UART_RXD: U1C0.DX0C
1
3
2
4P14.3
5
6P14.5 /P0.13ADC5 / VADC.G2CH1
P14.2
P14.1
I2C_SCL / U1C1.SCLKOUT
I2C_SCL / U1C1.DOUT0P14.4 /P3.15
ADC4: VADC.G2CH0
ADC3 / VADC.G1CH3
ADC2: VADC.G1CH2
ADC1: VADC.G1CH1
ADC0: VADC.G0CH0 P14.0
7GND
GND
5V
3V3
N.C.
RESET#
IOREF
N.C. 8
4
6
5
1
2
3
(Top View)
13
4
5
6
Arduino_Pin_Mapping.emf
AN
ALO
GIN
PO
WE
R
DIG
ITA
L
5V
2
P3.9 SPI_CLK: U2C0.SCLKOUT
RESET#
GND
5
P3.7 SPI_MISO: U2C0.DX0C
P3.8SPI_MOSI: U2C0.DOUT0PWM5: CCU41.OUT2
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 13 Revision 1.0, 2015-11-20
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 canbe found in Table 3 and Table 4. These pins are used exclusively for this function and they are not mapped toother 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 theinstallation of Segger’s J-Link Driver which is part of the DAVE™ installation. DAVE™ is a highly efficientdevelopment platform for the XMC microcontroller families to simplify and shorten SW development. It can bedownloaded at www.infineon.com/dave. The latest Segger J-Link Driver can be downloaded athttp://www.segger.com/jlink-software.html. Table 5 shows the pin assignment of the XMC4700/XMC4800 usedfor 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). Thepin 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
6 SWV Serial Wire Viewer (Trace Data Out)
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 14 Revision 1.0, 2015-11-20
Pin No. Signal Name Description
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 pull-up resistor keeps the PORST# pin high during normal operation. A low level at this pin will force a hardwarereset. 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 additionalexternal 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 issuitable 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 CAN Signals and XMC4700/XMC4800 Pin Mapping
SignalName
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 fromMicron (type: N25Q032A) interfaced to XMC4700/XMC4800 through a SPI interface. The SPI interface can beconfigured 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)
XMC4700/XMC4800 Relax Kit Series-V1
Hardware Description
Board Users Manual 15 Revision 1.0, 2015-11-20
2.9 microSD Card
The XMC4700 Relax Kit and the XMC4800 Relax EtherCAT Kit provide a microSD card slot (X401). ThemicroSD 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 thelogic levels latched at these pins after reset the XMC4700/XMC4800 starts booting in different modes. TMS andTCK pins are used for debugging and by default program execution is always starting from on-chip flash (normalmode).
The XMC4700/XMC4800 Relax Kit Series-V1 does not support the selection of the boot options by switchesdirectly. In case of no external debug probe is used the boot mode can be influenced by applying 1 kOhm pull-up- 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 TMSduring Reset
Logic Level at TCKduring Reset
Boot Mode
High Low Normal Mode (boot from on-chip flash) (DEFAULT)
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 16 Revision 1.0, 2015-11-20
Logic Level at TMSduring Reset
Logic Level at TCKduring 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 DataThis 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 XMCEtherCAT 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
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 17 Revision 1.0, 2015-11-20
Figure 9 Relax Kit Schematic: MCU, Push Buttons, LEDs, Reset Button, Crystals, USB
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XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 18 Revision 1.0, 2015-11-20
Figure 10 Relax Kit Schematic: OBD Probe, Ethernet, Quad-SPI Memory, microSD Card Slot
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BL
M1
8P
G6
00
BL
M1
8P
G6
00
LED-GN/D/0603
LED-GN/D/0603
12
MH
Z/S
/3.2
X2
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2M
HZ
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2.5
25MHz/50ppm 25MHz/50ppm
51
0R
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02
51
0R
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02
10k
22
R/0
40
22
2R
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02
22
R/0
40
22
2R
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02
51
0R
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02
51
0R
/04
02
680R
680R1M1M
4k7/0402 4k7/0402 10k/0402 10k/0402
1k1k
no
ass./
0R
1k
10k
120R 120R
120R 120R
6K49/0603
10k
10k
10k
10k 10k
10k 10k
10k 10k
10k 10k
10k 10k
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3 VDD3.3
VDD3.3
VDD3.3
VDD5
ZX62-AB-5PA ZX62-AB-5PA
FT
SH
-10
5-0
1-F
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no
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Wü
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74
99
01
02
11
A
MO
LE
X-0
47
57
10
00
1
no
ass.
C121 C121
C122 C122
C123 C123
C124 C124
C125 C125
C126 C126
C127 C127
C128 C128
C129 C129
C130 C130
C131 C131
C402 C402
C403 C403
C404 C404
C405 C405
C406 C406
C407 C407
C408 C408
C409 C409
C410 C410
C411 C411
C412 C412
C4
13
D102
1
23
D102
D103ACD103
D400
12
D400
D4
01
12
D4
01
EP
AD
EP
AD
HIB
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7
P0
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P0
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P0
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8P
0.3
47
P0
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6P
0.5
45
P0
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4P
0.7
43
P0
.84
2
P1
.04
0P
1.1
39
P1
.23
8P
1.3
37
P1
.43
6P
1.5
35
P2
.02
6P
2.1
25
P2
.22
4P
2.3
23
P2
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2P
2.5
21
P1
4.0
16
P1
4.3
15
P1
4.4
14
P1
4.5
13
P1
4.6
12
P1
4.7
11
P1
4.8
20
P1
4.9
19
PO
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T#
32
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3
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18
VB
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10
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24
1
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7
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12
9
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23
0
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RX
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20
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19
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03
L1
03
L400 L400
L4
01
L4
01
LED102
LED103
Q1
01
Q1
01
Q401 Q401
R1
18
R1
18
R119
R1
20
R1
20
R1
21
R1
21R
12
2R
12
2
R123
R124R125 R125
R126 R126 R127 R127
R400 R400
R4
01
R402
R403
R404 R404
R405 R405
R406
R407
R408
R409
R410 R410
R411 R411
R412 R412
R413 R413
R414 R414
1 2 3 4 5
12
34
56
78
91
0
X1
02
1 2 3 4 5
X1
03
CG
8
CT
R5
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T4
LA
9
LC
10
NC
7
RA
12
RC
11
RD
+3
RD
-6
S1
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S2
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TD
+1
TD
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00
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CK
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CM
D/M
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3
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7
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DA
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ga
lD
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r
The
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rmation
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inth
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entshall
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ns
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cte
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ith
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rmation
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Technolo
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Su
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An
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Dig
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Hib
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5TH-Pads
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Pin
UA
RT
SP
DS
WV
JT
AG
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 19 Revision 1.0, 2015-11-20
Figure 11 Relax Kit Schematic: Pin Header, Voltage Level Shifter, Power Supply, CAN transceiver
10uF/10V 10uF/10V
10uF/10V 10uF/10V
100nF 100nF
100nF 100nF
100nF 100nF
100nF 100nF
10
0n
F
GNDGND
GND
GND
GN
DG
ND
GND
GN
D
GND
GND
GN
D
GND
GN
DG
ND
GN
D
GN
D
GN
D
GN
DG
ND
GN
DG
ND
IFX
11
17
ME
V3
3
TX
S0
10
8E
PW
TX
S0
10
8E
PW
TX
S0
10
8E
PW
TX
S0
10
8E
PW
IFX
10
51
LE
LED-GN/D/0603680R/0603
10k noass./0R 10k noass./0R
0R
Arr
ay
0R
Arr
ay
0R
Arr
ay
0R
Arr
ay
VD
D3
.3V
DD
3.3
VD
D3
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DD
3.3
VD
D3
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DD
3.3
VDD3.3
VD
D5
VD
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DD
3.3
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VD
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VD
D5
VD
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DD
3.3
VD
D5
VD
D5
VDD3.3
VD
D3
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DD
3.3
VD
D5
VD
D5
VDD5
VDD3.3 VDD3.3
C132 C132
C133 C133
C300 C300
C301 C301
C302 C302
C303 C303
C3
04
ADJ1
IN3
OU
T1
2
OU
T2
4
IC1
02
IC3
00
A1
1
A2
3
A3
4
A4
5
A5
6
A6
7
A7
8
A8
9
B1
20
B2
18
B3
17
B4
16
B5
15
B6
14
B7
13
B8
12
GN
D1
1O
E1
0
VC
CA
2V
CC
B1
9
IC3
00
IC3
01
A1
1
A2
3
A3
4
A4
5
A5
6
A6
7
A7
8
A8
9
B1
20
B2
18
B3
17
B4
16
B5
15
B6
14
B7
13
B8
12
GN
D1
1O
E1
0
VC
CA
2V
CC
B1
9
IC3
01
CA
NH
7
CA
NL
6G
ND
2*2
RM
8
RX
D4
TX
D1
V3
35
VC
C3
IC4
02
123
JP
30
0
LED104
R130
R300 R301 R302 R303
RA
200
123456789 1
01
11
21
31
41
51
6
RA
200
RA
201
123456789 1
01
11
21
31
41
51
6
RA
201
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
53
63
73
83
94
0
X1
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
53
63
73
83
94
0
X2
X300
1 23 45 6
X300
1 2 3 4 5 6
X3
01
1 2 3 4 5 6 7 8
X3
02
12345678
X3
03
X3
04
12345678910
X3
04
CA
NH
CA
NH
CA
NL
CA
NL
CA
N_
RX
CA
N_
TX
GN
D
HIB
_IO
_0
HIB
_IO
_1
IOR
EF
IOR
EF
IOR
EF
IOR
EF
P0
.0P
0.1
P0
.2P
0.3
P0
.4P
0.5
P0
.6
P0
.7P
0.8
P0
.9P
0.1
0
P0
.11
P0
.12
P0
.13
P0.1
3
P0
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*
P0
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P0.1
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P0
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P0
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P1
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P1.0
P1
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P1.0
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P1
.1
P1.1
P1
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P1
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P1.1
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P1
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P1
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P1.8
P1
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P1
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*
P1
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P1.9
P1
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P1
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P1.9
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P1
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P1.1
0
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P1.1
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P1
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P1.1
1
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P1
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P1
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P2
.6
P2
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P2.1
1
P2
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P2
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2
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P2
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4
P2
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P2
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P2
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P2.1
5
P2
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P3
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P3
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P3
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P3
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P3.7
P3
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P3
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P3
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P3
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P3
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P3
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P5
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5.3
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5.5
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5.7
P5
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P5
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P6
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6.1
P6
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6.3
P6
.4P
6.5
P6
.6
P1
4.0
P1
4.1
P1
4.2
P1
4.3
P1
4.4
P1
4.5
P1
4.6
P1
4.7
P1
4.8
P1
4.9
P1
4.1
2P
14
.13
P1
4.1
4P
14
.15
P1
5.2
P1
5.3
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5.4
P1
5.5
P1
5.6
P1
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15
.15
RE
SE
T#
RE
SE
T#
RE
SE
T#
VA
RE
F
All
resis
tors
10
0R
ARDUINOCompatibleConnectors
R1
00
-R1
05
A B C D E
12
34
56
78
A B C D E
12
34
56
78
XM
C4700_R
ela
x-V
1
14.0
9.2
015
14:3
4:3
9
3/3
Sh
eet:
Le
ga
lD
iscla
ime
r
The
info
rmation
giv
en
inth
isdocum
entshall
inno
eventbe
regard
ed
as
aguara
nte
eofconditio
ns
or
chara
cte
ristics.W
ith
respectto
any
exam
ple
sor
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tsgiv
en
here
in,any
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alvalu
es
sta
ted
here
inand/o
rany
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rmation
regard
ing
the
applic
ation
ofth
edevic
e,In
fineon
Technolo
gie
shere
by
dis
cla
ims
any
and
all
warr
anties
and
liabili
ties
ofany
kin
d,in
clu
din
gw
ithoutlim
itation,w
arr
anties
ofnon-infr
ingem
entofin
telle
ctu
alpro
pert
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part
y.
Pin
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NT
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EN
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T0
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Y_
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K
EC
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0.P
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RX
_E
RR
B
EC
AT
0.P
0_
RX
D3
BE
CA
T0
.P0
_R
X_
DV
BE
CA
T0
.P0
_T
X_
CL
KB
EC
AT
0.P
0_
RX
_C
LK
BE
CA
T0
.P0
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XD
2E
CA
T0
.P0
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XD
1E
CA
T0
.P0
_R
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0
EC
AT
0.P
1_
LIN
KA
EC
AT
0.M
CL
K
EC
AT
0.P
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D1
EC
AT
0.P
1_
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D0
EC
AT
0.P
1_
TX
_E
NA
EC
AT
0.P
0_
RX
_E
RR
B
IO_
0
IO_
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PW
M_
1P
WM
_2
INT
_0
INT
_1
,P
WM
_0
UA
RT
_T
XU
AR
T_
RX
SP
I_C
LK
SP
I_M
ISO
SP
I_M
OS
I,P
WM
_5
SP
I_C
S,
PW
M_
4P
WM
_3
IO_
2
SD
A,
AD
C_
4S
CL
,A
DC
_5
SC
L,
AD
C_
5S
DA
,A
DC
_4
AD
C_
3A
DC
_2
AD
C_
1A
DC
_0
GN
DG
ND
5V
3V
3R
ES
ET
IOR
EF
GN
DA
RE
F
NC
NC
SP
I_C
LK
SP
I_M
ISO
SP
I_M
OS
I,P
WM
_5
SP
I_C
S,
PW
M_
4P
WM
_3
IO_
2
SC
L,
AD
C_
5S
DA
,A
DC
_4
SP
I_C
LK
SP
I_M
ISO
SP
I_M
OS
I,P
WM
_5
SP
I_C
S,
PW
M_
4P
WM
_3
IO_
2
SC
L,
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C_
5S
DA
,A
DC
_4
IO_
1P
WM
_2
PW
M_
1IO
_0
INT
_1
,P
WM
_0
INT
_0
UA
RT
_T
XU
AR
T_
RX
IO_
1P
WM
_2
PW
M_
1IO
_0
INT
_1
,P
WM
_0
INT
_0
UA
RT
_T
XU
AR
T_
RX
SP
I_C
LK
SP
I_M
ISO
SP
I_M
OS
I,P
WM
_5
SP
I_C
S,
PW
M_
4P
WM
_3
IO_
2
SC
L,
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C_
5S
DA
,A
DC
_4
SP
I_C
LK
SP
I_M
ISO
SP
I_M
OS
I,P
WM
_5
SP
I_C
S,
PW
M_
4P
WM
_3
IO_
2
SC
L,
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C_
5S
DA
,A
DC
_4
IO_
1P
WM
_2
PW
M_
1IO
_0
INT
_1
,P
WM
_0
INT
_0
UA
RT
_T
XU
AR
T_
RX
IO_
1P
WM
_2
PW
M_
1IO
_0
INT
_1
,P
WM
_0
INT
_0
UA
RT
_T
XU
AR
T_
RX
DA
C.O
UT
_0
DA
C.O
UT
_1
CA
N.N
5_
TX
DC
AN
.N5
_R
XD
A
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 20 Revision 1.0, 2015-11-20
Figure 12 XMC EtherCAT Phy Board Schematic: Input and Output Phy
//
mu
cs
dn
31
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//
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VDD1.8 VDD1.8VDD1.8 VDD1.8
VD
D1.8
VD
D1.8 VD
D1.8
VD
D1.8
VDD3.3
VD
D3.3
VDD3.3
VD
D3.3
VD
D3.3
VD
D3.3
VDD3.3
VDD3.3
VD
D3.3
100nF
/0402
100nF
/0402
100nF
/0402
100nF/0402 100nF/0402
100nF/0402 100nF/0402
10uF/10V/0805 10uF/10V/0805
100nF/0402 100nF/0402
100nF/0402 100nF/0402
10uF/10V/0805 10uF/10V/0805
100nF/0402 100nF/0402
100nF/0402 100nF/0402
100nF/0402 100nF/0402
100nF/0402 100nF/0402
1000pF
/2kV
/1206
1000pF
/2kV
/1206
1000pF
/2kV
/1206
100nF
/0402
100nF
/0402
100nF
/0402
100nF/0402 100nF/0402
100nF/0402 100nF/0402
10uF/10V/0805 10uF/10V/0805
100nF/0402 100nF/0402
100nF/0402 100nF/0402
10uF/10V/0805 10uF/10V/0805
100nF/0402 100nF/0402
100nF/0402 100nF/0402
100nF/0402 100nF/0402
100nF/0402 100nF/0402
1000pF
/2kV
/1206
1000pF
/2kV
/1206
1000pF
/2kV
/1206
GN
D
GN
DG
ND
GN
DG
ND
GN
D
GN
D
GN
DG
ND
GN
D
GN
DG
ND
GN
DG
ND
GN
D
GN
DG
ND
GN
D
GN
DG
ND
GN
DG
ND
GN
D
GN
DG
ND
GN
DG
ND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
BLM
18P
G600
BLM
18P
G600
PT
61017P
EL
BLM
18P
G600
BLM
18P
G600
PT
61017P
EL
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
2k2
/0603
2k2
/0603
1k24/0603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
270R
/0603
270R
/0603
270R
/0603
270R
/0603
75R/0603
75R/0603
75R/0603
75R/0603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
2k2
/0603
2k2
/0603
1k24/0603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
49R
9/0
603
270R
/0603
270R
/0603
270R
/0603
270R
/0603
75R/0603
75R/0603
75R/0603
75R/0603
4*4
9R
94*4
9R
9
4*4
9R
94*4
9R
9
4*4
9R
94*4
9R
9
4*4
9R
94*4
9R
9
CHASSIS_GND CHASSIS_GND
VD
D3.3
NC
7S
Z157P
6X
BC
M5241X
A1K
MLG
NC
7S
Z157P
6X
BC
M5241X
A1K
MLG
LE
D-G
E/D
/0603
LE
D-G
N/D
/0603
LE
D-G
E/D
/0603
LE
D-G
N/D
/0603
43
86
0-0
01
0
43
86
0-0
01
0
C100
C101
C102
C103 C103
C104 C104
C105 C105
C106 C106
C107 C107
C108 C108
C109 C109
C110 C110
C111 C111
C112 C112
C113
C114
C114
C150
C151
C152
C153 C153
C154 C154
C155 C155
C156 C156
C157 C157
C158 C158
C159 C159
C160 C160
C161 C161
C162 C162
C163
C164
C164
L100
L100
1 2 3 6 7 891
0
11
14
15
16
L101
L150
L150
1 2 3 6 7 891
0
11
14
15
16
L151
R100
R100
R101
R101
R102
R102
R103
R104
R104
R105
R105
R106
R106
R107
R107
R108
R108
R109
R109
R110
R111
R112
R113
R150
R150
R151
R151
R152
R152
R153
R154
R154
R155
R155
R156
R156
R157
R157
R158
R158
R159
R159
R160
R161
R162
R163
RA
100A
RA
100A
RA
101A
RA
101A
RA
150A
RA
150A
RA
151A
RA
151A
GN
D2
I03
I11
S6
VC
C5
Z4
U100
RE
SE
T1
0
AV
DD
7
CO
L2
9C
RS
30
DV
DD
32
EX
PE
XP
GN
DO
UT
31
LE
D1
12
LE
D2
11
MD
C1
4M
DIO
13
OV
DD
9
OV
DD
22
RD
+6
RD
-5
RD
AC
8
RX
C2
0
RX
D0
18
RX
D1
17
RX
D2
16
RX
D3
15
RX
DV
19
RX
ER
21
TD
+3
TD
-4
TX
C2
3
TX
D0
25
TX
D1
26
TX
D2
27
TX
D3
28
TX
EN
24
XT
AL
I1
XT
AL
O2
U101
GN
D2
I03
I11
S6
VC
C5
Z4
U150
RE
SE
T1
0
AV
DD
7
CO
L2
9C
RS
30
DV
DD
32
EX
PE
XP
GN
DO
UT
31
LE
D1
12
LE
D2
11
MD
C1
4M
DIO
13
OV
DD
9
OV
DD
22
RD
+6
RD
-5
RD
AC
8
RX
C2
0
RX
D0
18
RX
D1
17
RX
D2
16
RX
D3
15
RX
DV
19
RX
ER
21
TD
+3
TD
-4
TX
C2
3
TX
D0
25
TX
D1
26
TX
D2
27
TX
D3
28
TX
EN
24
XT
AL
I1
XT
AL
O2
U151
V100 V101
V150 V151
11
22
33
44
55
66
77
88
S1
S1
S2
S2
X1
00 1
1
22
33
44
55
66
77
88
S1
S1
S2
S2
X1
50
EC
AT
_P
HY
_R
ST
EC
AT
_P
HY
_R
ST
IC1_R
XD
0_P
HY
AD
0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.9
P0.1
0
P0.1
1
P0.1
2
P0.1
2
P1.1
5
P1.1
5
P2.6
P3.0
P3.1
P3.2
P3.3
P3.3
P3.4
P3.4
P3.1
2
P5.0
P5.1
P5.2
P5.4
P5.5
P5.6
P5.7
P6.0 P6.0
P6.1
P6.2
P6.3
P6.4
P6.5
P6.6
P15.2
PH
Y0_C
LK
_1_8V
PH
Y1_C
LK
_1_8V
A B C D E
12
34
56
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A B C D E
12
34
56
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XM
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B-V
1
03
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1/2
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MU
X
MU
X
EC
AT
Port
0IN
EC
AT
Port
1O
UT
EC
AT
0.M
DO
EC
AT
0.M
CLK
EC
AT
0.P
HY
_R
ST
EC
AT
0.M
DO
EC
AT
0.M
CLK
EC
AT
0.P
HY
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EC
AT
0.P
0_LIN
K_A
CT
EC
AT
0.P
1_LIN
K_A
CT
EC
AT
0.P
1_LIN
KA
EC
AT
0.P
1_LIN
KA
EC
AT
0.P
0_LIN
KB
EC
AT
0.P
0_LIN
KB
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 21 Revision 1.0, 2015-11-20
Figure 13 XMC EtherCAT Phy Board Schematic: Power, Connectors, LEDs
//
mu
cs
dn
31
.e
u.
in
fi
ne
on
.c
om
/R
oe
mm
el
m/
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VDD1.8 VDD1.8 VDD3.3
VD
D3.3
VDD3.3
VDD3.3
VD
D3.3
VDD3.3 10uF/10V/0805 10uF/10V/0805
10nF
/0402
10nF
/0402
10uF/10V/0805 10uF/10V/0805
10uF/10V/0805 10uF/10V/0805
10nF
/0402
10nF
/0402
10uF/10V/0805 10uF/10V/0805
100nF
/0402
GN
DG
ND
GN
D
GN
D
GND
GN
DG
ND
GN
D
GND
GND
GN
DG
ND
GN
D
GN
D
GND
GN
DG
ND
GN
DG
ND
GN
D
4k87/0603 10k/0603
1k5/0603
0R/0603 NA/0603
680R/0603
10k/0603 49k9/0603
680R/0603 680R/0603
680R/0603 680R/0603
680R/0603
680R/0603
680R/0603
680R/0603
680R/0603
680R/0603
680R/0603
680R/0603
10k/0603
10k/0603
4k7
/0603
1k5
/0603
BC
R108W
VD
D3.3
RK
VD
D3.3
RK
VDD3.3RK VDD3.3RK
VDD5
VD
D5
VD
D5
VD
D5
VD
D5
VDD5
IFX
54441LD
V
IFX
54441LD
V33
IFX
54441LD
V33
NC
7S
Z125
VDD GND
U2
30
P
LED-GN/D/0603
LED-GN/D/0603
TOPLED/GN
TOPLED/RT
LED-RT/D/0603
LED-RT/D/0603
LED-RT/D/0603
LED-RT/D/0603
LED-RT/D/0603
LED-RT/D/0603
LED-RT/D/0603
LED-RT/D/0603
B2*2
0B
2*2
0
Sele
ctP
HY
Adre
ssfo
rP
HY
1
AD
J_1
AD
J_2
AD
J_3
C200 C200
C201
C201
C202 C202
C210 C210
C211
C211
C212 C212
C230
R200 R201
R202
R210 R211
R212
R213 R214
R220 R220
R221 R221
R222
R223
R224
R225
R226
R227
R228
R229
R230
R231
R232
R233
T200
BY
P5
EN
7
EX
PE
XP
GN
D6
IN9
*2O
UT
1*2
SE
NS
E/A
DJ
4
U200
U210
BY
P5
EN
7
EX
PE
XP
GN
D6
IN9
*2O
UT
1*2
SE
NS
E/A
DJ
4
U210
24
1
U230G
35
V200
V210
V230
V231
V232
V233
V234
V235
V236
V237
V238
V239
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
53
63
73
83
94
0
X1
12
34
56
78
91
01
11
21
31
41
51
61
71
81
92
02
12
22
32
42
52
62
72
82
93
03
13
23
33
43
53
63
73
83
94
0
X2
EC
AT
_P
HY
_R
ST
IC1_R
XD
0_P
HY
AD
0
P0.0
P0.0
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
P0.7
P0.8
P0.8
P0.9
P0.1
0
P0.1
1
P0.1
2
P0.1
2
P0.14
P0.1
4
P0.15
P0.1
5
P1.2
P1.2
P1.14
P1.1
4
P1.1
5
P2.6
P3.0
P3.1
P3.2
P3.3
P3.4
P3.11
P3.1
1P
3.1
2
P3.13
P3.1
3P3.14
P3.1
4
P5.0
P5.1
P5.2
P5.3
P5.3
P5.4
P5.5
P5.6
P5.7
P6.0
P6.1
P6.2
P6.3
P6.4
P6.5
P6.6
P15.2
A B C D E
12
34
56
78
A B C D E
12
34
56
78
XM
C_
EC
AT
_P
B-V
1
03
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.20
15
16
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2/2
Sh
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t:
LegalD
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Th
ein
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this
do
cum
en
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LED4
LED5
LED6
LED7
LED8
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AT
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XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 22 Revision 1.0, 2015-11-20
3.2 Components Placement and Geometry
Figure 14 Components Placement and Geometry
52
.1m
m
66mm
2.5
mm 27.9mm14mm
53
.3m
m
98
.3m
m
910
1112
1357
8 6 4 2
LEFTRIGHT
FRONT
1
40
1
40
1
6
AD
J_1
AD
J_1
AD
J_2
AD
J_2
AD
J_3
AD
J_3
C100C100
C101
C101
C102C102
C103C103
C104
C104
C105
C105
C106
C106
C107
C107
C108
C108
C109
C109
C110
C110
C111
C111
C112
C112
C113
C113
C114
C114
C115
C115
C116
C116
C117
C117
C118C118 C119C119 C120
C120
C121
C121
C122C122
C123C123
C124
C124
C125C125
C126
C126
C127C127
C128
C128
C129C129
C130
C130
C131C131
C132
C132
C133
C133
C300
C300
C301
C301
C302
C302
C303
C303
C304
C304
C400
C400C
401
C401
C402
C402
C403C403
C404C404
C405C405
C406C406
C407C407C408
C408
C409C409
C410C410
C411C411 C412C412
C413C413
D100D100
D101
D101
D102D102
D103
D103
D400D400
D401
D401
IC100
IC100
IC101
IC101
IC102
IC102
IC300
IC300
IC301
IC301
IC400
IC400
IC401
IC401
IC402
IC402
JP300
JP300
L100
L100
L101L101
L102L102
L103L103
L400L400
L401L401
LE
D100
LE
D100
LE
D101
LE
D101
LE
D102
LE
D102
LE
D103
LE
D103
LE
D104
LE
D104
Q100Q100
Q101
Q101
Q400
Q400
Q401
Q401
R100R100
R101R101
R102R102
R103R103
R104
R104
R105R105
R106
R106
R107
R107
R108
R108
R109R109R110R110
R111
R111
R112
R112
R113
R113
R114R114 R115R115 R116R116
R118
R118
R119R119
R120
R120
R121
R121 R122
R122
R123
R123
R124
R124
R125R125
R126R126 R127R127
R130R130
R300
R300
R301
R301
R302
R302
R303R303
R400
R400
R401
R401
R402
R402
R403R403
R404
R404
R405R405
R406R406
R407
R407R408R408
R409R409
R410
R410
R411
R411
R412
R412
R413
R413
R414
R414
RA
200
RA
200
RA
201
RA
201
SW
100
SW
100
SW
101
SW
101
SW
102
SW
102
X1
X1
X2
X2
X100
X100
X101
X101
X102X102
X103
X103
X300
X300
X301
X301
X302
X302
X303
X303
X304
X304
X400
X400
X401
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 23 Revision 1.0, 2015-11-20
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
10uF 10V 10% 0805 Capacitor X5R 9
C101, C102, C103, C104,C113, C126, C127, C132,C133
10uF 10V 10% 0805 Capacitor X5R 1 C404 B
22uF 10V 20% 0805 Capacitor X5R 2 C402, C407 B
100nF 16V 10% 0402 Capacitor X7R 19
C100, C105, C106, C107,C108, C109, C110, C111,C112, C114, C115, C118,C119, C123, C124, C128,C129, C130, C131
100nF 16V 10% 0402 Capacitor X7R 5C300, C301, C302, C303,C304 A
100nF 16V 10% 0402 Capacitor X7R 6C403, C406, C408, C411,C412, C413 B
10nF 16V 10% 0402 Capacitor X7R 1 C120
2.2uF 10V 10% 0805 Capacitor X7R 1 C405 B
4.7uF 10V 10% 0805 Capacitor X7R ESR<50mOhm 1 C125
10-pinConnection Header 10-pin 0.1" THTSSW-110-01-G-S 1 X304 A
6-pinConnection Header 6-pin 0.1" THTSSW-106-01-G-S 1 X301 A
8-pinConnection Header 8-pin 0.1" THTSSW-108-01-G-S 2 X302, X303 A
RJ45Connector 10/100 Ethernet7499010211A Wüth 1 X400 B
ZX62-AB-5PAConnector Micro USB AB SMD ZX62-AB-5PA Hirose 2 X100, X101
microSD-Card SlotConnector microSD MOLEX-0475710001 1 X401 B
12MHz 3.2x2.5Crystal 12MHz 4Pad NX3225SA12MHz NDK 2 Q100, Q101
25MHz 3.2x2.5Crystal 25MHz 4Pad NX3225SA25MHz NDK 1 Q401 B
32.768KHz 3.2x1.5Crystal 32.768KHz SMD 12.5pF NDKNX3215SA-32.768K 1 Q400 B
BAT64-02V SC79 Diode Infineon 2 D400, D401 B
BAS3010A-03W SOD323 Diode Schottky 30V 1A Infineon 2 D101, D103
KSZ8081RNACA QFN24 Ethernet PHY RMII Micrel 1 IC400 B
BLM18PG600SN1D 0603 Ferrite Bead 60R 500mA Murata 4 L100, L101, L102, L103
BLM18PG600SN1D 0603 Ferrite Bead 60R 500mA Murata 2 L400, L401 B
XMC4700/XMC4800 Relax Kit Series-V1
Production Data
Board Users Manual 24 Revision 1.0, 2015-11-20
Value Device Qty Reference Designator Note*
N25Q032A13ESE40SO8W 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 A
XMC4200-Q48K256QFN48 Microcontroller XMC4200 Infineon 1 IC101
XMC4700/XMC4800-F144F2048 LQFP144
Microcontroller XMC4700/XMC4800Infineon 1 IC100
2x20pin 0.1" Pin Header THT 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-3-1 Diode Protection Infineon 2 D100, D102
FSM2JSMA Pushbutton ON SMD Tyco 3 SW100, SW101, SW102
0R 1% 0402 Resistor 1 R110
100R 1%0 402 Resistor 6R100, R101, R102, R103,R104, R105
10K 1% 0402 Resistor 5R114, R115, R116, R119,R127
10k 1% 0402 Resistor 2 R300, R302 A
10k 1% 0402 Resistor 9
R403, R407, R408, R409,R410, R411, R412, R413,R414 B
120R 1% 0603 Resistor 2 R404, R405 B
1k 1% 0402 Resistor 2 R400, R402 B
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 ArrayResistor Network EXB2HVR000VPanasonic 2 RA200, RA201 D
IFX1117MEV33 SOT223 Voltage Regulator 3.3 V Infineon 1 IC102
*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
w w w . i n f i n e o n . c o m
Published by Infineon Technologies AG