evaluation board - mouser electronics · pc/notebook via x101 and a second host pc/laptop connected...
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Microcontrol ler
Eva luat ion Board For XMC4000 Family
Board User ‘s Manual
Revision 2019-08-30
XMC4200 P latform2Go Kit Version 1.1
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Edition 2019-08-30
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2019 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.
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XMC4200 Platform2Go Series-V1
Template: IFX_Template_2011-02-24.dot
Revision History
Page or Item Subjects (major changes since previous revision)
Revision 2019-08-30
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 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.
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XMC4200 Platform2Go Series-V1
Table of Contents
Board Users Manual 4 Revision 2019-08-30
Table of Contents
1 Introduction ............................................................................................................................. 6
1.1 Key Features ......................................................................................................................................... 7
1.2 Block Diagram ...................................................................................................................................... 8
2 Hardware Description ............................................................................................................... 8
2.1 Power Supply ..................................................................................................................................... 11
2.2 Pin Header X1 and X2 ......................................................................................................................... 12
2.3 Pin Header for Microbus and Shield2Go Connector 1 and 2 ............................................................. 13
2.4 Solderable 0 Ohm Pin Bridges ............................................................................................................ 14
2.5 Arduino Compatible Connector ......................................................................................................... 15
2.6 User Push Buttons, Potentiometer and User LEDs ............................................................................ 16
2.7 On-board Debug Probe ...................................................................................................................... 16
2.8 UART Communication for XMC4200 .................................................................................................. 16
2.9 Cortex™ Debug Connector (10-pin) ................................................................................................... 16
2.10 Reset .................................................................................................................................................. 17
2.11 CAN Transceiver ................................................................................................................................. 17
2.12 Boot Option ........................................................................................................................................ 18
3 Production Data ...................................................................................................................... 18
3.1 Schematics ......................................................................................................................................... 18
3.2 List of Material ................................................................................................................................... 24
List of Figures
Figure 1 Block Diagram of the XMC4200 Platform2Go Series-V1.1 .................................................................. 8
Figure 2 XMC4200 Platform2Go 3.3V ................................................................................................................ 9
Figure 3 XMC4200 Platform2Go 5V ................................................................................................................... 9
Figure 4 XMC4200 Platform2Go 3.3V Lite ....................................................................................................... 10
Figure 5 XMC4200 Platform2Go 5V Lite .......................................................................................................... 10
Figure 6 Power Supply Concept ....................................................................................................................... 11
Figure 7 Signal mapping of the pin headers X1 and X2 ................................................................................... 12
Figure 8 Signal mapping of the pin headers for Microbus and Shield2Go Connector 1 and 2 ........................ 13
Figure 9 Mapping of Arduino Functions to XMC Pin Functions ....................................................................... 15
Figure 10 Connectors Schematic: Pin header, Pin Bridges, Level Shifter, Microbus, Shield2Go ....................... 19
Figure 11 XMC_4200_Debug Schematic: OBD Probe ........................................................................................ 20
Figure 12 XMC4200 Schematic: USB connector, Microcontroller pins and power, Potentiometer Button and
LED ..................................................................................................................................................... 21
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XMC4200 Platform2Go Series-V1
Table of Contents
Board Users Manual 5 Revision 2019-08-30
Figure 13 ICs and Power Schematic: Can Transceiver, RTC Battery, Power ...................................................... 22
Figure 14 Geometry ........................................................................................................................................... 23
List of Tables
Table 1 Kit Specification ................................................................................................................................... 6
Table 2 Kit Features of Assembly Versions ....................................................................................................... 7
Table 3 Signal mapping of the 0 Ohm Pin Bridges ......................................................................................... 14
Table 4 XMC4200 Pin Mapping for User LEDs ................................................................................................ 16
Table 5 XMC4200 Pin Mapping for User Push Buttons and Potentiometer .................................................. 16
Table 6 XMC4200 Pins Mapping for Debugging and UART-Communication ................................................. 16
Table 7 Pin Assignment of the Cortex™ Debug Connector (X102) ................................................................. 17
Table 8 CAN Signals and XMC4200 Pin Mapping ........................................................................................... 17
Table 9 Boot Mode Selection with external Pull Resistors ............................................................................ 18
Table 10 List of Material .................................................................................................................................. 24
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XMC4200 Platform2Go Series-V1 Introduction
Board Users Manual 6 Revision 2019-08-30
1 Introduction
This document describes the features and hardware details of the XMC4200 Platform2Go Series-V1.1 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 XMC4200 Platform2Go Series-V1.1 are designed to evaluate the capabilities of the XMC4200 Microcontroller. Table 1 shows its specification.
Table 1 Kit Specification
Processor Infineon’s ARM® Cortex®-M4 XMC4200 Microcontroller in PG-LQFP-64-19 package (order number XMC4200-F64K256)
Flash Memory 256 kB Flash
Data Memory 40 kB
Dimensions 66 x 129 mm
Clock Crystals 12 MHz and 32.768 kHz crystal for CPU
Power
5V external powering
Micro-AB USB Connector interface or
On-Board Debugger USB interface
Connectors
Arduino compatible connectors for 3.3V/5V
Two Shield2Go connectors
All relevant XMC™ pins available on expansion pads (X1, X2)
mikroBUS™ connector
9-Position D-Sub Connector
microUSB
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
CAN transceiver connected to D-Sub Connector
1 user push-button, 1 user LED
Reset push-button
Potentiometer for variable analog input
The XMC4200 Platform2Go Series-V1.1 are available in four different assembly versions differentiating in features:
XMC4200 Platform2Go for 3.3V Shields
XMC4200 Platform2Go for 5V Shields
XMC4200 Platform2Go Lite for 3.3V Shields
XMC4200 Platform2Go Lite for 5V Shields
The XMC4200 Platform2Go features an Ethernet-enabled communication option. You can control the XMC4200 Platform2Go via the web browser on your PC.
Additional voltage level shifters and Arduino connection header on the XMC4200 Platform2Go allow the usage of Arduino shields with 3.3V or 5V logic level.
The Ethernet-communication is not supported by the XMC4200 Platform2Go Lite Kit, because some components e.g. for Ethernet are not assembled.
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XMC4200 Platform2Go Series-V1 Introduction
Board Users Manual 7 Revision 2019-08-30
All boards are marked with “Platform2Go XMC4200-V1.1” 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 XMC4200 Platform2Go Series-V1.1.
Table 2 Kit Features of Assembly Versions
Feature XMC4200 Platform2Go
3.3V
XMC4200 Platform2Go
3.3V Lite
XMC4200 Platform2Go
5V
XMC4200 Platform2Go
5V Lite
XMC4200 Microcontroller
On-board Debug Probe with USB interface supporting SWD + SWO
Virtual COM Port via Debug Probe
1 x User Push-Button and
1 x User LED and
1 x Reset Push-Button
1 x Potentiometer
Voltage Regulator 5 V -> 3.3 V
USB (Micro USB Plug)
12 MHz Crystal
32.768 kHz RTC Crystal
Arduino compatible connector 3.3 V / 5 V Arduino shields
0 Ohm Bridges Array for 3.3 V Arduino shields
Voltage level shifter for 5 V Arduino
D-Sub Connector
CAN Transceiver
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 8 Revision 2019-08-30
1.2 Block Diagram
The block diagram in Figure 1 shows the main components of the XMC4200 Platform2Go Series-V1.1 and their interconnections. There are following main building blocks:
XMC4200 ontroller in a LQFP64 package
On-board USB debug probe based on XMC4200 for SWD, SWV and Virtual COM Port support
Two 40-pin header X1 and X2
Connection Header for Arduino
MikroBUSTM connector
Two Infineon Shield2Go connectors (at the bottom of the board)
Potentiometer (10kOhm)
On-board power generation
User Push-Button, User LED, Reset Push-Button
Micro-AB USB Plug
CAN Transceiver connected to 9-position D-Sub connector RS232
Figure 1 Block Diagram of the XMC4200 Platform2Go Series-V1.1
2 Hardware Description
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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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 9 Revision 2019-08-30
Figure 2 XMC4200 Platform2Go 3.3V
Figure 3 XMC4200 Platform2Go 5V
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 10 Revision 2019-08-30
Figure 4 XMC4200 Platform2Go 3.3V Lite
Figure 5 XMC4200 Platform2Go 5V Lite
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 11 Revision 2019-08-30
2.1 Power Supply
The XMC4200 Platform2Go Series-V1.1 must be supplied by an external 5 Volt DC power supply connected to any of the micro USB plugs (X100, X101). 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 XMC4200 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.
Figure 6 Power Supply Concept
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 12 Revision 2019-08-30
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 XMC4200. Figure 7 shows the available GPIOs / signals at these pin headers. The pin table is also printed onto the bottom side of the PCB in bottom view.
Pin Header X2
Pin Header X1
GND 2 1 P0.7 CS_MB
RESET# 2 1 GND
RST/GPIO2_2GO_1 P0.8 4 3 NC
UART_RX P2.15 4 3 P2.14 UART_TX
NC 6 5 NC
NC 6 5 NC
NC 8 7 P0.11 PWM3
SPI_CS.PWM_4 P1.7 8 7 NC
NC 10 9 P0.5 INT/GPIO3_2GO_1
SPI_MOSI/PWM_5 P1.9 10 9 P1.8 SPI_CLK
RST/GPIO2_2GO_2 P0.6 12 11 P0.3 INT/GPIO3_2GO_2
PWM_MB P1.1 12 11 P1.0 INT_0
GPIO1_S2GO_1 P0.4 14 13 P0.1 LED1
QSPI_IO2 P1.3 14 13 P1.2 PWM/GPIO4_2GO_1
CS_2GO_1 P0.2 16 15 P0.10 INT_MB
QSPI_IO0 P1.5 16 15 P1.4 PC_TXD
SPI_MISO P0.0 18 17 NC
NC 18 17 NC
CS_2GO_2 P0.9 20 19 P3.0 SCL, ADC_5
NC 20 19 NC
NC 22 21 P14.14 AN2_2GO
BUTTON1 P1.15* 22 21 NC
SDA, ADC_4,
AN1_2GO P14.4 24 23 NC
NC 24 23 NC
NC 26 25 P14.6 ADC_1
NC 26 25
ADC_2 P14.7 28 27 NC
RST_MB P2.7 28 27 P2.6 IO_2
SCL, ADC_5,
AN2_2GO P14.5 30 29 NC
GPIO1_2GO_2
P2.1 30 29 P2.0*
CAN_TX
CAN_RX P14.3* 32 31 NC
PWM_1 P2.3 32 31 P2.2 INT_1, PWM_0
ADC0/Potentiometer P14.0 34 33 P14.8 AN_MB/DAC0
SDA, ADC_4 P2.5 34 33 P2.4 PWM_2
AN1_2GO/DAC1 P14.9 36 35 HIB_IO_0
IO_0 P2.9 36 35 P2.8 IO_1
VARREF 38 37 NC
NC 38 37 NC
VDD3.3 40 39 #VBAT
VDD5 40 39 VDD3.3
(Top View)
Figure 7 Signal mapping of the pin headers X1 and X2
*Note: These pins have solderable 0 Ohm (0805) resistor bridges. See section 2.4 and Table 3.
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 13 Revision 2019-08-30
2.3 Pin Header for Microbus and Shield2Go Connector 1 and 2
The pin header for Microbus and Shield2Go Connector 1 and 2 can be used to extend the evaluation board or to perform measurements on the XMC4200. Figure 8 shows the available signals at these pin headers. The Shield2Go pin header is mounted on the bottom. The pin table is also printed onto the top and bottom side of the PCB in each view.
Shield2Go Connector 1 (bottom) Shield2Go Connector 2(bottom)
1 VDD5 5V 1 VDD5 5V
2 P14.4 AN1 RX P2.14 10 2 P14.9 AN1 RX P2.15 10
3 P14.14 AN2 TX P2.15 11 3 P14.5 AN2 TX P2.14 11
4 P2.5 SDA RST/GPIO2 P0.8 12 4 P2.5 SDA RST/GPIO2 P0.6 12
5 P3.0 SCL GPIO1 P0.4 13 5 P3.0 SCL GPIO1 P2.1 13
6 GND GND CS P0.2* 14 6 GND GND CS P0.9* 14
7 VDD3.3 3V3 SCLK P1.8* 15 7 VDD3.3 3V3 SLCK P1.8* 15
8 P0.5 INT/GPIO3 MOSI P1.9* 16 8 P0.3 INT/GPIO3 MOSI P1.9* 16
9 P1.2 PWM/GIO4 MISO P0.0* 17 9 P1.3 PWM/GPIO4 MISO P0.0* 17
(Bottom View) (Bottom View)
Microbus Connector
1 P14.8 AN PWM P1.1 16 *Note:
The SPI channels MOSI MISO and SLCK
are connected with both shields and the
microbus.
Each of the three mentioned connectors
has an own CS (Chipselect) channel.
2 P2.7 RST INT P0.10 15
3 P0.7* CS RX P2.15 14
4 P1.8* SCK TX P2.14 13
5 P0.0* MISO SCL P3.0 12
6 P1.9* MOSI SDA P2.5 11
7 VDD3.3 3.3V 5V VDD5 10
8 GND GND GND GND 9
(Top View)
Figure 8 Signal mapping of the pin headers for Microbus and Shield2Go Connector 1 and 2
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 14 Revision 2019-08-30
2.4 Solderable 0 Ohm Pin Bridges
The 0 Ohm (0805) pin bridges enable/disable the signal pins in Table 3 (enabled by default).
To disable the signals, their resistor has to be removed. The XMC4200 pins are then usable for other usages.
Table 3 Signal mapping of the 0 Ohm Pin Bridges
Resistor XMC Pin Signal
R3 P2.0 CAN_TX
R4 P14.3 CAN_RX
R5 P1.15 BUTTON1
R7 P14.0 Potentiometer
R112 P0.1 LED1
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 15 Revision 2019-08-30
2.5 Arduino Compatible Connector
The mapping of GPIOs and XMC pin functions to Arduino compatible functions can be found in Figure 9. The Arduino compatible connector supports
SPI interface (SPI_xxx)
I2C interface (I2C_xxx)
UART interface (UART_xxx)
PWM signal outputs (PWM0-3)
ADC input (ADC0-5)
Interrupt input (INT0-1)
Figure 9 Mapping of Arduino Functions to XMC Pin Functions
The XMC4200 Platform2Go 5V 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. ADC0 is also connected to the Potentiometer for a variable value of the analog input (optional see Table 5).
Note: Parallel operation of I2C and ADC4 / ADC5 is not possible, because they share the same Arduino pins.
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XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 16 Revision 2019-08-30
2.6 User Push Buttons, Potentiometer and User LEDs
The XMC4200 Platform2Go Series-V1.1 provides one user push button, one LED and one Potentiometer. The port pins used can be found in Table 4 and Table 5.
Table 4 XMC4200 Pin Mapping for User LEDs
LED XMC Pin Resistor
LED1* P0.1 R112 (680 Ohm)
Table 5 XMC4200 Pin Mapping for User Push Buttons and Potentiometer
Button XMC Pin Resistor
BUTTON1* P1.15 R5
Potentiometer* P14.0 R7
*Note: The push button, the potentiometer and the LED can be disabled by removing their designator.
Also see Table 3.
Debugging and UART-to-USB Communication The XMC4200 Platform2Go Series-V1.1 supports debugging via 2 different channels:
On-board debug probe
10-pin Cortex™ Debug Connector (not assembled)
2.7 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 6 shows the pin assignment of the XMC4200 used for debugging and UART communication.
2.8 UART Communication for XMC4200
Table 6 XMC4200 Pins Mapping for Debugging and UART-Communication
Pin Function Input/Output XMC Pin
Data pin for Debugging via SWD I/O TMS
Clock pin for Debugging via SWD O TCK
Transmit pin for UART communication (PC_RX) O XMC4200 Debugger
P1.5 (TXD_U0C0.DOUT0)
Receive pin for UART communication (PC_TX) I XMC4200 Debugger
P1.4 (RXD_U0C0.DX0B)
Transmit pin for UART(UART_RX) O XMC4200
P2.15(RXD_U1C0.DX0C)
Receive pin for UART(UART_TX) I XMC4200
P2.14(TXD_U1C0.DOUT0)
2.9 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.
![Page 17: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/17.jpg)
XMC4200 Platform2Go Series-V1 Hardware Description
Board Users Manual 17 Revision 2019-08-30
Table 7 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)
7 NC Not connected
8 NC Not connected
9 GND_Detect Ground detect
10 RESET Rest (active low)
2.10 Reset
The reset pin (PORST#) of the XMC4200 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 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 (“RESET”)
the on-board debug probe (IC101.47)
the external debugger connected to the 10-pin Cortex™ Debug probe connector (X102)
the Arduino Power Header (X302.3, “RESET#”)
the pin header X1 (X1.2, “RESET#”)
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.
2.11 CAN Transceiver
The XMC4200 Platform2Go provides a CAN interface via X3, a D-Sub DE-9, and the X1 and X2 connector. Infineon’s high speed CAN transceiver (IFX1051LE) for industrial applications supports 3.3V I/O logic and is suitable for 12 V and 24 V bus systems with an excellent EMC performance. The CAN bus (signals CANH, CANL) are terminated by a 120 Ohm resistor and can provide 5V if R_opt is assembled with a 0 Ohm 0805 resistor (not assembled by default). The other CAN bus (CAN_TX, CAN_RX) is not terminated by a 120 Ohm and needs to be terminated externally. To use the CAN_TX/RX pins otherwise see also Table 3.
Table 8 CAN Signals and XMC4200 Pin Mapping
Signal Name
Pin No. at Pin Header XMC Pin, XMC Function
CANH X3.7 -
CANL X3.2 -
CAN_TX X2.34 P2.0, CAN_TX
CAN_RX X1.29 P14.0, CAN_RX
GND X3.3, X3.6 -
VDD5 X3.9 -
![Page 18: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/18.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 18 Revision 2019-08-30
2.12 Boot Option
During power-on-reset the XMC4200 latches the signal level at the pins TMS and TCK. Based on the logic levels latched at these pins after reset the XMC4200 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 XMC4200 Platform2Go Series-V1.1 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 pull-up- or pull-down resistors to TMS and TCK pins. These pins are available at the 10-pin debug connector X102.
Table 9 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)
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 XMC4200 Platform2Go Series-V1.1 in.
![Page 19: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/19.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 19 Revision 2019-08-30
Figure 10 Connectors Schematic: Pin header, Pin Bridges, Level Shifter, Microbus, Shield2Go
Connector, Arduino Level Jumper
11
22
33
44
55
66
77
88
DD
CC
BB
AA
25
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atus
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Conn
ecto
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oc
Pinheader/Arduinopinheader
Arduino Level Shifter
Arduino Level Jumper
Arduino Level Shifter Bridges
IO_0
IO_1
PWM_1
PWM_2
INT_0
INT_1, PWM_0
UART_TX
UART_RX
ADC_2
ARDUINO Compatible Connectors
GND
GND
5V
3V3
RESET
NC
IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX
IO_1
PWM_2
PWM_1
IO_0
INT_0
UART_TX
UART_RX
IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX
IO_1
PWM_2
PWM_1
IO_0
INT_1, PWM_0
INT_0
UART_TX
UART_RX
VD
D3.
3
VD
D3.
3
VD
D5
GN
D
VD
D3.
3
GN
D
GN
DG
ND
GN
D
GN
D
GN
D
R100
R101
R102
R103
R104
R105
C300 100nF
C301 100nF
C302 100nF
C303 100nF
R300
10k R3
0210
k
R301
0R
R303
0R no a
ss.
no ass.
C304
100n
F
VCC
A2
GN
D11
OE_
N10
A1
1
A2
3
A3
4
A4
5
A5
6
A6
7
A7
8
A8
9
B120
B218
B317
B416
B515
B614
B713
B812
VCC
B19
IC30
0
TXS0
108E
PWR
SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI
SPI_CS
SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI
SPI_CS
IORE
F
VD
D3.
3V
DD
3.3
GN
D
VCC
A2
GN
D11
OE_
N10
A1
1
A2
3
A3
4
A4
5
A5
6
A6
7
A7
8
A8
9
B120
B218
B317
B416
B515
B614
B713
B812
VCC
B19
IC30
1
TXS0
108E
PWR
P2.1
4*P2
.14
P2.1
5
VD
D3.
3
IORE
F
GN
D
VD
D3.
3
VD
D3.
3 GN
D
VD
D5
GN
D
UART_RX
UART_TX
ADC_3/AN_MB/DAC0
AN RST
CS SCK
MIS
OM
OSI
3.3V
GND
PWM
INT RX TX SCL
SDA 5V
GND
MIK
ROBU
S
PWM_MB/P1.1
SPI_MOSI
SPI_MISO
SPI_CLK
CS_MB/P0.7
RST_MB/P2.7
INT_MB/P0.10
Microbus Connector
SCL, ADC_5
SDA, ADC_4
GN
D
SCL, ADC_5
SDA, ADC_4
UART_TX
UART_RX
P2.1
5
SPI_CLK
SPI_MISO
SPI_MOSI
PWM/GPIO4_2GO_1
CS_2GO_1/P0.2
INT/GPIO3_2GO_1
RST/GPIO2_2GO_2
VD
D3.
3VD
D5
1 2 3 4 5 6 7 8 91716151413121110
5V AN
1A
N2
SDA
SCL
GN
D3V
3IN
T/G
PIO
3PW
M/G
PIO
4
RX TXRS
T/G
PIO
2G
PIO
1CS
SCLK
MO
SIM
ISO
PASS
IVE
S2G
-1P-
1
Shie
ld2G
o-S2
G-1
P
1 2 3 4 5 6 7 8 91716151413121110
5V AN
1A
N2
SDA
SCL
GN
D3V
3IN
T/G
PIO
3PW
M/G
PIO
4
RX TXRS
T/G
PIO
2G
PIO
1CS
SCLK
MO
SIM
ISO
PASS
IVE
S2G
-1P-
2
Shie
ld2G
o-S2
G-1
P
VD
D5
GN
D
VD
D3.
3
P2.1
5P2
.14
PWM/GPIO4_2GO_2
UART_TX
UART_RX
SPI_CLK
SPI_MISO
SPI_MOSI
CS_2GO_2/P0.9
GPIO1_2GO_2/P2.1
RST/GPIO2_2GO_1
SCL, ADC_5
SDA, ADC_4
INT/GPIO3_2GO_2
Shield2Go Connector
INT_1, PWM_0
SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI
SPI_CS
PWM_3
IO_2
SCL, ADC_5
SDA, ADC_4
SPI_CLK
SPI_MISO
SPI_MOSI
SPI_CS
PWM_3
IO_2
P2.1
5*
12
34
56
78
910
11 13 15 17 19 21 23 25 27 29 31
12 14 16 18 20 22 24 26 28 30 3233 35 37 39
34 36 38 40
X2
M20
-610
2045
123JP
300
TSW
-103
-05-
L-S
IORE
F
12
34
56
X30
0
GN
D
VD
D5
RESE
T#
1 2 3 4 5 6 7 8
X30
2
IORE
FRE
SET#
VD
D3.
3V
DD
5
GN
D
1 2 3 4 5 6
X30
1
12345678X
303
P2.1
5*P2
.14*
110 29 38 47 56
X30
4
GN
DVA
REF
SPI_CLK
SPI_MISO
SPI_MOSI
SPI_CS
PWM_3
IO_2
SCL, ADC_5
SDA, ADC_4
GND
AREF
SDA, ADC_4, AN1_2GO
SCL, ADC_5, AN2_2GO
12
34
56
78
910
11 13 15 17 19 21 23 25 27 29 31
12 14 16 18 20 22 24 26 28 30 3233 35 37 39
34 36 38 40
X1
M20
-610
2045
Shie
lds s
hare
rese
t pin
P0.
10
R30R
R40R
CAN
_TX
CAN
_RX
GPIO1_2GO_1/P3.0
R50R
BUTT
ON
1BUTTON1
P0.0
P0.0
P0.0
P0.0
*
P0.0
P0.0
*
P0.0
*
P0.2
P0.3
P0.5
P0.7
P0.6
P0.8
P0.9
P0.1
0
P3.0
P3.0
P3.0
P3.0
P3.0
*
P3.0
P3.0
*
P3.0
*
P3.0
*
P1.1
P0.0
*
P1.3
CAN_TX/P2.0
P2.5
P2.5
P2.5
P2.5
P2.5
P2.5
*
P2.5
*
P2.5
*
P2.5
*
P1.7
*
P1.7
*
P1.7
*P1
.7
P1.7
P1.8
P1.8
P1.8
P1.8
P1.8
P1.8
*
P1.8
*
P1.8
*
P1.8
*P1
.9
P1.9
P1.9
P0.0
P1.9
P1.9
P1.9
*
P1.9
*
P1.9
*
P1.9
*
P2.1
P2.2
P2.2
P2.2
*
P2.2
*
P2.2
*
P2.3
P2.3
P2.3
*
P2.3
*
P2.4
P2.4
P2.4
*
P2.3
*
P2.4
*
P2.4
*
P1.0
P1.0
P1.0
*
P1.0
*
P1.0
*
P1.1
5
P2.8
P2.8
P2.8
*
P2.8
*
P2.8
*
P2.9
P2.9
P2.9
*
P2.9
*
P2.9
*
P2.1
4
P2.1
5
P2.1
4*
P2.1
5*
P14.
0ADC_1/CAN_RX/P14.3
P14.
6
P14.
3CAN_RX/P14.3
P14.
7P1
4.8
P14.
4P1
4.5
AN2_2GO
P14.
4P1
4.14
P14.
9P1
4.5
AN1_2GO/DAC1
P14.
8
P2.1
4P2
.15
Pin Bridges
VD
D3.
3
SPI_CS
SPI_MOSI
ADC0/Potentiometer/P14.0
1 2 3 4 5 6 7 8910111213141516
RA20
0A
0R
1 2 3 4 5 6 7 8910111213141516
RA30
0A
0R
P0.1
1P0
.11*
P0.1
1*
P1.2
P2.0
P2.6
P2.6
*
P2.6
*
P2.7
ADC_3/AN_MB/DAC0
P0.4
P0.8
GN
D
P0.7
P0.1
1
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.9
P0.1
0P0
.0P3
.0
P14.
0P1
4.3
P14.
5P1
4.7
P14.
8P1
4.9
P14.
14
VARE
FH
IB_I
O_0
#VBA
T
P2.1
4P2
.15
P1.0
P1.1
P1.2
P1.3
P1.4
P1.5
P1.7
P1.8
P1.9
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
RESE
T#
VD
D5
VD
D3.
3
UART_TX
UART_RX
GN
D
PWM_MB/P1.1
PWM/GPIO4_2GO_2
PC_RXD
PC_TXD
SDA, ADC_4
PWM_1
PWM_2
IO_0
INT_1, PWM_0
GPIO1_2GO_2/P2.1
RST_MB/P2.7
IO_1
IO_2
CAN_TX/P2.0
SPI_CLK
INT_0
PWM/GPIO4_2GO_1
SPI_MISO
PWM_3
RST/GPIO2_2GO_1
GPIO1_S2GO_1
P0.1/LED1
INT/GPIO3_2GO_2
INT/GPIO3_2GO_1
RST/GPIO2_2GO_2
INT_MB/P0.10
CS_MB/P0.7
CS_2GO_1/P0.2
CS_2GO_2/P0.9
AN_MB/DAC0
CAN_RX/P14.3
ADC_1
ADC_2
AN2_2GO
ADC0/Potentiometer/P14.0
AN1_2GO/DAC1
P14.
6
SCL, ADC_5
PWM_3
PWM_3
P0.1
1P0
.11*
IO_2
IO_2
P2.6
P2.6
*
P14.
4BUTTON1
SDA, ADC_4, AN1_2GO
SDA, ADC_4, AN1_2GO
SCL, ADC_5, AN2_2GO
SCL, ADC_5, AN2_2GO
P1.1
5
P2.1
4PIC30001 PIC30002 COC30
0
PIC30101 PIC30102 COC301
PIC30201 PIC30202 COC302
PIC30301 PIC30302 COC303
PIC30401 PIC30402 COC304
PIIC
3000
1
PIIC
3000
2
PIIC
3000
3
PIIC
3000
4
PIIC
3000
5
PIIC
3000
6
PIIC
3000
7
PIIC
3000
8
PIIC
3000
9
PIIC
3000
10
PIIC
3000
11
PIIC
3000
12
PIIC
3000
13
PIIC300014
PIIC
3000
15
PIIC300016
PIIC
3000
17
PIIC
3000
18
PIIC300019
PIIC300020
COIC
300
PIIC
3010
1
PIIC
3010
2
PIIC
3010
3
PIIC
3010
4
PIIC
3010
5
PIIC
3010
6
PIIC
3010
7
PIIC
3010
8
PIIC
3010
9
PIIC
3010
10
PIIC
3010
11
PIIC301012
PIIC
3010
13
PIIC
3010
14
PIIC
3010
15
PIIC
3010
16
PIIC301017
PIIC
3010
18
PIIC
3010
19
PIIC
3010
20
COIC301
PIJP
3000
1
PIJP
3000
2
PIJP
3000
3
COJP300
PIMIKR
OBUS01
PIMI
KROB
US02
PIMI
KROB
US03
PIMI
KROB
US04
PIMIKR
OBUS05
PIMIKR
OBUS06
PIMI
KROB
US07
PIMI
KROB
US08
PIM
IKROBU
S09
PIMIKR
OBUS01
0
PIMIKR
OBUS01
1
PIMIKR
OBUS01
2
PIMIKR
OBUS01
3
PIMIKR
OBUS01
4
PIMIKR
OBUS01
5
PIMIKR
OBUS01
6
COMIKROBUS
PIR301
PIR302
COR3 PI
R401
PIR402
COR4
PIR501
PIR502
COR5
PIR100
01 PIR
10002
COR100
PIR101
01 PIR
10102
COR101
PI
R102
01
PIR1
0202
COR
102
PIR1
0301
PI
R103
02
COR103
PIR1
0401
PI
R104
02
COR104
PIR105
01 PIR
10502
COR105
PIR30001 PIR30002 COR300
PIR30101 PIR30102 COR301
PIR30201 PIR30202 COR302
PIR30301 PIR30302 COR303
PIRA20
001
PIRA20002
PIRA20
003
PIRA20004
PIRA20005
PIRA20
006
PIRA20007
PIRA20008
PIRA20009
PIRA20
0010
PIRA20
0011
PIRA20
0012
PIRA20
0013
PIRA20
0014
PIRA20
0015
PIRA20
0016
CORA200A
PIRA30
001
PIRA30002
PIRA30003
PIRA30
004
PIRA30005
PIRA30
006
PIRA30007
PIRA30008
PIRA30009
PIRA30
0010
PIRA30
0011
PIRA30
0012
PIRA30
0013
PIRA30
0014
PIRA30
0015
PIRA30
0016
CORA
300A
PIS2G01P0101
PIS2G01P0102
PIS2G01P0103
PIS2G01P0104
PIS2G01P0105
PIS2G01P0106
PIS2G01P0107
PIS2G01P0108
PIS2G01P0109
PIS2G01P01010
PIS2G01P01011
PIS2G01P01012
PIS2G01P01013
PIS2G01P01014
PIS2G01P01015
PIS2G01P01016
PIS2G01P01017
COS2G01P01
PIS2G01P0201
PIS2G01P0202
PIS2G01P0203
PIS2G01P0204
PIS2
G01P
0205
PIS2
G01P
0206
PIS2G01P0207
PIS2G01P0208
PIS2G01P0209
PIS2
G01P
0201
0
PIS2
G01P
0201
1
PIS2
G01P
0201
2
PIS2G0
1P0201
3
PIS2G0
1P0201
4
PIS2
G01P
0201
5
PIS2
G01P
0201
6
PIS2
G01P
0201
7
COS2G01P02
PIX101
PIX102
PIX103
PIX104
PIX105
PIX106
PIX107
PIX108
PIX109
PIX1010
PIX1011
PIX1012
PIX1013
PIX1014
PIX1015
PIX1016
PIX1017
PIX1018
PIX1
019
PIX1020
PIX1021
PIX1022
PIX1023
PIX1024
PIX1025
PIX1026
PIX1027
PIX1028
PIX1
029
PIX1030
PIX1031
PIX1032
PIX1033
PIX1034
PIX1035
PIX1036
PIX1037
PIX1038
PIX1
039
PIX1040 COX
1 PIX201
PIX202
PIX203
PIX204
PIX205
PIX206
PIX207
PIX208
PIX209
PIX2010
PIX2011
PIX2012
PIX2013
PIX2014
PIX2015
PIX2016
PIX2017
PIX2018
PIX2019
PIX2020
PIX2021
PIX2022
PIX2023
PIX2024
PIX2025
PIX2026
PIX2027
PIX2028
PIX2029
PIX2030
PIX2031
PIX2032
PIX2033
PIX2034
PIX2035
PIX2036
PIX2037
PIX2038
PIX2039
PIX2040 COX2
PIX30001
PIX3
0002
PIX3
0003
PIX30004
PIX3
0005
PIX30006
COX300
PIX30101
PIX30102
PIX3
0103
PIX3
0104
PIX3
0105
PIX30106 COX301
PIX3
0201
PIX3
0202
PIX30203
PIX30204
PIX3
0205
PIX3
0206
PIX3
0207
PIX3
0208
COX302
PIX3
0301
PIX30302
PIX30303
PIX30304
PIX3
0305
PIX3
0306
PIX30307
PIX30308
COX303
PIX30401
PIX30402
PIX3
0403
PIX3
0404
PIX30405
PIX30406
PIX30407
PIX3
0408
PIX3
0409
PIX304010
COX304
PIX2039
NL#V
BAT
PIR501
NLBUTTON1
PIR401
NLCAN0RX
PIR301
NLCAN0TX
PIC30001
PIC30101
PIC30201 PIC30301
PIC30401
PIIC
3000
11
PIIC
3010
11
PIMI
KROB
US08
PIM
IKROBU
S09
PIR30101
PIR30301
PIS2G01P0106
PIS2
G01P
0206
PIX101
PIX202
PIX30006
PIX3
0206
PIX3
0207
PIX30407 NLGND
PIX2035
NLHIB0IO00
PIC30102 PIC30302
PIC30402
PIIC300019
PIIC
3010
19
PIJP
3000
2
PIX3
0202
NLIOREF
PIIC
3000
10
PIR30002 PIR30102
PIIC
3010
10
PIR30202 PIR30302
PIR100
02 PIX30101
PIR101
02 PIX30102
PIR1
0202
PI
X301
03
PIR1
0302
PI
X301
04
PIX105
PIX106
PIX107
PIX1017
PIX1018
PIX1
019
PIX1020
PIX1021
PIX1023
PIX1024
PIX1025
PIX1026
PIX1037
PIX1038
PIX203
PIX205
PIX206
PIX208
PIX2010
PIX2017
PIX2022
PIX2023
PIX2026
PIX2027
PIX2029
PIX2031
PIX2037
PIX3
0201
PIX3
0208
PIIC
3000
1
PIMIKR
OBUS05
PIRA20
001
PIS2G01P01017
PIS2
G01P
0201
7
PIX2018
NLP0
00
PIIC300020
PIRA20
0016
PIX30001
PIX30405
NLP0
000
PIX2013
PIMIKR
OBUS01
5
PIX2015
NLP001
NLP0010
PIS2G01P01014
PIX2016
NLP0
02
PIS2G01P0208
PIX2011
NLP003
PIS2G01P01013
PIX2014
NLP004
PIS2G01P0108
PIX209
NLP005
PIS2
G01P
0201
2
PIX2012
NLP0
06
PIMI
KROB
US03
PIX201
NLP0
07
PIS2G01P01012
PIX204
NLP008
PIS2G0
1P0201
4
PIX2020
NLP0
09
PIIC
3000
3
PIRA20002
PIX207
NLP0011
PIIC
3000
18
PIRA20
0015
PIX30402
NLP00110
PIIC
3010
5
PIRA30
004
PIX1011
NLP100
PIIC
3010
16
PIRA30
0013
PIX30303
NLP1000
PIMIKR
OBUS01
6
PIX1012
NLP101
PIS2G01P0109
PIX1013
NLP102
PIS2G01P0209
PIX1014
NLP103
PIX1015
NLP104
PIX1016
NLP105
PIIC
3000
6
PIRA20005
PIX108
NLP107
PIIC
3000
15
PIRA20
0012
PIX3
0403
NLP1
070
PIIC
3000
7
PIMI
KROB
US04
PIRA20
006
PIS2G01P01015
PIS2
G01P
0201
5
PIX109
NLP108
PIIC300014
PIRA20
0011
PIX3
0003
PIX30406
NLP1
080
PIIC
3000
8
PIMIKR
OBUS06
PIRA20007
PIS2G01P01016
PIS2
G01P
0201
6
PIX1010
NLP109
PIIC
3000
13
PIRA20
0010
PIX30004
PIX3
0404
NLP1
090
PIR502
PIX1022
NLP1015
PIR302
PIX1
029
NLP200
PIS2G0
1P0201
3
PIX1030
NLP201
PIIC
3010
1
PIRA30
001
PIX1031
NLP202
PIIC
3010
20
PIRA30
0016
PIX30304
NLP2020
PIIC
3010
3
PIRA30002
PIX1032
NLP203
PIIC
3010
18
PIRA30
0015
PIX3
0306
NLP2030
PIIC
3010
4
PIRA30003
PIX1033
NLP204
PIIC301017
PIRA30
0014
PIX30307
NLP204
0
PIIC
3000
5
PIMIKR
OBUS01
1
PIRA20004
PIS2G01P0104
PIS2G01P0204
PIX1034
NLP205
PIIC300016
PIR1
0402
PIRA20
0013
PIX3
0105
PIX3
0409
NLP205
0
PIIC
3000
9
PIRA20008
PIX1027
NLP2
06
PIIC
3000
12
PIRA20009
PIX30401
NLP2
060
PIMI
KROB
US02
PIX1028
NLP207
PIIC
3010
6
PIRA30005
PIX1035
NLP208
PIIC
3010
15
PIRA30
0012
PIX30308
NLP2080
PIIC
3010
7
PIRA30
006
PIX1036
NLP209
PIIC
3010
14
PIRA30
0011
PIX3
0305
NLP2090
PIIC
3010
8
PIMIKR
OBUS01
3
PIRA30007
PIS2G01P01011
PIS2
G01P
0201
1
PIX103
NLP2
014
PIIC
3010
13
PIRA30
0010
PIX30302
NLP20140
PIIC
3010
9
PIMIKR
OBUS01
4
PIRA30008
PIS2G01P01010
PIS2
G01P
0201
0
PIX104
NLP2
015
PIIC301012
PIRA30009
PIX3
0301
NLP20150
PIIC
3000
4
PIMIKR
OBUS01
2
PIRA20
003
PIS2G01P0105
PIS2
G01P
0205
PIX2019
NLP3
00
PIIC
3000
17
PIR105
02
PIRA20
0014
PIX30106
PIX304010
NLP3
000
PIR100
01
PIX2034
NLP1
400
PIR402
PIX2032
NLP1403
PIR1
0401
PIS2G01P0102
PIX2024
NLP1
404
PIR105
01
PIS2G01P0203
PIX2030
NLP1
405
PIR101
01
PIX2025
NLP140
6 PI
R102
01
PIX2028
NLP1
407
PIMIKR
OBUS01
PIR1
0301
PIX2033
NLP1
408
PIS2G01P0202
PIX2036
NLP1409
PIS2G01P0103
PIX2021
NLP14014
PIX102
PIX3
0005
PIX30203
NLRE
SET#
PIX2038
PIX3
0408
NLVAREF
PIC30002
PIC30202
PIIC
3000
2
PIIC
3010
2
PIJP
3000
1
PIMI
KROB
US07
PIR30001
PIR30201
PIS2G01P0107
PIS2G01P0207
PIX1
039
PIX2040
PIX30204
PIJP
3000
3
PIMIKR
OBUS01
0
PIS2G01P0101
PIS2G01P0201
PIX1040
PIX3
0002
PIX3
0205
![Page 20: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/20.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 20 Revision 2019-08-30
Figure 11 XMC_4200_Debug Schematic: OBD Probe
11
22
33
44
55
66
77
88
DD
CC
BB
AA
55
30.0
9.20
1914
:47:
35D
ate:
Shee
tof
Tim
e:©
Infin
eon
Tech
nolo
gies
AG
201
9. A
ll Ri
ghts
Rese
rved
.
Aut
hor:
IFA
G D
ES T
CP
EDS
Am
Cam
peon
1-1
5, M
unic
h
V1.
1
Title
Size
:Re
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raft
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ntPl
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V1.
1A
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ved
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nSt
atus
SVN
Rev
ision
:da7
524780
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75f81b3
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her
55
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C420
0_D
ebug
.Sch
Doc
VD
DP
5
VD
DC
6
VBA
T10
VSS
A/V
AG
ND
17
VD
DA
/VA
REF
18
VSS
27
VD
DP
28
VD
DC
31
VD
DP
41V
SS49
USB
_DM
3U
SB_D
P4
HIB
_IO
_07
RTC_
XTA
L18
RTC_
XTA
L29
XTA
L129
XTA
L230
PORS
T_N
32
TMS
33
TCK
34
IC10
1A
IFX
_ X
MC4
200Q
48K
256A
BXU
MA
1
P0.1
1P0
.02
P14.
711
P14.
612
P14.
513
P14.
414
P14.
315
P14.
016
P14.
919
P14.
820
P2.5
21P2
.422
P2.3
23P2
.224
P2.1
25P2
.026
P1.5
35P1
.436
P1.3
37P1
.238
P1.1
39P1
.040
P0.8
42P0
.743
P0.6
44P0
.545
P0.4
46P0
.347
P0.2
48
IC10
1B
IFX
_ X
MC4
200Q
48K
256A
BXU
MA
1
VD
D3.
3
GN
D
R118
510R
13
24
Q10
1
12M
Hz
GN
DG
ND
1 2 3 4 5
X10
3
TSW
-105
-07-
L-S
GN
DVD
D3.
3
WTM
SW
TCK
DBG
PRES
#
R119
10k
VD
D3.
3
5 TH-Pads
2.54mm pitch
R120
*22
RR1
21*
22R
12345
MP1
MP2
MP3
MP4
MP5
MP6
X10
1
ZX62-AB-5PA(31)
GN
D
1 2D103
BAS3010A-03W
R126
4.7k
R127
10k
L103
60R
GN
DG
ND
VD
D5
HIB
_IO
_0H
IB_I
O_0
R125
1MEG
GN
D
C125 4.7uF
C127 10uFG
ND
GN
D
VD
D3.
3
TCK
CSSWV
R122
*51
0RTX
D
RESE
T#
SWV
SWV
TMS
TMS
TCK
TCK
CS
SPD
No RESET Pin
Level Shifter
JTAG
SWV
UART
DEB
UG
_LED
COM
_LED
VD
D3.
3
C128 100nF
C129 100nF
C130 100nF
C123 100nF
C124 100nF
C131
100n
F
C121
15pF
C122
15pF
C126 10uF
COM
_LED
DEB
UG
_LED
XTA
L1_4
2X
TAL2
_42
XTA
L1_4
2X
TAL2
_42
On-board Debugger
LED
Clock
GN
D
GN
D
R124
680R
R123
680R
WU
SB_D
PW
USB
_DM
WU
SB_D
PW
USB
_DM
Debug Micro-USB Connector
SCLKOUT-P1.1
DX0B-P1.4
DX0D-P0.0
DOUT0-P2.5
DX0A-P2.2
SPI Slave
TMS
TCK
TDI
TDO
MOSI
CLK_OUT
MISO
MISO
CS_IN
CLK_IN
MOSI
CS_OUT
SPI Master
RXD
UART
U0C0
U0C1
U1C1
DOUT0-P1.5
SELO0-P1.0
DX2A-P2.3
DX1A-P2.4
RXD
TXD
UART2 (DM2)
RXD
TXD
DX0A-P0.4
DOUT0-P0.5
U1C0
SWV
On-board Debugger Concept
TXACTIVE#
GPIO-P0.6
RESET#
RESET#
GPIO-P0.3
DEBUG_LED#
DEBUG_LED#
GPIO-P0.2
AUX_LED#
COM_LED#
GPIO-P0.1
Cortex Debug n
o ass.
GN
D
VD
D3.
3
DBG
PRES
#
TMS
TCK
SWV
12
934
756 8 10
X10
2
FTSH
-105
-01-
L-D
-K
WV
DD
C
Caps of XMC4200
RESE
T#
VD
D3.
3V
DD
3.3
P1.5
P1.4
PC_RXD
PC_TXD
31
2
D10
2PG
B102
ST23
WR
12
DEB
UG
Gre
en
12
COM
Gre
en
Not
ass
embl
ed.
PIC12101 PIC12102 CO
C121
PIC12201 PIC12202 CO
C122
PIC12301 PIC12302 COC123
PIC12401 PIC12402 COC124
PIC12501 PIC12502 COC125
PIC12601 PIC12602 COC126
PIC12701 PIC12702 COC127
PIC12801 PIC12802 COC128
PIC12901 PIC12902 COC129
PIC13001 PIC13002 COC130
PIC13101 PIC13102 COC131
PICOM01
PICOM02
COCO
M
PID10201 PID10202
PID10203
COD1
02
PID10301 PID10302 COD103
PIDEBUG01
PIDEBUG02
CODE
BUG
PIIC10103
PIIC10104
PIIC10105
PIIC10106
PIIC10107
PIIC10108
PIIC
1010
9
PIIC101010
PIIC
101017
PIIC
1010
18
PIIC
101027
PIIC101028
PIIC
1010
29
PIIC101030
PIIC
1010
31
PIIC
101032
PIIC
101033
PIIC
1010
34
PIIC101041
PIIC
1010
49
COIC101A
PIIC
1010
1
PIIC10102
PIIC
1010
11
PIIC101012
PIIC101013
PIIC101014
PIIC
1010
15
PIIC
1010
16
PIIC101019
PIIC
1010
20
PIIC101021
PIIC
1010
22
PIIC
1010
23
PIIC101024
PIIC101025
PIIC101026
PIIC
1010
35
PIIC101036
PIIC101037
PIIC101038
PIIC
1010
39
PIIC
1010
40
PIIC101042
PIIC
1010
43
PIIC101044
PIIC101045
PIIC101046
PIIC101047
PIIC
1010
48 COIC101B
PIL103
01 PIL
10302
COL103
PIQ10101
PIQ10102
PIQ1
0103
PIQ1
0104
COQ101
PIR118
01 PIR
11802
COR118
PIR11901 PIR11902 COR1
19
PIR120
001
PIR120
002
COR1200
PIR121001
PIR121002
COR1210
PIR122001
PIR122002
COR1220
PIR12301
PIR12302
COR123
PIR124
01 PIR
12402
COR1
24
PIR12501 PIR12502
COR125
PIR12601 PIR12602 COR126
PIR12701 PIR12702 COR127
PIX1
0101
PIX1
0102
PIX1
0103
PIX1
0104
PIX1
0105
PIX1
010M
P1
PIX1
010M
P2
PIX1
010M
P3
PIX1
010M
P4
PIX1
010M
P5
PIX1
010M
P6
COX1
01
PIX1
0201
PI
X102
02
PIX1
0203
PI
X102
04
PIX1
0205
PI
X102
06
PIX1
0207
PI
X102
08
PIX1
0209
PIX102010
COX1
02
PIX1
0301
PIX1
0302
PIX1
0303
PIX1
0304
PIX1
0305
COX1
03
PICOM01
PIIC
1010
1
NLCOM0LED
PIIC
1010
23
PIIC
1010
40
NLCS
PIIC
101032
PIR11901
PIX1
0209
PIX1
0304
NLDB
GPRES#
PIDEBUG01
PIIC
1010
48
NLDEBUG0LED
PIC12101 PIC12201
PIC12301 PIC12401
PIC12501 PIC12602
PIC12701 PIC12801
PIC12901 PIC13001
PIC13101
PID10203
PIIC101013
PIIC
1010
15
PIIC
1010
16
PIIC
101017
PIIC
1010
20
PIIC
101027
PIIC
1010
49
PIQ10102
PIQ1
0104
PIR12502 PIR12702
PIX1
0105
PIX1
0203
PIX1
0205
PIX1
0305
PIIC10107
PIR12601 PIR12701 NLHIB0IO00
PIC13102 PIR12501
PIX1
010M
P1
PIX1
010M
P2
PIX1
010M
P3
PIX1
010M
P4
PIX1
010M
P5
PIX1
010M
P6
PICOM02 P
IR1240
1
PID10201
PIR121001
PIX1
0103
PID10202 PIR
120001
PI
X101
02
PID10302
PIL103
02
PIR12602
PIDEBUG02 PIR12301
PIIC10108
PIIC
1010
9
PIIC
1010
11
PIIC101012
PIIC101014
PIIC101019
PIIC101021
PIIC101025
PIIC101026
PIIC101030
PIR118
02
PIIC101037
PIIC101038
PIIC101042
PIIC
1010
43
PIIC101044
PIL103
01 PI
X101
01
PIX1
0104
PIX1
0207
PI
X102
08
PIR122001
NLP104
PI
IC101046
NLP105
PI
IC101047
PIX102010
NLRE
SET#
PIIC10102
PIIC101024
PIX1
0206
NLSWV
PIIC
1010
22
PIIC
1010
39
PIX1
0204
NLTC
K
PIIC
1010
35
PIIC101036
PIX1
0202
NLTMS
PIIC101045
PIR122002
NLTXD
PIC12302 PIC12402
PIC12502 PIC12601
PIC12702 PIC12802
PIC12902 PIC13002
PIIC10105
PIIC101010
PIIC
1010
18
PIIC101028
PIIC101041
PIR11902
PIR12302
PIR124
02
PIX1
0201
PIX1
0301
PID10301
PIIC
1010
34
PIX1
0302
NL
WTCK
PIIC
101033
PIX1
0303
NLWTMS
PIIC10103
PIR120
002
NLWU
SB0D
M
PIIC10104
PIR121002
NLWUSB0DP
PIIC10106
PIIC
1010
31
NLWVDDC
PIC12202
PIIC
1010
29
PIQ10101
NLXT
AL10
42
PIC12102
PIQ1
0103
PIR118
01
NLXT
AL20
42
![Page 21: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/21.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 21 Revision 2019-08-30
Figure 12 XMC4200 Schematic: USB connector, Microcontroller pins and power, Potentiometer
Button and LED
11
22
33
44
55
66
77
88
DD
CC
BB
AA
45
30.0
9.20
1914
:47:
34D
ate:
Shee
tof
Tim
e:©
Infin
eon
Tech
nolo
gies
AG
201
9. A
ll Ri
ghts
Rese
rved
.
Aut
hor:
IFA
G D
ES T
CP
EDS
Am
Cam
peon
1-1
5, M
unic
h
V1.
1
Title
Size
:Re
v.A
3Re
l.D
raft
Varia
ntPl
atfo
rm2G
O X
MC4
200-
V1.
1A
ppro
ved
SVN
Rev
ision
:da7
524780
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8ab86d
75f81b3
60f14d6
3d5c9
J.Fisc
her
45
XM
C420
0.Sc
hDoc
LED1
USB Connector
Reset
Buttons & LEDs
2mA LED
RTC Crystal
VD
D3.
3
GN
D
GN
DG
ND
VD
D3.
3
VD
D3.
3
GN
DG
ND
GN
D
GN
DG
ND
RESE
T#
P0.1
RTC_
XTA
L_2
SPI_CS
L100
60R
R107
22R
R108
22R
12
D10
1BA
S301
0A-0
3W
C100
100n
F
R106
1MEG
12345
MP1
MP2
MP3
MP4
MP5
MP6
X10
0
ZX62-AB-5PA(31)
GN
D
VD
D5
GN
D
GN
D
C116
15pF
C117
15pF
13
24
Q10
0
12M
Hz
C109 100nF
C110 100nF
C111 100nF
C113 10uF
C112 100nF
GN
D
C101 10uF
C102 10uF
C103 10uF
C104 10uF
C105 100nF
C106 100nF
C107 100nF
C108 100nF
R112
680R
R114
10k
R116
10k
C118
100n
F
1 234
BUTT
ON
1 P1
.15
FSM
2JSM
A
1 234
RESE
T
FSM
2JSM
A
GN
DG
ND
C120
10nF
C400
15pF
C401
15pF
12
Q40
0
32.7
7kH
z
RTC_
XTA
L_1
Microcontroller XMC4200
Power of XMC4400
VD
DC
SPI_MOSI
SPI_CLK
SPI_MISO
USB
_DP
USB
_DM
12
LED
1 P0
.1Re
d
VBU
S
VD
D3.
3
VD
DP
8V
DD
C9
VBAT
13
VSS
A/V
AG
ND
21V
DD
A/V
ARE
F22
VSS
37
VD
DP
38V
DD
C42
VD
DP
56
EP65
VSS
O41
U1A
IFX
_XM
C420
0-F6
4K25
6
USB
_DM
6U
SB_D
P7
HIB
_IO
_010
RTC_
XTA
L111
RTC_
XTA
L212
XTA
L139
XTA
L240
PORS
T_N
43
TMS
44TC
K45
U1B
IFX
_XM
C420
0-F6
4K25
6
P0.1
1P0
.02
P14.
715
P14.
616
P14.
517
P14.
418
P14.
319
P14.
020
P14.
923
P14.
824
P2.5
29P2
.430
P2.3
31P2
.232
P2.1
33P2
.034
P1.5
47P1
.448
P1.3
49P1
.250
P1.1
51P1
.052
P0.8
57P0
.758
P0.6
60P0
.561
P0.4
62P0
.363
P0.2
64
P0.9
4
P0.1
03
P0.1
159
P1.7
55
P1.8
54
P1.9
53
P1.1
546
P2.6
36
P2.7
35
P2.8
28
P2.9
27
P2.1
426
P2.1
525
P3.0
5
P14.
1414
U1C
IFX
_XM
C420
0-F6
4K25
6
VD
DC
GN
D
L102
60R C114
100n
F
GN
D
HIB
_IO
_0
TCK
TMS
RESE
T#R1
1151
0RRT
C_X
TAL_
1RT
C_X
TAL_
2XTA
L2XT
AL1
USB
_DP
USB
_DM
P2.1
P0.7
P0.8
Clock
XTA
L2XT
AL1
VD
DA
R109
0R C115
100n
F
GN
DVARE
F
P0.1
1
P0.5
SDA, ADC_4
P14.
4P1
4.5
P14.
0P1
4.3
P14.
6P1
4.7
P14.
8P1
4.9
P14.
14
PWM_3
P2.2
P2.3
P2.4
P2.5
P2.8
P2.9
P2.1
4P2
.15
UART_TX
UART_RX
P1.1
5
P0.2
P0.3
P0.4
P0.6
P0.9
PWM_1
PWM_2
AN_MB/DAC0
IO_0
AN1_2GO/DAC1
CAN_RX/P14.3
ADC_1
ADC_2
P1.1
P1.0
P1.3
P1.4
P1.5
P1.2
INT_1, PWM_0
INT_0
GPIO1_2GO_2/P2.1
P1.8
P1.9
P0.0
RST_MB/P2.7
P2.0
IO_1
RST/GPIO2_2GO_1
P2.6
P2.7
P0.1
0
GPIO1_S2GO_1
P0.1/LED1
BUTTON1
P1.7
VBAT
31
2
D10
0PG
B102
ST23
WR
P0.1
INT/GPIO3_2GO_2
INT/GPIO3_2GO_1
RST/GPIO2_2GO_2
IO_2
PWM/GPIO4_2GO_1
SCL, ADC_5
PWM_MB/P1.1
PWM/GPIO4_2GO_2
CAN_TX/P2.0
AN2_2GO
INT_MB/P0.10
CS_MB/P0.7
CS_2GO_1/P0.2
CS_2GO_2/P0.9
BUTT
ON
1
P3.0
P14.
0ADC0/Potentiometer/P14.0
GN
D
VD
D3.
3
1
2
3
R8 P
OTI
P14
.0
10k
Potentiometer
R7 0R
ADC0/Potentiometer/P14.0
PC_RXD
PC_TXD
no assemble
SDA, ADC_4, AN1_2GO
SCL, ADC_5, AN2_2GO
PIBUTTON
1 P10150
1
PIBUTTON1
P101502
PIBUTTON1
P101503
PIBUTTON
1 P10150
4 COBUTTON1 P1015
PIC10001 PIC10002 CO
C100
PIC10101 PIC10102 COC101
PIC10201 PIC10202 COC102
PIC10301 PIC10302 COC103
PIC10401 PIC10402 COC104 PIC10501 PIC10502 COC105
PIC10601 PIC10602 COC106 PIC10701 PIC10702 COC107
PIC10801 PIC10802 COC108
PIC10901 PIC10902 COC109
PIC11001 PIC11002 COC110
PIC11101 PIC11102 COC111
PIC11201 PIC11202 COC112
PIC11301 PIC11302 COC113
PIC11401 PIC11402 CO
C114
PIC11501 PIC11502 CO
C115
PIC11601 PIC11602
COC1
16
PIC11701 PIC11702 CO
C117
PIC11801 PIC11802 COC
118
PIC12001 PIC12002 CO
C120
PIC40001 PIC40002
COC4
00
PIC40101 PIC40102
COC4
01
PID10001 PID10002
PID10003
COD1
00
PID1
0101
PI
D101
02
COD1
01
PIL1
0001
PI
L100
02
COL1
00
PIL10201 PIL10202 COL102
PILED1 P00101 PILED1 P00102 COLED1 P001
PIQ10001
PIQ10002
PIQ10003
PIQ10004
COQ1
00
PIQ40001
PIQ40002
COQ4
00
PIR7
01
PIR7
02
COR7
PIR8 POTI P140001
PIR8 POTI P140002 PIR8 POTI P140003
COR8
POT
I P1
400
PIR10601 PIR10602
COR1
06
PIR1
0701
PI
R107
02
COR1
07
PIR1
0801
PI
R108
02
COR1
08
PIR10901 PIR10902 COR1
09
PIR1
1101
PI
R111
02
COR1
11
PIR11201 PIR11202 COR1
12
PIR11401 PIR11402 COR1
14
PIR11601 PIR11602 COR1
16
PIRESET01
PIRESE
T02
PIRESE
T03
PIRESET04 CORESET
PIU108
PIU109
PIU1013
PIU1021
PIU1022
PIU1
037
PIU1
038
PIU1041
PIU1
042
PIU1
056
PIU1065
COU1
A
PIU106
PIU107
PIU1010
PIU1011
PIU1012
PIU1
039
PIU1040
PIU1043
PIU1044
PIU1
045
COU1
B
PIU101
PIU102
PIU103
PIU104
PIU105
PIU1014
PIU1015
PIU1016
PIU1017
PIU1
018
PIU1019
PIU1020
PIU1
023
PIU1024
PIU1025
PIU1026
PIU1027
PIU1028
PIU1029
PIU1030
PIU1031
PIU1032
PIU1033
PIU1034
PIU1035
PIU1036
PIU1046
PIU1047
PIU1048
PIU1
049
PIU1
050
PIU1051
PIU1052
PIU1
053
PIU1
054
PIU1055
PIU1057
PIU1058
PIU1059
PIU1060
PIU1061
PIU1062
PIU1063
PIU1064
COU1
C
PIX10001
PIX10002
PIX10003
PIX10004
PIX10005
PIX1000MP1
PIX1000MP2
PIX1
000M
P3
PIX1000MP4
PIX1000MP5
PIX1
000M
P6
COX1
00
PIBUTTON1
P101503
PIBUTTON
1 P10150
4
PIC11802 PIR11401 NLBUTTON1
PIBUTTON
1 P10150
1
PIBUTTON1
P101502
PIC10001
PIC10101 PIC10201
PIC10301 PIC10401
PIC10502 PIC10602
PIC10702 PIC10802
PIC10901 PIC11001
PIC11101 PIC11201
PIC11301
PIC11401 PIC11501
PIC11602 PIC11701
PIC11801
PIC12001
PIC40002 PIC40102
PID10003
PIQ10002
PIQ10004
PIR8 POTI P140003
PIR10602
PIR11202
PIRESET01
PIRESE
T02
PIU1021
PIU1
037
PIU1041
PIU1065
PIX10005
PIU1010
NLHI
B0IO
00
PIC10002 PIR10601
PIX1000MP1
PIX1000MP2
PIX1
000M
P3
PIX1000MP4
PIX1000MP5
PIX1
000M
P6
PIL1
0001
PIX10001
PILED1 P00101 PIR11201
PIR7
01
PIR8 POTI P140002
PIR1
0701
PIX10002
PIR1
0801
PIX10003
PIR1
1101
PIU1040
PIX10004
PIU102
NLP000
PILED1 P00102
PIU101
PIU103
NLP001
NLP0
010
PIU1064
NLP002
PIU1063
NLP003
PIU1062
NLP004
PIU1061
NLP005
PIU1060
NLP006
PIU1058
NLP007
PIU1057
NLP008
PIU104
NLP009
PIU1059
NLP0
011
PIU1052
NLP100
PIU1051
NLP101
PIU1
050
NLP102
PIU1
049
NLP103
PIU1048
NLP104
PIU1047
NLP105
PIU1055
NLP107
PIU1
054
NLP108
PIU1
053
NLP109
PIU1046
NLP1
015
PIU1034
NLP200
PIU1033
NLP201
PIU1032
NLP202
PIU1031
NLP203
PIU1030
NLP204
PIU1029
NLP205
PIU1036
NLP206
PIU1035
NLP207
PIU1028
NLP208
PIU1027
NLP209
PIU1026
NLP201
4 PIU1025
NLP2
015
PIU105
NLP300
PIR7
02
PIU1020
NLP1400
PIU1019
NLP1403
PIU1
018
NLP140
4 PIU1017
NLP1405
PIU1016
NLP1406
PIU1015
NLP1407
PIU1024
NLP1408
PIU1
023
NLP140
9 PIU1014
NLP14014
PIC12002 PIR11601
PIRESE
T03
PIRESET04
PIU1043
NLRE
SET#
PIC40101 PIQ40002
PIU1011 NL
RTC0
XTAL
01
PIC40001 PIQ40001
PIU1012 NL
RTC0XTAL02
PIU1
045
NLTC
K PIU1044
NLTM
S
PID10002
PIR1
0702
PIU106
NLUS
B0DM
PID10001
PIR1
0802
PIU107
NLUS
B0DP
PIR10902 NLVA
REF
PIU1013
PID1
0102
PI
L100
02
NLVBUS
PIC10102 PIC10202
PIC10302 PIC10402
PIC10501 PIC10601
PIC10701 PIC10801
PIL10202
PIR8 POTI P140001
PIR11402
PIR11602
PIU108
PIU1
038
PIU1
056
PID1
0101
PIC11402 PIC11502
PIL10201 PIR10901
PIU1022
NLVD
DA
PIC10902 PIC11002
PIC11102 PIC11202
PIC11302
PIU109
PIU1
042
NLVD
DC
PIC11601
PIQ10001
PIU1
039
NLXTAL1
PIC11702
PIQ10003
PIR1
1102
NLXTAL2
![Page 22: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/22.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 22 Revision 2019-08-30
Figure 13 ICs and Power Schematic: Can Transceiver, RTC Battery, Power
11
22
33
44
55
66
77
88
DD
CC
BB
AA
35
30.0
9.20
1914
:47:
34D
ate:
Shee
tof
Tim
e:©
Infin
eon
Tech
nolo
gies
AG
201
9. A
ll Ri
ghts
Rese
rved
.
Aut
hor:
IFA
G D
ES T
CP
EDS
Am
Cam
peon
1-1
5, M
unic
h
V1.
1
Title
Size
:Re
v.A
3Re
l.D
raft
Varia
ntPl
atfo
rm2G
O X
MC4
200-
V1.
1A
ppro
ved
Ope
nSt
atus
SVN
Rev
ision
:da7
524780
7cb30a
8ab86d
75f81b
360f14
d63d5c
9J.F
ische
r
35
ICs_
and_
Pow
er.S
chD
oc
CAN Transceiver
VD
D3.
3V
DD
5
GN
DG
ND
GN
DG
ND
GND 1
I3
Q2
Q4
IC10
2
IFX
1117
ME
V33
C133 10uFR130
680R
12V
DD
3.3
Gre
en
Power Target DeviceTX
D1
CAN
L6
CAN
H7
VIO
5
VCC
3G
ND
2
RXD
4
RM8
EP9
IC40
2
IFX
1051
LE
CA
N_R
X
CA
N_T
X
VD
D3.
3
VD
D5
GN
D
GN
D
C132 10uF
VBAT
VD
D3.
3
2
13
D1
BAV
70
#VBA
T
1 2
C1 220u
F
GN
D
RTC Battery
CAN_TX/P2.0
123456789
MH
1M
H1
MH
2M
H2X
3
182-
009-
113R
561
R2 120R
R_op
t0R
CAN_RX/P14.3
GN
D
VD
D5 D
o no
t ass
embl
e R_
opt i
f not
nee
ded.
PIC101 PIC102
COC1
PIC13201 PIC13202 COC132
PIC13301 PIC13302 COC133
PID101 PID102
PID103 COD
1
PIIC10201
PIIC10202
PIIC10203
PIIC10204
COIC102
PIIC40201
PIIC40202
PIIC40203
PIIC
4020
4
PIIC40205
PIIC
4020
6
PIIC40207
PIIC40208
PIIC40209
COIC
402
PIR201
PIR202
COR2 PIR13001 PIR13002
COR130
PIR0opt01 PIR0opt02 COR0op
t
PIVDD30301 PIVDD30302 COVDD303
PIX301
PIX302
PIX303
PIX304
PIX305
PIX306
PIX307
PIX308
PIX309
PIX30MH1
PIX30MH2 COX3
PID101 NL#V
BAT
PIIC
4020
4 NLCAN0RX
PIIC40201
NLCAN0TX
PIC102
PIC13201
PIC13301
PIIC10201
PIIC40202
PIIC40208
PIIC40209
PIVDD30301
PIX303
PIX306
PIIC
4020
6 PIR201
PIX302
PIIC40207
PIR202
PIX307
PIR13002 PIVDD30302
PIR0opt01 PIX309
PIX301
PIX304
PIX305
PIX308
PIX30MH1
PIX30MH2
PIC101 PID103
PIC13302
PID102 PIIC10202
PIIC10204
PIIC40205
PIR13001
PIC13202
PIIC10203
PIIC40203
PIR0opt02
![Page 23: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/23.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 23 Revision 2019-08-30
Figure 14 Geometry
![Page 24: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/24.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 24 Revision 2019-08-30
3.2 List of Material
The list of material is valid for the Platform2Go XMC4200 3.3V/5V/Lite
Table 10 List of Material
Description
Designator
PackageReference
Value
Quantity
Not fitted in*
Micro Miniature Pushbutton Switch
BUTTON1 P1.15, RESET FSM2JSMA 2
Solid Tantalum Surface Mount Chip Capacitor C1
CAPMP7343X310N-1 220uF 1
Surface Mount Multilayer Ceramic Chip Capacitor
C100, C109, C110, C111, C112, C114, C115, C118, C304 0402/ 1005 100nF 9
Surface Mount Multilayer Ceramic Chip Capacitor
C300, C301, C302, C303 0402/ 1005 100nF 3 A,C
Chip Monolithic Ceramic Capacitor
C101, C102, C103, C104, C126 CAPC1608X90N 10uF 5
Multilayer Ceramic Chip Capacitor
C105, C106, C107, C108 0402/ 1005 100nF 4
Chip Multilayer Ceramic Capacitor
C113, C127, C132, C133 0603 / 1608 10uF 4
Chip Monolithic Ceramic Capacitor C116, C117 CAPC1005X33N 15pF 2 Chip Monolithic Ceramic Capacitor C400, C401 CAPC1005X33N 15pF 2 C,D
Chip Monolithic Ceramic Capacitor C120 CAPC1005X55N-0 10nF 1 Chip Monolithic Ceramic Capacitor C121, C122 CAPC1005X55N-0 15pF 2
Chip Monolithic Ceramic Capacitor
C123, C124, C128, C129, C130, C131 CAPC1005X55N-0 100nF 6
Chip Monolithic Ceramic Capacitor C125 CAPC2013X95N 4.7uF 1 Surface Mount LED, Green, 570nm
COM, DEBUG, VDD3.3 0603 / 1608 Green 3
High-Speed Switching Diode D1 SOT23 BAV70 1 Bi-Directional Surface Mount D100, D102 SOT-23 PGB102ST23WR 2
![Page 25: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/25.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 25 Revision 2019-08-30
Polymeric ESD Suppressor, 24V
Medium Power AF Schottky Diode D101, D103 SOD323 BAS3010A-03W 2 Performance of the ARM Cortex-M4 Core with Powerful On-Chip Peripheral Subsystems, Temp Range(-40°C to 125°C) IC101 PG-VQFN-48-53 XMC4200Q48K256 1 Voltage Regulator, 3.3 V Output IC102 PG-SOT223 IFX1117ME V33 1 8-Bit Bidirectional Voltage-Level Translator for Open-Drain and Push-Pull Applications IC300, IC301 TSSOP-20 TXS0108EPWR 2 A,C
Industrial High Speed CAN-FD Transceiver IC402 PG-TSON-8-1 IFX1051LE 1 C,D
Through hole .025'' SQ Post Header, 2.54mm pitch, 3 pins, vertical, Single Row JP300 TSW-103-05-L-S 1 C,D
For Power Lines; For General
L100, L102, L103 SMD Chip 60R 3
LED LED1 P0.1 0603 / 1608 Red 1
mikroBUS Host Socket MIKROBUS
Two times 1x8 pins, 2.54 mm pitch, female 1
SMD Crystal Unit for Automotive Application, 12.000MHz Q100, Q101
SMD 3.2 x 2.5 x 0.6mm 12MHz 2
SMD, 32.768kHz ±20PPM,12.5pF Crystal Unit Q400
SMD 3.2 x 1.5 x 0.8 mm 32.77kHz 1 C,D
Standard Thick Film Chip Resistor R2 0402 / 1005 120R 1 CD
Automotive Grade Thick Film Chip Resistor, General Purpose Chip Resistor
R3, R4, R5, R7 0805 / 2012 0R 4
![Page 26: Evaluation Board - Mouser Electronics · PC/Notebook via X101 and a second host PC/Laptop connected with the XMC4200 via X100. If the board is powered via a USB plug, it’s not recommended](https://reader033.vdocuments.us/reader033/viewer/2022050417/5f8d7a273e00c9126636f6ba/html5/thumbnails/26.jpg)
XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 26 Revision 2019-08-30
Surface Mount Single Turn Trimmer, Model 23A - J Hook
R8 POTI P14.0 SMT 23AR10KLFTR / 10kOhm 1
Standard Thick Film Chip Resistor
R100, R101, R102, R103, R104, R105
0402 / 1005
100R 6 Standard Thick Film Chip Resistor R106, R125
0402 / 1005 1MEG 2
Standard Thick Film Chip Resistor
R107, R108, R120*, R121*
0402 / 1005
22R 4 Standard Thick Film Chip Resistor, 0R/50V R109
0402 / 1005
0R 1 Standard Thick Film Chip Resistor, 0R/50V R301, R303
0402 / 1005
0R 2 N
Standard Thick Film Chip Resistor
R111, R118, R122*
0402 / 1005 510R 3
Standard Thick Film Chip Resistor R112, R130 0603 / 1608 680R 2 Standard Thick Film Chip Resistor
R114, R116, R119, R127 0402 / 1005 10k 4
Standard Thick Film Chip Resistor R300, R302 0402 / 1005 10k 2 A,C
Automotive Grade Thick Film Chip Resistor R123, R124 0603 / 1608 680R 2 Standard Thick Film Chip Resistor R126 0402 / 1005 4.7k 1 Standard Thick Film Chip Resistor R_opt 0805 / 2012 0R 1 N
Chip Resistor Array, Temp Range (-55 to 125°C)
RA200, RA300 0R 2 B,D
Microcontroller Series for Industrial Apllication, Temp Range (-40° to 125°C) U1 PG-TQFP-64-19 XMC4200-F64K256 1
Shield2Go Connector
S2G-1P-1, S2G-1P-2
Two times 1x9 pins and 1x8 pins, 2.54mm pitch, female 1 N
2.54mm PC/104 Connector, Stackthrough X1, X2 M20-6102045 2 N
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XMC4200 Platform2Go Series-V1 Production Data
Board Users Manual 27 Revision 2019-08-30
R/A - 0.318 - Male Economy D-SUB X3 182-009-113R561 1 C,D
Micro-USB 2.0 Standard, Type AB, Bottom Mount, Shell SMT X100, X101 ZX62-AB-5PA(31) 2 THT Micro Header, 1.27mm pitch, 10 pin, vertical, double row, keying shroud , DAP X102 FTSH-105-01-L-D-K 1 N
Through hole .025'' SQ Post Header, 2.54mm pitch, 5 pin, vertical, single row X103 TSW-105-07-L-S 1 N
Through hole .025'' SQ Post Header, 2.54mm pitch, 6 pin, vertical, double row X300 TSW-103-07-L-D 1 Through hole .025'' SQ Post Header, 2.54mm pitch, 6 pin, vertical, single row X301 TSW-106-07-L-S 1 Through hole .025'' SQ Post Header, 2.54mm pitch, 8 pin, vertical, single row X302 TSW-108-23-F-S 1 Through hole .025'' SQ Post Header, 2.54mm pitch, 8 pin, vertical, single row X303 TSW-108-07-L-S 1 Through hole .025'' SQ Post Header, 2.54mm pitch, 10 pin, vertical, single row X304 TSW-110-07-L-S 1
*Agenda:
A: XMC4200 Platform2Go for 3.3V Shields B: XMC4200 Platform2Go for 5V Shields C: XMC4200 Platform2Go Lite for 3.3V Shields D: XMC4200 Platform2Go Lite for 5V Shields N: Not assembled in all Versions
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w w w . i n f i n e o n . c o m
Published by Infineon Technologies AG
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Mouser Electronics
Authorized Distributor
Click to View Pricing, Inventory, Delivery & Lifecycle Information: Infineon:
KITXMCPLT2GOXMC4200TOBO1