User Manual Please read the Important Notice and Warnings at the end of this document V2.0www.infineon.com Application Kit TC3X7 V2.0 2018-06
Application Kit TC3X7
Application Kit Manual TC3X7Hardware: Appl ication Kit TC3X7 V2.0
About this document
Scope and purpose
The User Manual provide information about using, configuration and connecting the Application Kit withInfineon AURIX™ TC3X7 device.This Application Kit Hardware Manual familiarizes you with the TriCore Evaluation Board and guides you throughthe initial configuration of the Application Kit.
Intended audience
Design, verfication, test and software engineers will use this document to get an understanding of thefunctionality and connections of the Application Kit.
User Manual TOC-2 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Table of Contents
About this document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Preface-1
Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TOC-2
1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
2 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12.1 Summary of Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12.2 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22.3 Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
3 Application Kit Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.1 Available Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.2 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.2.1 Power via supply connector (X101) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.2.2 Power via Micro USB (BU301) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23.2.3 Multi Voltage Safety Micro Processor Supply TLF35584QV . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23.3 Real Time Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23.4 XGA Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33.4.1 Write a display register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33.4.2 Read a display register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33.4.3 Touch controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.5 Micro SD card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.6 LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.7 Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.8 USB Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.8.1 Serial Connection to PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.8.2 miniWiggler JDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.9 Beeper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.10 MultiCAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.11 LIN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.12 Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.13 Core current measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.14 Other peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.15 Toggle LED’s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.16 Buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.17 Debug System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.17.1 OCDS1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.17.2 DAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
4 Application Kit Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14.1 Default Pad State . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14.2 Bootmode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
5 Signal (on board used) Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.1 Power Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.2 Reset Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.3 Config Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.4 Clock Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-25.5 Debug Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-25.6 Peripheral Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
Table of Contents
User Manual TOC-3 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Table of Contents
6 Connector Pin Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16.1 I/O connectors TC387 and TC397 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16.2 Power connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16.3 USB connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-26.4 CAN connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-26.5 LIN connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-26.6 Ethernet connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-36.7 OCDS1 connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-36.8 DAP connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-3
7 Schematic and Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-17.1 Known problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-17.2 Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-17.3 Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-67.4 Layout with Dimensioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-8
User Manual 1-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Introduction
1 IntroductionWe congratulate you on your purchase of the TriCore Evaluation Board. This kit is a versatile tool, providing quickaccess to the capabilities of TriCore's powerful architecture.Applications can be developed easily. The Evaluation Board is equipped with a variety of memories andperipherals for connection to the environment. There is also an interface for the On Chip Debugging Features(OCDS1 and DAP). The Evaluation Board allows easily the development of TriCore applications with the corresponding tools.Subsequently, the applications can be downloaded and can be tested with the powerful debugger software.This Application Kit Hardware Manual familiarizes you with the TriCore Evaluation Board and guides you throughthe initial configuration of the Application Kit. For detailed technical information about the TC3X7 (e.g. TC397) please refer to the User Manual of the useddevice.
User Manual 2-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Features
2 Features
2.1 Summary of Features– Infineon’s TC3X7 (TC397, TC387) AURIX™ 2G Controller in LFBGA-292 Package– LCD XGA Display 320x240– SD card slot (mini SD)– High Speed CAN Transceiver (CAN FD capable)– USB to UART bridge– Ethernet Gigabit PHY– LIN Transceiver– Crystal 20MHz (default) or External Clock– USB miniWiggler JDS for easy debugging– 4 Low Power Status LEDs– RTC with alarm– Acoustic beeper– 100mm x 100mm
ConnectorsThe Application Kit TC3X7 offers a wide variety of connectors:
– Standard power connector– Micro USB connector for ASC Interface (ASC0) and miniWiggler– RJ45 connector for Ethernet (if Gigabit Ethernet supported by assembled CPU)– 16-pin header for JTAG interface (OCDS)– 10-pin header for DAP– 10pin (2x5) Header for LIN Transceiver (LIN)– 10pin (2x5) Header for CAN High Speed Transceiver (CAN0)– two 40-pin connectors with I/O signals– mini SD card slot
Components– Infineon’s Multi Voltage Safety Micro Processor Supply TLF35584QV– LED to validate power supply (5V or 3,3Volt)– LED indicating RESET (ESR0) active state– LED indicating activ miniWiggler JDS– LED switched via DAS software– Infineon’s High Speed CAN Transceiver TLE 9251V (CAN FD capable)– Infineon’s LIN-Transceiver TLE 7259-3GE– QSPI Real-Time Clock/Calendar with SRAM and unique MAC Id MCP79511 (if CPU not support I2C)– I2C Real-Time Clock/Calendar with SRAM and unique MAC Id MCP79411 (if CPU support I2C)– USB to UART bridge FT2232HL (FTDI)– Integrated 10/100/1000M Ethernet Precision Transceiver RTL8211FI-CG (Realtek)– Touch screen controller ADS7843– 4 general purpose LEDs– Reset switch– Wake switch– Xilinx CPLD XC9572XL
User Manual 2-2 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Features
2.2 Block Diagram
Figure 2-1 Application Kit TC3X7 Block Schematic
MicroUSB miniWiggler
OCDS1
USB
XTAL
CAN Transceiver
P20.8 or P10.3
P20.7 or P10.2
TC3X7(TC397, TC387)TriCoreCPU
PLLCAN0
P14.0
P14.1
4 LED’s (P13.0 up to
P13.3)
Multi Voltage Safety Micro Processor Supply
TLF35584QV5V or 3,3V version
RGMII (P11, P12) PHYTwisted Pair
RJ45
LIN LIN
Transceiver
P10.5
P10.6
Mic
ro
SD
Car
d
QSPI0 (P20) Serial to Parallel
converter
XGA Display320x240
with touch
QSPI1 (P10) or SDMMC
Acoustic Beeper
P33.
0
RTCI2C (P15) or QSPI4 (P22)
P33.7
WAKEUPWAKE
QSPI2 (P15)
QSP
I2
User Manual 2-3 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Features
2.3 Placement
Figure 2-2 Application Kit TC3X7 V2.0 Top Placement
U101
Y201
U203
JP201
R166C105
C120
L103
Q104
C11
6
C121
U10
5
R130
BT101
U104
U201
X203
C20
9
D301
BU301
D302 U301
Y30
1
U206
X201
X301
U202
C107
C11
4
L101
L102
LS10
1U102
X101
X102
X103X2
05
Y101
Y102
X202
X302
U103
X204
User Manual 2-4 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Features
Figure 2-3 Application Kit TC3X7 V2.0 Bottom Placement
LCD201
D103
D102
U205
U305
U303
U302
CB221
D101
D105
D106
D107
D108
D109
D110
S101
S102
D104
User Manual 3-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Information
3 Application Kit Information
3.1 Available BoardsThe following boards are available:
– Application Kit TC397 V2.0 with VEXT=5V– Application Kit TC397 V2.0 with VEXT=3,3V– Application Kit TC387 V2.0 with VEXT=5V– Application Kit TC387 V2.0 with VEXT=3,3V
If the TLF35584 is stamped with VS1 then the board has VEXT=5V.If the TLF35584 is stamped with VS2 then the board has VEXT=3,3V.The used VEXT voltage can also be detected by the supply measurement of the AURIX™ device itself and osmeasureable on pin 2 of X102 and X103.
Note: Only on Application Kit TC397 V2.0 with VEXT=3,3V is the SD card connected to the TC397 via SDMMC module and P10.2/3 is used for CAN. All other boards are using QSPI for SD card access and P20.7/8 for CAN.
3.2 Power SupplyAll needed voltages are generated via Infineon’s Multi Voltage Safety Micro Processor Supply TLF35584QV and viathe microcontroller itself (+1,25V).The supply device is available as two different devices:TLF35584QVVS1 -> +5V standby voltage, +5V TriCore supply (V_UC)TLF35584QVVS2 -> +3,3V standby voltage, +3,3V TriCore supply (V_UC)Dependent of the assembled device the board works with 5V or 3,3V IO.The TLF35584QV provide the following voltages:+3,3V or +5V for standby (connected to VEVRSB)+3,3V or +5V for TriCore (connected to VEXT)+5V communcation supply (used by CAN transceiver and acoustic beeper)+5V voltage reference (connected to VDDM and VAREFx)+3,3V via LDO directly from pre regulator (connected to VDDP3 and VFLEX and used by Ethernet PHY, display andSD card)Applying a stable supply voltage causes the power on reset after a short period. The LED (V_UC) indicate thestatus of the cpu voltage.A manual power on reset is executed by pressing the reset button.The Board has to be connected to a +3,5V to +40V DC power supply.The board can be powered directly by USB or by the power connector. In case that the voltage on the powerconnector is higher than the 5V from the USB then the board is powered by power connector.
3.2.1 Power via supply connector (X101)The Board has to be connected to a +5,5V to +40V DC power supply. A supply with 6V and 800mA is sufficient. The pinout for the supply connector is shown in Figure 6-2. There can beused any standard power pack with a connector where the positive line is surrounded by the ground line.
User Manual 3-2 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Information
3.2.2 Power via Micro USB (BU301)The Board can also be powered by the Micro USB connector. The power consumption of the board is higher than500mA. Use an USB port which can deliver 900mA (USB 3.0). Most USB hubs are not able to drive more than100mA and can’t be used. Also it is possible to power the board with a cellular battery charger which has 5V output and use Micro USB forconnecting.The pinout for the USB connector is shown in Figure 6-3.
3.2.3 Multi Voltage Safety Micro Processor Supply TLF35584QVThe board has assembled the Safety Micro Processor Supply with the following Features:
– High efficient multi voltage power supply chip– Serial step up and step down pre regulator for wide input voltage range from 3.0 to 40 V with full
performance and low over all power loss– Low drop post regulator 5.0V/200mA for communication supply (named LDO_Com)– Low drop post regulator 3.3 V/600 mA (VS2) or 5.0V/600mA (VS1) for μC supply (named LDO_μC)– Provides enable, sync out signal and voltage monitoring (inside device to be added to reset function) for an
optional external post regulator for core supply (not used)– Voltage reference 5.0 V +/- 1% for ADC supply, 150 mA current capability (named Volt_Ref)– Two trackers for sensor supply following voltage reference 150 mA current capability each (named Tracker
1 and Tracker 2, not used)– Standby regulator 3.3 V/10 mA (VS2) or 5.0 V/10 mA (VS1) (named LDO_Stby)– Independent voltage monitoring block with reset function– Configurable functional and window watchdog– 16-bit SPI– Safe state control with two safe state signals with programmable delay– Input voltage monitoring (over voltage switch off)– Green Product (RoHS compliant)– ISO26262 compliant– AEC Qualified
The TLF35584 is connected to the CPU via QSPI2 and use QSPI2_SLSO1 (P14.2) as chip select. Via this spiconnection the power supply will be configured (Watchdog, device states and soon).For more information see the data sheet of TLF35584.
Note: The switch to FAILSAFE state is switched off by HW (R127 assembled). If you will use/evaluate all safety features of the TLF35584 make sure that R127 is not assembled and remove R127 if assembled. Make sure that you have a proper initialization of TLF35584 in your software and debugger in this case. If needed you can assemble JP201 (2 pin header). Then you can switch easily with a jumper.
3.3 Real Time ClockThe board is equipped with a RTC MCP79511 (if I2C is not supported by CPU) or MCP79411 (if I2C is supported byCPU) from Microchip. The device is powered from the standby voltage of the TLF35584 and is also powered whenthe TLF35584 is switched to standby mode. For backup when the TLF35584 is not powered then there is a smallbattery to hold the value inside the RTC. The MCP79511 is connected to the microcontroller via QSPI4, theMCP79411 is connected to the microcontroller via I2C on P15.4/P15.5. The RTC can trigger an SCU_REQ4 (P33.7)interrupt (activ low) with the alarms. Also an alarm from the RTC will wake-up (switch on) the board if the boardis powered and the supply is switched off.
User Manual 3-3 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Information
The MCP79511/MCP79411 contains also an unique ID in the format EUI-48. This id can be used as mac id forethernet if the assembled CPU support ethernet.For more information about the RTC please see the datasheet of MCP79511/MCP79411.
3.4 XGA DisplayThe board has an XGA Display with a resolution of 320x240. The display has an ILI9341 display controller. Pleasesee the datasheet of the display controller for the register of the controller. The display is connected to the themicrocontroller via an SPI to Parallel converter (U201).The SPI to Parallel converter is based on a statemachine. This state machine is clocked with the clock of SPI, hereSCLK0 (P20.13). Each rising edge of P20.13 will change the state of statemachine. When SLSO08 (P20.6) is not lowthen the state machine will go always in the idle state with a valid clock edge.The backgound light is switched on via port 15 pin 0. An high level on this port pin enable the backgound light.
3.4.1 Write a display registerA single write to any register can be done by a 32 bit transfer of SPI. Make sure that the SLSO08 is low during this32 bit. Bit 31 must be transfered first.Bit 31 must be 0, this will be indicate a write access.Bit 30 must be 0, this will be indicate a single access.Bit 29...Bit 22 is the 8 bit register number which will be writtenBit 21...Bit 6 is the 16bit value which will be writtenBit 5...Bit 0 are dummy bits which are used to execute the write.To speedup the writing (e.g. write to ram of display controller) it is possible to make a endless transfer. This isdone by this:first 10 bit transferBit 9 must be 0, this will be indicate a write access.Bit 8 must be 1, this will be indicate an endless transfer.Bit 7...Bit 0 is the 8 bit register number which will be writtenNow you need to transfer only 16bit values for the registers. With the first 16 bit value there is no action on thedisplay. With the second value transfer is a write to the register started. This means after the last value you mustmake a dummy transfer to write the last value. The endless mode can only be leave by a rising edge of SCLK0 with SLSO08 set to high. This can be done by adummy transfer to any other chip select or by a transfer from the touch controller.
3.4.2 Read a display registerA single read from any register can be done by a 32 bit transfer of SPI. Make sure that the SLSO08 is low during thecomplete transfer.first transfer has 16 bit:Bit 15 must be 1, this will be indicate a read access.Bit 14 must be 0, this will be indicate a single access.Bit 13...Bit 7 is the 8 bit register number which will be readBit 5...Bit 0 are dummy bits to setup the register number.second transfer must have 26 bits:Bit 25...Bit 16 are dummy bits which are needed to readout the register value
User Manual 3-4 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Information
Bit 15...Bit 0 are dummy bits to transfer the readed value.To speedup the reading (e.g. reading from ram of display controller) it is possible to make a endless transfer. Thisis done by this:first 16 bit transfer:first transfer has 16 bit:Bit 15 must be 1, this will be indicate a read access.Bit 14 must be 1, this will be indicate an endless access.Bit 13...Bit 7 is the 8 bit register number which will be readBit 5...Bit 0 are dummy bits to setup the register number.second 10 bit transfer:Bit 9...Bit 0 are dummy bits which are needed to readout the register valueNow you need to transfer only 16bit values for the registers. With the each 16 bit transfer you get a value. With thelast transfer you have dummy read which you don’t get the result. The endless mode can only be leave by a rising edge of SCLK0 with SLSO08 set to high. This can be done by adummy transfer to any other chip select or by a transfer from the touch controller.
3.4.3 Touch controllerThe touch of display is connected to an Touch controller ADS7843. This controller is connected via the QSPI0 andSLSO9 (P20.3) to the microcontroller. For more information about the delivered values from the touch controllerplease see the datasheet of ADS7348.
3.5 Micro SD cardThe board has a slot to use the board with an micro SD card. If the board is assembled with TC397 and aTLF35584QVVS2 (3,3V version) then the SDMMC module is connected directly to the SD card. In this case R251 upto R256 are assembled instead of R261 up to R268.In all other cases the card can be used in SPI mode only. In this case the SD card is connected to QSPI1 with chipselect 9 (P10.5) of QSPI1.Please see additional literature how to use a SD card in SPI mode.
3.6 LEDsThere are 8 LEDs on board:
– D107 up to D110 (blue) -> toogle LEDs connected to P13.0 ... P13.3– D106 ESR0 (red) -> RESET LED indicate the reset state of the board– D105 V_UC (green) -> V_UC power supply indication– D104 SS2 (green) -> safe state signal 2 of TLF35584– D302 ACT (green) -> on board miniWiggler JDS is ACTIV– D301 RUN (blue) -> Debug RUN mode (switched by DAS Server)
3.7 ClockOn the board is a fixed crystal with 20MHz assembled. You can change this by replacing Y101 (soldered).
3.8 USB ConnectorThe USB connector is used for connection to a PC. Via the USB it is possible to power the board, using the ASCLIN0as serial connection via USB and Debugging via DAS. For the pinout of USB socket see Figure 6-3.
User Manual 3-5 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Information
NOTE: Before connecting the board to the PC, make sure that the actual DAS software is installed on the PC. Foractual DAS software please contact your local FAE.The software can also be found on:
DAS website3.8.1 Serial Connection to PCAfter the first connection of USB to a PC the needed driver will be installed automatically. During this there willbe created a new COM port on PC. This COM port can be used to communicate with the board via ASCLIN0 of thedevice. Per default the ASCLIN0 is used on P14.0 and P14.1 (e.g. Generic Bootstrap Loader) .
3.8.2 miniWiggler JDSThe miniWiggler JDS is a low cost debug tool which allows you access to the JTAG of the device. Make sure thatyou have the latest DAS release. Debugging is possible via the DAS Server ‘UDAS‘. Please contact your prefereddebug vendor for support of DAS.If you have connected the board to the PC and there runs the DAS server, then a working connection is visible viathe green ACTIV LED.The status RUN LED is switched on/off through the DAS Server, depending on the used debugger (client).IMPORTANT: Make sure that there is no or a tristated connection on X301 (OCDS1) and X302 (DAP) if the ACTIV LEDis on.
3.9 BeeperThe board has an electro-acoustic transducer which can be used for an acoustic output. The transducer isconnected to pin P33.0 and needs a 2048Hz frequency.
3.10 MultiCANOn the board is one CAN transceiver (CAN FD capable) connected to the CAN module 0 node 0 (P20.7 and P20.8)on TC3X7. Optional the CAN transceiver can be connected to CAN module 0 node 2 (P10.2 and P10.3). To do thisremove resistor R269, R270 and assemble R257, R258 with 0R Resistor. For location of this resistors please see theTop Layer assembling Figure 7-5.
Note: If the board is assembled with TC397 and TLF35584QVVS2 (3,3V version) then the SDMMC module is connected directly to the SD card. In this case P20.7 and P20.8 are used by the SDMMC and the transceiver is connected to P10.2 and P10.3.
The transceiver is connected to an IDC10 plug. For the pinout of IDC10 plug see Figure 6-4. You can use a IDCfemale connector with crimpconnector, flat cable and SUB-D 9 plug with crimpconnector to have a 1:1 adapterto SUB-D 9.
3.11 LINOn the board is one LIN transceiver connected to the ASCLIN2 (P10.5 and P10.6) on TC3X7. The transceiver areconnected to one IDC10 plug. For the pinout of IDC10 plug see Figure 6-5. You can use a IDC female connector withcrimpconnector, flat cable and SUB-D 9 plug with crimpconnector to have a 1:1 adapter to SUB-D 9.
3.12 EthernetThe Application Kit provide a RJ45 connector (X204) for twisted pair ethernet connections.The board use aRealtek Integrated 10/100/1000M Ethernet Precision Transceiver RTL8211FI-CG as physical interface device. For
User Manual 3-6 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Information
more information about the ethernet modul see TC3X7 User’s Manual, about the PHY see the RTL8211Fdatasheet. For the pinout of RJ45 see Figure 6-6.For the connection between TriCore and PHY is used the RGMII.
3.13 Core current measurementIt is possible to measure the core (+1,25V) current with two ADC pins of the CPU. This can be done by synchronousmeasurement of AN36 and AN44. The pins are connected togheter by an 50mOhm resistor. The current can becalculated by the following formula:Icore = (VAN44 - VAN36) / 0,05. To get an valid result the measurement must be done synchronous.
3.14 Other peripheralsFor all other peripherals there are no special plugs on the board. Many of the peripheral signals are available onthe two standard connectors X102 and X103, see “Connector Pin Assignment” on Page 6-1.
3.15 Toggle LED’sThe status LED’s are low active and can be controlled by Software.Port 13 pin 0 up to pin 3 are connected to single LED’s (D107... D110) and powered by the normal microcontrollervoltage.
3.16 ButtonsOn the board are two buttons.The reset button (S101) will apply a warm power on reset to the device.The WAKE button (S102) will be used to enable/wakeup the TLF35584.
3.17 Debug System
3.17.1 OCDS1The OCDS1 signals are connected to the IDC16 plug (X401). They work with the port supply of Microcontroller (+5Vdefault or +3,3V). For pinout of the connector see Figure 6-7. You can connect any debugger to this connector. The signals /BRKIN and /BRKOUT are not connected.If you connect a debug hardware make sure that the miniWiggler JDS (see “miniWiggler JDS” on Page 3-5) is notactiv (ACTIV LED is off) and on the DAP connector (X302) is no hardware connected or the hardware is tristated. If the ACTIV LED is on, then stop the active DAS Server ’UDAS’ and/or remove the USB connection to the PC.
3.17.2 DAPThe board comes with a DAP connector (X302). For pinout of this connector see Figure 6-8. You can connect a DAPhardware here. If you use this connector make sure that the miniWiggler JDS is not activ (ACTIV LED is off) and aconnected OCDS1 hardware is disconnected or tristated.
User Manual 4-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Application Kit Configuration
4 Application Kit ConfigurationThe Application Kit has a fixed configuration which can be sligthly changed. For locating components seeFigure 7-5 and Figure 7-6.
4.1 Default Pad StateThe default pad state is that the internal pull-up devices on the I/O pins are enabled. This can be changed byassembling resistor R143 with 2K2 (drive P14.4 / HWCFG6 low). If the resistor R143 is assembled then all I/O pinsare in tristate. Additonal you must make sure that R134 is also assembled with 10K that the EVRC is enabledproperly in this case.
4.2 BootmodeThe bootmode is fixed set to Start-up mode is selected by Boot Mode Index. This can be changed to boot frompins and Internal Start from Flash by removing resistor R133 (drive P14.3 / HWCFG3 high) and assembling resistorR142 with 2K2 (drive P14.3 / HWCFG3 low). If the I/O pins are set to tristate per default (R143 assembled) then youmust assemble also resistor R134 and resistor R272 with 10K to set the HWCFG pins to proper values.
User Manual 5-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Signal (on board used) Description
5 Signal (on board used) DescriptionFor more information about the signals please see the user manual/datasheet for TC3X7 and/or the schematicsof the board.All not mentioned signals are not used on the board and can be used outside if they are connected to the IOConnectors see Figure 6-1. Optional marked signals are used only if they are connected (default is that they arenot used on the board).
5.1 Power Signals
5.2 Reset Signals
5.3 Config Signals
Table 5-1 Power Signals
Short name Description
VCC_IN Supply Input (3,5V...40V)
VIN Input Voltage of Power Supply Device
GND Ground
V_PREPEG Pre Regulator Voltage (~5,8V)
+3V3 Supply Voltage (3,3V)
+5V Supply Voltage (5V)
V_UC Microcontroller Supply Voltage (5V or 3,3V depends on assembled TLF35584)
VREF_5V Reference Supply Voltage (5V)
QST Standby Supply Voltage (5V or 3,3V depends on assembled TLF35584)
VDD Core Supply Voltage (1,25V)
VDDM ADC Analog Part Supply Voltage (5V or 3,3V selectable via 1R resistors)
VAREF1 ADC Reference Voltage 1 (5V or 3,3V selectable via 4R7 resistors)
VAREF2 ADC Reference Voltage 2 (5V or 3,3V selectable via 4R7 resistors)
VDD_USB Supply Voltage from USB (5V)
VDD_FT Supply Voltage FT2232HL device (3,3V)
Table 5-2 Reset Signals
Short name Description
/PORST Power On Reset
/ESR0 External Service Request 0 (Hardware Reset)
/ESR1 External Service Request 1 (Non Maskable Interrupt)
Table 5-3 Config Signals
Short name Description
P14.5 HWCFG1 (EVR33OFF)
P14.2 HWCFG2 (EVRCON)
P14.4 HWCFG6 (Pins in tristate / Pins with pull-up)
User Manual 5-2 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Signal (on board used) Description
5.4 Clock Signals
5.5 Debug Signals
5.6 Peripheral Signals
P14.3 HWCFG3 (Boot from pins / Boot from Flash BMI)
P10.5 HWCFG4 (Boot from internal flash)
P10.6 HWCFG5 (Boot from internal flash )
Table 5-4 Clock Signals
Short name Description
XTAL1 Crystal Oscillator Input
XTAL2 Crystal Oscillator Output
Table 5-5 Debug Signals
Short name Description
/TRST Test Reset
DAP0 Device Access Port Line 0 / Test Data Clock (TCK)
DAP1 Device Access Port Line 1 / Test Data Select (TMS)
P21.6 Test Data Input (TDI)
P21.7 DAP2 / TDO from debug connectors
Table 5-6 Peripheral Signals
Short name Description
P14.1 ASCLIN0 Receive Input A
P14.0 ASCLIN0 Transmit Output
P10.6 ASCLIN2 Receive Input D
P10.5 ASCLIN2 Transmit Output
P15.4 I2C0 Serial Clock
P15.5 I2C0 Serial Data Input C und Output
P33.7 RTC Alarm Interrupt Input
P20.7 CAN00 Receive Input B
P20.8 CAN00 Transmit Output
P10.2 CAN02 Receive Input E (optional)
P10.3 CAN02 Transmit Output (optional)
P11.0 Ethernet TXD3 Output
P11.1 Ethernet TXD2 Output
P11.2 Ethernet TXD1 Output
Table 5-3 Config Signals (continued)
Short name Description
User Manual 5-3 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Signal (on board used) Description
P11.3 Ethernet TXD0 Output
P11.4 Ethernet TXCLK Output
P11.5 Ethernet GREFCLK Input
P11.6 Ethernet TCTL Output
P11.7 Ethernet RXD3 Input A
P11.8 Ethernet RXD2 Input A
P11.9 Ethernet RXD1 Input A
P11.10 Ethernet RXD0 Input A
P11.11 Ethernet RCTL Input A
P11.12 Ethernet RXCLK Input A
P12.0 Ethernet Management Data Clock Output (MDC)
P12.1 Ethernet Management Data Input/Output (MDIO)
P10.8 Ethernet MD Interrupt Input
P02.1 Ethernet MD Interrupt Input (optional)
P14.2 QSPI2 Slave Select Output 1 for /SCS of TLF35584
P15.3 QSPI2 Master Clock Output for SCL of TLF35584
P15.6 QSPI2 Master Transmit Output for SDI of TLF35584
P15.7 QSPI2 Master Receive Input B for SDO from TLF35584
P14.3 Output for Watchdog Input of TLF35584
P33.8 SMU_FSP0 Output for Error Signal Input of TLF35584
P33.9 Input for Safe State Signal 1 from TLF35584
P20.6 QSPI0 Slave Select Output 8 for /CS of Display
P20.3 QSPI0 Slave Select Output 9 for /CS of Touch
P20.13 QSPI0 Master Clock Output for SCLK of Display and Touch
P20.14 QSPI0 Master Transmit Output for SDI of Display and Touch
P20.12 QSPI0 Master Receive Input A for SDO from Display and Touch
P20.9 Interrupt Input from Touch /PENIRQ
P15.0 PWM or static Output for Display Backlights
P10.5 QSPI1 Slave Select Output 9 for /CS of SD card
P10.2 QSPI1 Master Clock Output for SCLK of SD card
P10.3 QSPI1 Master Transmit Output for SDI of SD card
P10.1 QSPI1 Master Receive Input A for SDO from SD card
P10.7 Interrupt Input from Card Detect Signal
P02.0 Interrupt Input from Card Detect Signal (optional)
P13[0...3] On board LED’s
P33.0 PWM Signal for Acoustic beeper
P23.1 QSPI4 Slave Select Output 6 for CS of MPC79511 (optional)
P22.3 QSPI4 Master Clock Output for SCK of MPC79511 (optional)
Table 5-6 Peripheral Signals (continued)
Short name Description
User Manual 5-4 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Signal (on board used) Description
P22.0 QSPI4 Master Transmit Output for SI of MPC79511 (optional)
P22.1 QSPI4 Master Receive Input B for SO from MPC79511 (optional)
P15.1 SDMMC0 Clock Output for SD card (optional)
P15.3 SDMMC0 Command Output for SD card (optional)
P20.7 SDMMC0 Data 0 Input/Output for SD card (optional)
P20.8 SDMMC0 Data 1 Input/Output for SD card (optional)
P20.10 SDMMC0 Data 2 Input/Output for SD card (optional)
P20.11 SDMMC0 Data 3 Input/Output for SD card (optional)
Table 5-6 Peripheral Signals (continued)
Short name Description
User Manual 6-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Connector Pin Assignment
6 Connector Pin AssignmentThe Application Kit will be shipped with two 40 pin male (plug) connectors on top layer with a standard grid of2,54mm.
6.1 I/O connectors TC387 and TC397
Figure 6-1 IO connectors for TC387 and TC397 - Pinout
Note: VCC_IN is connected to X102 and X103 with a 0R resistor which is not assembled by default to avoid shortcut to VEXT in case of measurement on the connector. If VCC_IN needed on X102 and X103 then assemble R113 with a resistor 0R size 0805. Pin 1 of X102 and X103 are always connected together.
6.2 Power connector pinout
Figure 6-2 Power connector pinout (Roka 520 2550)
(VCC_IN) 1 2 V_UC P14.5 40 39 P14.4GND 3 4 GND P33.10 38 37 P33.9P21.2 5 6 P21.3 P15.7 36 35 P15.6P14.8 7 8 P14.7 P15.5 34 33 P15.4P14.6 9 10 P20.0 P15.8 32 31 P15.2P21.4 11 12 P21.5 P22.3 30 29 P22.2P02.0 13 14 P02.1 P22.1 28 27 P22.0P02.2 15 16 P02.3 P33.11 26 25 P23.4P02.4 17 18 P02.5 P23.3 24 23 P23.2P02.6 19 20 P02.7 P23.1 22 21 P23.0P02.8 21 22 P00.0 P33.6 20 19 P33.8P00.1 23 24 P00.2 P33.12 18 17 P33.1P00.3 25 26 P00.4 P33.2 16 15 P33.3P00.5 27 28 P00.6 P33.4 14 13 P33.5P00.7 29 30 P00.8 AN0 12 11 AN8P00.9 31 32 P00.10 AN2 10 9 AN3
P00.11 33 34 P00.12 AN11 8 7 AN13AN19 35 36 AN18 AN20 6 5 AN21AN17 37 38 AN16 GND 4 3 GNDAN25 39 40 AN24 V_UC 2 1 (VCC_IN)
X102X103
+5,5V…+40V
GND
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Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Connector Pin Assignment
6.3 USB connector pinout
Figure 6-3 USB connector pinout (Micro USB B-type)
6.4 CAN connector pinout
Figure 6-4 CAN connector pinout (IDC10)
6.5 LIN connector pinout
Figure 6-5 LIN connector pinout (IDC10)
D+
D-
VC
C
GN
DID
2 4 6 8
GN
D
CA
NH
CAN
L
1 3 5 7 9
10
GN
D
2 4 6 8
GN
D
BUS
VIN
opt
1 3 5 7 9
10
GN
D
User Manual 6-3 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Connector Pin Assignment
6.6 Ethernet connector pinout
Figure 6-6 Ethernet connector pinout (RJ45)
6.7 OCDS1 connector pinout
Figure 6-7 OCDS1 connector pinout (IDC16)
6.8 DAP connector pinout
Figure 6-8 DAP connector pinout (Samtec FTSH10)
J2J1 J3 J4 J5 J6 J7 J8
TDO
2 4 6 8
1 3 5 7 9
10 12 14 16
11 13 15
TDI
/TR
ST
TCK
TMS
GN
D
GN
D
/PO
RS
T
GN
D
V_U
C
DAP
0
2 4 6 8
1 3 5 7 9
10
/TR
ST
/PO
RS
T
DAP
2
DA
P1
GN
D
GN
D
Key
GN
D
V_U
C
User Manual 7-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
7 Schematic and Layout
7.1 Known problemsNo problems known.
7.2 Schematic
User Manual 7-2 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
Figure 7-1 Schematic - Project Overview
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User Manual 7-3 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
Figure 7-2 Schematic - CPU and Power Supply
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VSS
P12
VSS
N9
VSS
P9
VSS
N10
VSS
N11
VSS
N12
VSS
M7
VSS
M8
VSS
M10
VSS
M11
VSS
M13
VSS
M14
VSS
/AG
BT
CL
KN
L7
VSS
L8
VSS
L9
VSS
L10
VSS
L11
VSS
L12
VSS
L13
VSS
/AG
BT
ER
RL
14
VSS
/AG
BT
CL
KP
K7
VSS
K8
VSS
K9
VSS
K10
VSS
K11
VSS
K12
VSS
K13
NC
/DA
PE0
K14
VSS
J7V
SSJ8
VSS
J10
VSS
J11
VSS
J13
VSS
J14
VSS
H9
VSS
H10
VSS
H11
VSS
H12
VSS
G9
VSS
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PE2
G10
VSS
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PE1
G11
VSS
G12
VG
AT
E1P
(VC
AP1
)W
17
U10
1A
TC
3X7
V_U
C
VD
D
CB
101
100n
CB
102
100n
CB
103
100n
GN
D
VD
D
VA
RE
F1
VD
DM
CB
110
3.3μ
F
GN
D
CB
111
390n
GN
D
CB
108
330n
GN
D
CB
107
330n
GN
D
CB
106
1μF
GN
D
R10
1
0R
C10
210
pF
C10
110
pF
1 2
Y10
120
MH
z
GN
D
GN
D
R11
64K
7
12
X10
1POWER
VC
C_I
N D10
1 MSS
2P2 C
114
100μ
F/40
VC
B11
210
0nG
ND
GN
D
V_P
RE
RE
GV
IN
GN
DV
IN
QST
N.C
.43
WD
I16
QST5
VS1
45
WA
K4
RSH
47
PG1
41N
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44
VST
2
EN
A3
AG1 6
SW2
42
FRE
24
RO
T17
INT
18
SDO
13
SCL
14Q
UC
30
QC
O31
SYN
19
QT
133
QT
232
VC
I26
SEC
23
EV
C21
SCS
15
ER
R20
BSG
1R
SL48
STU
25
DR
G46
GND HS
SDI
12
SS1
11
SS2
10
QV
R29
AG2 7
AG3 8
AG4 28
AGS 9
TM
22
GST
27
PG2
40
N.C
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N.C
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N.C
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FB4
37
FB5
38
N.C. 39
C14
orne
wer
U10
2*
VR
EF_
5V
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S102
WA
KE
R10
210
0R
S101
RE
SET
GN
D
R10
4
4K7
R10
510
KC
115
4,7μ
F/10
V
GN
DG
ND
V_U
CR
103
2K2
V_U
C
GN
D
GN
D
C10
8
1μF/
10V
GN
D
C11
3
4,7μ
F/10
V
GN
D
V_U
C
QT
1
QT
2
/ESR
0
GN
D
R11
5
100K
/PO
RST
GN
DX
11
VC
C10
SCK
8
VSS
5SI
6
MFP
9
X2
2V
BA
T3
CS
4
SO7
U10
4*
12
Y10
2
32.7
68H
zC
103
10pF
C10
412
pF
GN
DG
ND
CB
114
100n
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 1617 19 21 23 25 27 29
18 20 22 24 26 28 3031
3233
3435
3637
3839
40
X10
2
CO
N2X
20
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 1617 19 21 23 25 27 29
18 20 22 24 26 28 3031
3233
3435
3637
3839
40
X10
3
CO
N2X
20
R11
9*
GN
D
V_U
C D10
5L
PT
67K
GN
DR11
822
0R
R11
7
10K
V_U
C
1
3 2
Q10
6B
SS13
8N
D10
6L
ST
67K
1
3 2
Q10
3
BSS
138N
POR
T[0
0..3
4]
/PO
RST
R11
1
10K
R11
2
10K
/ESR
1
V_U
CV
IN_O
PT
GN
D
P23.
1
GN
D
V_U
CV
IN_O
PT
GN
DG
ND
P14.
2
+1
-2
LS1
01
BR
T16
15P-
06+5V
GN
D
R12
1
10K
R12
3
4R7_
opt
R12
2
4R7
VR
EF_
5V
GN
D
R13
410
K_o
pt
1
32
Q10
5B
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P
GN
D
BT
101
BR
-122
5/V
CN
C11
6*
P14.
3
P14.2
C10
622μF
/10V
C10
9
4,7μ
F/10
VC
110
4,7μ
F/10
VC
111
4,7μ
F/10
VC
112
4,7μ
F/10
V
GN
D
GN
D
+3V
3R
124
1R
QST R11
010
0K
GN
DR
114
10K
P33.
8
P33.
7
R12
5
1R_o
ptVR
EF_
5V
+3V
3
1
3 2
Q10
2B
SS13
8N
D10
2
SS26
VD
D_U
SB
L10
1
XA
L50
50-2
23M
EB
L10
2
XA
L40
30-4
72M
EC
R13
0 250m
R
4
3
1,2,5,6
Q10
1B
SL60
6SN
C10
747μF
/40V
GN
D
GN
D
GN
D
D10
3
SS26
VIN
GN
D
P14.3
GN
DR14
22K
2_op
t
R12
70R R
128
20K
GN
D
+5VCB
113
100n
R12
9
470R
D10
4
LP
T67
KG
ND
13
D11
1
BA
T54
R13
61K C
118
100p
F
GN
D
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8P1
5.6
P15.
7
R13
7
10K
P22.
3P2
2.0
P22.
1
R13
8 1KP3
3.9
R13
92K
2
GN
D
V_U
C
+3V
3
CB
104 1μ
FC
B10
5
100n
VD
D
C10
5*
GN
D
2
71
8
3
45 6
Q10
4*
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D
V_U
CL
103
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120
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GN
D
GN
D
Q1
GND 6
SEN
SE/A
DJ
2
BY
P4
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EN
5
GND HS
U10
3T
LS2
05B
0EJV
33
GN
D
V_U
CC
119
10μF
C11
710
nF
+3V
3
GN
D
R12
0
0R_o
pt
V_U
C+3
V3
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6D
9
P11.
9A
9
P11.
3B
10
P11.
11A
8
P11.
12B
8
P11.
10B
9
P11.
2A
10
P02.
0B
1
P02.
1C
2
P02.
2C
1
P02.
3D
2
P02.
4D
1P0
2.5
E2
P00.
4J1
P00.
5J2
P00.
12L
2
P00.
9K
2
P00.
3H
2
P00.
0G
1
P10.
6/H
WC
FG5
A4
P13.
1A
12P1
3.0
B12
P13.
3A
11
P10.
1B
7
P13.
2B
11
P10.
5/H
WC
FG4
B5
P10.
2A
5
P10.
3A
6P0
0.2
H1
P00.
1G
2
P11.
8E
7
P00.
8K
4P0
0.7
K1
P00.
6J4
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6E
1
P02.
7F2
P02.
8F1
P11.
4D
10
P11.
0E
10
P11.
1E
9
P11.
5D
8
P11.
7E
8
P11.
13E
6
P11.
14D
7P1
1.15
D6
P12.
0E
12
P12.
1E
11
P10.
4(N
C)
B6
P10.
0(N
C)
A7
P10.
7(N
C)
A3
P10.
8(N
C)
B4
P00.
10(N
C)
K5
P00.
11(N
C)
L1
P02.
9(N
C)
E4
P02.
10(N
C)
F5
P02.
11(N
C)
F4
P01.
3(N
C)
G5
P01.
4(N
C)
G4
P01.
5(N
C)
H5
P01.
6(N
C)
H4
P01.
7(N
C)
J5
U10
1B
TC
3X7
P15.
3B
17P1
5.2
C19
P15.
5E
14
P20.
10E
19
P20.
14C
20
P14.
1A
15P1
4.0
B16
P15.
1A
18P1
5.0
B20
P20.
11E
20
P20.
12D
19
P20.
13D
20
P20.
8F2
0
P20.
9E
17
P15.
4A
17
P20.
3G
20
P20.
6F1
7
P33.
5Y
12
P20.
7F1
9
P21.
3J1
9P2
1.2
K19
P33.
7Y
13
P22.
3R
19
P33.
8W
14
P33.
9Y
14
P33.
10W
15
P21.
4K
20
P33.
11Y
15
P21.
5J2
0
P20.
0H
20
P22.
0P2
0P2
2.1
P19
P22.
2R
20
P15.
8D
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5.7
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P15.
6A
16
P33.
12W
16
P23.
1U
19
P33.
4W
12
P33.
6W
13
P14.
7D
13
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3Y
11
P22.
4P1
6
P14.
8A
13
P33.
1Y
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3.0
W10
P33.
2W
11
P33.
13(N
C)
Y16
P23.
0(N
C)
V20
P23.
2(N
C)
U20
P23.
4(N
C)
T20
P23.
3(N
C)
T19
P20.
1(N
C)
G19
P32.
3(N
C)
Y19
P32.
4(N
C)
W18
P32.
5(N
C)
T15
P32.
6(N
C)
U15
P32.
7(N
C)
U16
P23.
5(N
C)
T17
P23.
6(N
C)
R17
P23.
7(N
C)
R16
P33.
14(N
C)
T14
P33.
15(N
C)
U14
P21.
0(N
C)
K17
P21.
1(N
C)
J17
P22.
5P1
7
P22.
6(N
C)
N16
P22.
7(N
C)
N17
P22.
8(N
C)
M16
P22.
9(N
C)
M17
P22.
10(N
C)
L16
P22.
11(N
C)
L17
P14.
9(N
C)
D12
P14.
10(N
C)
D11
P34.
3(N
C)
U12
P34.
2(N
C)
T12
P34.
4(N
C)
T13
P34.
5(N
C)
U13
P34.
1(N
C)
U11
P14.
6B
13
P32.
2(N
C)
Y18
U10
1C
TC
3X7
P10.
1
P33.
12
P00.
0
AN
1(P
34.0
)U
10
AN
2(A
N0
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W9
AN
27(A
N13
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V1
AN
5(A
N1
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.1)
Y9
AN
8(A
N2
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W8
AN
10(A
N3
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Y8
AN
11(A
N4
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.4)
W7
AN
13(A
N5
/P40
.5)
W6
AN
16(A
N6
/P40
.6)
W5
AN
18(A
N7
/P40
.7)
W4
AN
20(A
N9
/P40
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Y3
AN
21(A
N10
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.10)
Y2
AN
37(A
N18
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.6)
P2
AN
39(A
N19
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P1
AN
44(A
N20
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N1
AN
45(A
N21
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N2
VSS
MY
7V
AR
EF1
(VA
RE
F)Y
6
VDDM Y5
VSSM Y4
AN
28(A
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U2
AN
29(A
N15
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U1
AN
33(A
N16
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R1
AN
35(A
N17
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R2
AN
46(A
N22
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M1
AN
47(A
N23
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M2
AN
19(A
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W3
AN
25(A
N11
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W1
AN
26(A
N12
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V2
VSS
M(N
C)
T2
VA
RE
F2(N
C)
T1
AN
0(N
C)
T10
AN
3(N
C)
U9
AN
4(N
C)
T9
AN
6(N
C)
T8
AN
7(N
C)
U8
AN
9(N
C)
U7
AN
12(N
C)
T7
AN
14(N
C)
U6
AN
15(N
C)
T6
AN
22(N
C)
T5
AN
17(N
C)
U5
AN
23(N
C)
R5
AN
24(N
C)
W2
AN
30(N
C)
T4
AN
31(N
C)
R4
AN
32(N
C)
P4
AN
34(N
C)
P5
AN
36(N
C)
N4
AN
38(N
C)
N5
AN
40(A
N49
/NC
)M
5
AN
41(A
N48
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)M
4
AN
42(N
C)
L5
AN
43(N
C)
L4
U10
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TC
3X7
AN
25(1
1)A
N1
VA
RE
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CB
109
3.3μ
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D
VA
RE
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TR
STL
19
TC
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AP0
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7/T
DO
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2/T
EST
MO
DE
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3/H
WC
FG3_
BM
IB
14
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4/H
WC
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HIG
HZ
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2/H
WC
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EV
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E13
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5/H
WC
FG1_
EV
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1E
TC
3X7
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1.7
DA
P1D
AP0
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ST
P33.
0
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V_U
C
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RST
P14.5
R14
02K
2
GN
D
V_U
C
P14.4
GN
DR14
32K
2_op
t
R13
34K
7
P14.3
V_U
C
V_U
CR
106
* R10
7
* R10
8
* R10
9
*
D10
7 LB
T67
3D
108 L
BT
673
D10
9 LB
T67
3D
110 L
BT
673
P13.
3
P13.
2
P13.
1
P13.
0
AN
20(9
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N21
(10)
AN
8(2)
AN
2(0)
AN
27(1
3)A
N26
(12)
AN
0
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4.1
P23.
2P3
4.2
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3P3
4.3
P23.
4P2
2.4
R13
5
4R7_
opt
R12
6
4R7
VR
EF_
5V
+3V
3
VA
RE
F2
AN
16(6
)
R14
4*
AN
17(1
4)
AN
28(1
4)A
N3(
6)R
151
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8(2)
AN
2
AN
5(1)
AN
29/4
4(15
)
AN
24(1
2)
AN
27(1
3)
AN
26(1
2)
AN
16(6
)
AN
17(1
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AN
24(1
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1)R
153
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5(1)
R15
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6)
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4*
R15
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0)
AN
16(6
)
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6*
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0.8
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9
P00.
12
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2.5
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2.7
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0
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5.3
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5.5
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0.9
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1.9
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0.3
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0.6
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9*
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1*
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0
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2.4
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AL
2X
TA
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7
GN
D
R16
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05
VD
D
AN
11(4
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29/4
4(15
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VC
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BA
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5*
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QST
MFP
MFP
VB
AT
P15.
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5.4 R
147
2K
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CR
148
2K
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C
QST
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110μF
GN
D
P21.
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5V 1K5
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6-10
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119
U10
23,
3VT
LF3
5584
QV
VS1
470R
V_U
CT
LF3
5584
QV
VS2
680R
100R
C12
247
nFG
ND
C12
347
nFG
ND
C12
447
nFG
ND
P33.
8
P33.
9P3
3.10
P33.
11
P02.
0P0
2.1
P02.
2P0
2.3
P02.
4P0
2.5
P02.
6P0
2.7
P02.
8P0
0.0
P00.
1P0
0.2
P00.
3P0
0.4
P00.
5P0
0.6
P00.
7P0
0.8
P00.
9P0
0.12
AN
21(1
0)A
N20
(9)
AN
8(1)
AN
25(1
1)
P22.
3P2
2.2
P22.
1P2
2.0
P15.
7P1
5.6
P33.
5
P15.
2
P14.
8P1
4.6
P14.
5
P20.
0
P21.
3
P33.
6
AN
24(1
2)P1
4.4
P33.
1P3
3.2
P33.
3P3
3.4
P23.
0P2
3.1
P23.
2P2
3.3
P23.
4
P00.
10P0
0.11
P33.
12
P14.
7
P15.
3P1
5.5
P15.
4
AN
17(1
4)A
N16
(13)
AN
0A
N2
P21.
2
P21.
4P2
1.5
P10.
8
P20.
10P2
0.11
P15.
1
R16
30R
R16
40R
C12
5op
t
AN
3(6)
AN
13(5
)
VD
DA
N13
(5)
AN
11(4
)
AN
18(7
)A
N19
(8)
AN
19(8
)A
N18
(7)
AN
29/4
4(15
)
R13
147
0R
R13
2
10K
V_U
C
P11.
0P1
1.1
P11.
4P1
1.5
P11.
7P1
1.8
TC
397B
TC
387
AU
RIX
2G1K N
A
TC
377
TC
367
TC
337
1KR
153-
R16
1N
A
NA
0RR
150-
R15
2R
144-
R14
6
Q10
4L
103
C10
5C
116
BSZ
15D
C02
KD
NA
22μF
LT
F502
2T-3
R3N
2R5
NA
NA
NA
1μF
4,7μ
F10μF
C12
0M
CP7
9511
-I/M
SN
AU
104
MC
P794
11-I
/MS
NA
U10
5
1 2
JP20
1op
t
R11
3
0R_o
pt
VIN
_OPT
VC
C_I
N
User Manual 7-4 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
Figure 7-3 Schematic - On Board Peripherals
11
22
33
44
55
66
77
88
DD
CC
BB
AA
2In
fine
on T
echn
olog
ies
AG
AT
VM
CA
CE
AT
VC
ES
Am
Cam
peon
1-12
D-8
5579
Neu
bibe
rgT
el.:
+49-
89-2
34-0
4
08.0
5.20
18
Num
ber:
Dat
e:
Shee
t:of
App
licat
ion
Kit
TC
3X7
Per
iphe
rals
2.0
Rev
isio
n:
G:\Technical_Support\TriCore\TriBoard\EDA_DXP\ApplicationKit\ApplKitTC3X7\ApplKitTC3X7V2.X\Peripherals.sch
File:
+5V
R24
3
0R
GN
D
R24
612
0R
R24
5
0R R24
7
0RG
ND
2
RX
D4
CA
NH
7
TX
D1
VC
C3
CA
NL
6
STB
8
VIO
5U
206
TL
E92
51V
SJ
R24
40R
V_U
C
1 3 5 7 9
2 4 6 8 10
X20
2
CA
N0
GN
D
POR
T[0
0..3
4]
CB
221
100n
GN
D
POR
T[0
0..3
4]
GN
D
R24
2
0R
R24
01K
CB
220
100n
GN
D
C20
922μF
/40V
GN
DP1
0.5
P10.
6
13
2
D20
1
BA
T54
-04
1 3 5 7 9
2 4 6 8 10
X20
3
LIN
1
R24
1
10K
VIN
R23
9
0R_o
pt
GN
D
GN
D
V_U
C
VIN
VS
P20.
9
EN
2
INH
8
BU
S6
TX
D4
WK
3
RX
D1
VS
7G
ND
5U
205
TL
E72
59-3
GE
C21
01n
GN
D
DB
11
DB
22
DB
33
DB
44
GN
D5
VC
C6
CS
7
RS
8
WR
9
RD
10
IM0
11
X+
12
Y+
13
X-
14
Y-
15
LE
DA
16L
ED
K4
17
LE
DK
318
LE
DK
219
LE
DK
120
N.C
.21
DB
522
RST
31
VC
I32
VC
C33
GN
D34
DB
1023
DB
1124
DB
1225
DB
1326
DB
1427
DB
1528
DB
1629
DB
1730
DB
635
DB
736
DB
837
LC
D20
1
EL
T24
0320
AT
P
D15
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
1
3 2
Q20
1B
SS13
8N
GN
D
GN
D+3
V3
+3V
3+3
V3
/CS_
TFT
/WR
/RD
R20
810
K
R20
7
470R
GN
D
X+
Y+
X-
Y-
+3V
3
GN
D
VC
C1
BU
SY13
PEN
IRQ
11
X+
2
GN
D6
VC
C10
Y+
3
X-
4
Y-
5
IN3
7
IN4
8
VR
EF
9
DO
UT
12D
IN14
CS
15
DC
LK
16
U20
2
AD
S784
3EC
B20
510
0nC
201
10uF
CB
204
100n
GN
D
V_U
C
GN
DG
ND
X+
Y+
X-
Y-
P20.
3P2
0.13
P20.
14P2
0.12
R20
322
RR
204
22R
R20
522
RR
206
22R
CB
206
100n
GN
D
RS
V_U
C
/ESR
0_3V
/LC
D16
/ESR
0
/ESR0_3V
/ESR
0_3V
P15.
0
VS
+3V
3
2
6 1
Q20
2AB
SD23
5N5
3 4
Q20
2BB
SD23
5N
GN
D
GN
DR21
010
K
R21
110
K
+3V
3
R20
9
10K
/ESR
0
R27
210
K_o
ptR
271
10KV
_UC
V_U
C
P20.
7
P20.
8
R25
7 *R
258 *
R26
9 *R
270 *
P10.
2
P10.
3
R20
11K
_opt
R20
20R
+3V
3
GN
D
IO1
40
IO2
41
IO3
42
IO4/
GC
K1
43
IO5/
GC
K2
44
IO6/
GC
K3
1
IO7
2
IO8
3
IO9
5
IO10
6
IO11
7
IO12
8
IO13
12
IO14
13
IO15
14
IO16
16
IO17
18
IO18
19IO
1920
IO20
21
VC
CIO
26
TD
I9
TM
S10
IO0
39
TC
K11
TD
O24
IO33
38
GN
D25
IO32
37
IO31
/GT
S136
IO30
/GT
S234
IO29
/GSR
33
IO28
32
IO27
31
IO26
30
IO25
29
IO24
28
IO23
27
IO22
23
IO21
22
VC
CIN
T35
VC
CIN
T15
GN
D17
GN
D4
U20
1
XC
9572
XL
-10V
Q44
I
CB
201
100n
CB
202
100n
CB
203
100n
+3V
3
GN
D
P20.
13
P20.
14P2
0.12
/LC
D16
P20.
6
D15
D7
D8
D9
D10
D11
D12
D13
D14
D6
D5
D4
D3
D2
D1
D0
/RD
/WR
RS
/CS_
TFT
1 32 4 5 6
X20
1
PRO
G_o
pt+3V
3
GN
D
/LC
D16
/ESR
0_3V
1 32 4 5 6 7 8 CO
MC
D
S
X20
5
MIC
RO
-SD
GN
D
VD
D_S
D
R23
8
*
C21
110
uF
GN
D
+3V
3
P10.
5P1
0.2
P10.
3P1
0.1
MR
ST_S
D
/CS_
SDM
TSR
_SD
SCL
K_S
D
/CD
_SD
/CD
_SD
P10.
7
R25
0
4R7
DA
T2
DA
T3
CM
D
CL
K
DA
T0
DA
T1
R25
1 *R
252 *
R25
3 *R
254 *
R26
5 *R
266 *
R26
7 *R
268 *
R25
5 *R
256 *
P20.
10P2
0.11
P15.
3P1
5.1
P20.
7P2
0.8
R26
1*
R26
2*
R26
3*
R26
4*
R24
9
*P0
2.0
99
22
44
33
55
66
88
LY
KL
YK
LY
AL
YA
LG
AL
GA
LG
KL
GK
SHIE
LD
S
77
SC10
C1
X20
4
RJ4
5
C20
4 27pF
C20
5 27pF
GN
D
GN
D
R22
722
R
1 3
Y20
1
NX
3225
SA-2
5MH
z
R22822R
R23
5
0RR
236
0RP1
2.0
P12.
1
R22
22K
49/1
%
GN
DG
ND
C20
3
4,7μ
F
GN
DG
ND
CB
208
100n
+1V
GN
DG
ND
GN
D
+3V
3
CLKOUT35
LE
D0
32
LE
D1
33
LE
D2
34
XT
AL
_IN
36
XT
AL
_OU
T37
EPA
DH
S
MD
IN0
2M
DIP
01
MDIO14
REG_OUT/LDO_OUT 30
INTB/PMEB31
MDC13
TXC20
PHY
RST
B12
RSE
T39
RT
L82
11F
TXD018 TXD117 TXD216 TXD315
RXD025 RXD124 RXD223 RXD322 RXCTL26
TXCTL19
RXC27
MD
IN1
5M
DIP
14
MD
IN2
7M
DIP
26
MD
IN3
10M
DIP
39
AVDD10 3
DVDD_RG 28
AVDD33 11
DVDD10 21
DVDD33 29
AVDD10 8AVDD10 38
AVDD33 40
U20
3R
TL
8211
F
GN
DR
224 51
0R
C21
7 10n
Shie
ld
GN
D
GN
D
+3V
3
GN
D
C21
3
100n
C21
4
100n
C21
5
100n
C21
6
100n
C21
2
1000
pF/2
KV
+3V
3R
221
4K7
R22
3
510R
C20
810
0p
GN
D
C20
6
100p
R22
64K
7R
225
4K7
C20
7
100p
MD
I0_P
MD
I0_N
MD
I1_P
MD
I1_N
MD
I2_P
MD
I2_N
MD
I3_P
MD
I3_N
L20
12,
2μH
/1A
CB
209
100n
CB
210
100n
CB
211
100n
CB
212
100n
CB
213
100n
CB
214
100n
CB
215
100n
CB
216
100n
C20
2
4,7μ
F
R27
4
opt
R27
3
4K7
GN
D
+3V
3
R23
4
22R
R23
04K
7R
237
*
P10.
8
+3V
3
R22
91K
5
+3V
3
C21
9
opt
GN
D
R27
6
4K7
R27
5
opt
R27
7
opt
R27
8
opt
R27
9
opt
R28
2
opt
R28
0
4K7
R28
1
4K7
R28
3
4K7
R28
4
4K7
C21
8
4,7μ
F
P11.
12
P11.
10P1
1.9
P11.
8P1
1.7
P11.
11
P11.
4
P11.
3P1
1.2
P11.
1P1
1.0
P11.
6R
233
22R
RN
202
22R
R23
222
R
C22
0op
t
GN
D
/ESR
0_3V
R24
8
*
P11.
5
P02.
1
TC
397B
R26
1-R
270
R25
1-R
258
TC
387
0R
AU
RIX
2GT
C37
7 0R
TC
367
TC
337
R24
90R
0RR
238
R24
8R
237
330R
NA
NA
NA
NA
NA
NA
330R
RN201
22R
TC
397B
V_U
C3,
3V5V
AN
YA
NY
AN
Y3,
3V
User Manual 7-5 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
Figure 7-4 Schematic - miniWiggler JDS and Debug connectors
11
22
33
44
55
66
77
88
DD
CC
BB
AA
3In
fine
on T
echn
olog
ies
AG
AT
VM
CA
CE
AT
VC
ES
Am
Cam
peon
1-12
D-8
5579
Neu
bibe
rgT
el.:
+49-
89-2
34-0
4
08.0
5.20
18
Num
ber:
Dat
e:
Shee
t:of
App
licat
ion
Kit
TC
3X7
OC
DS
and
OnB
oard
Wig
gler
2.0
Rev
isio
n:
G:\Technical_Support\TriCore\TriBoard\EDA_DXP\ApplicationKit\ApplKitTC3X7\ApplKitTC3X7V2.X\OCDS.sch
File:
TM
S1
TD
O3
CPU
CL
OC
K5
TD
I7
TR
ST9
TC
K11
BR
KIN
13
N.C
.15
VC
C2
GN
D4
GN
D6
POR
ST8
BR
KO
UT
10
GN
D12
OC
DSE
14
KE
Y16
X30
1
OC
DS1
V_U
C
GN
D
DAP0
DAP1
/TRST
GN
D
/PO
RST
POR
T[0
0..3
4]
/PO
RST
POR
T[0
0..3
4]
EE
CS
63
EE
CL
K62
EE
DA
TA
61
TE
ST13
SUSP
EN
D36
OSC
I2
DM
7
GND 1
VR
EGO
UT
49
RE
SET
14
AGND 10
OSC
O3
DP
8
RE
F6
GND 5
VR
EG
IN50
GND 11
VCCIO20
GND 15
VCCIO31
AD
BU
S016
AD
BU
S117
AD
BU
S218
AD
BU
S319
AD
BU
S421
AD
BU
S522
AD
BU
S623
AD
BU
S724
AC
BU
S026
AC
BU
S127
AC
BU
S228
BD
BU
S038
BC
BU
S048
BD
BU
S139
BC
BU
S152
BD
BU
S240
BC
BU
S253
BD
BU
S341
BD
BU
S443
BD
BU
S544
BD
BU
S645
BD
BU
S746
AC
BU
S329
AC
BU
S430
AC
BU
S532
AC
BU
S633
AC
BU
S734
BC
BU
S354
BC
BU
S455
BC
BU
S557
BC
BU
S658
BC
BU
S759
GND 25
GND 35
GND 47
GND 51
PWR
EN
60
VCORE64
VCORE12
VCORE37
VCCIO42
VCCIO56
VPLL9
VPHY4
U30
1
FT22
32H
L
VB
US
1
D+
3D
-2
ID4
GN
D5
BU
301
Mic
roU
SB
GN
D
R30
2
27R
R30
3
27R
R30
4
12K
/1%
C30
6
3,3u
F
VD
D_F
T
L30
1
MM
Z16
08R
300A
CB
301
100n
GN
D
R30
1
1K
CB
303
100n
CB
302
100n
CB
304
100n
C30
110μ/
6V
GN
D
VD
D_F
T
R30
5
10K
R30
7
opt
R30
6
2K2
CB
306
100n
R30
8
1K_o
pt
CB
307
100n
GN
D
V_U
C
AD
BU
S0A
DB
US1
AD
BU
S2A
DB
US3
AD
BU
S4A
DB
US5
AD
BU
S6A
DB
US7
AC
BU
S0A
CB
US1
AC
BU
S3
R30
910
K
V_U
C
TM
S
/TR
ST
DA
P0
USR
0
/RE
SET
D30
1L
BT
673
R31
110
0R
VD
D_F
T
/PO
RST
AD
BU
S0A
DB
US1
AD
BU
S2
AD
BU
S3
AD
BU
S4
AD
BU
S6/T
RST
_IN
AC
BU
S1A
CB
US5
BD
BU
S0B
DB
US1
USR
8
GN
D
P14.
0
R32
04K
7
V_U
C
DA
P1T
DI
/TR
ST
DA
P0
DA
P1
P14.1
P14.0
BD
BU
S0
BD
BU
S1
CB
309
100n
R31
268
0RD30
2L
PT
67K
VD
D_F
T
VD
D_F
TR
314
4K7
R31
610
K
R31
8
10K
R31
710
K R31
9
10K
VD
D_F
TV
_UC
VD
D_F
TV
_UC
R31
510
K
V_U
C
R31
010
K
VD
D_F
T
R32
1op
tR
322
opt
GN
DG
ND
GN
D
GN
D
1 3
Y30
1N
X32
25SA
-12M
Hz
C30
4 8pF
C30
5 8pF
VD
D_F
T
GN
D
GN
D
R32
4
10K
VD
D_F
T
GN
D
VD
D_F
T
VD
D_F
T
R32
5
10K
OU
T3
GND 2
IN1
U30
5T
LE
4274
GSV
33
GN
D
GN
D
CB
311
100n
CB
310
100n
CB
312
100n
GN
D
GN
D
C30
24u
7/6V
GN
D
CB
305
100n
VD
D_F
T
GN
D
L30
2
MM
Z16
08R
300A
C30
34u
7/6V
GN
D
CB
313
100n
GN
D
GN
D
VD
D_F
T
VD
D_F
T
+1V
8
/OE
1V
CC
5
A2
GN
D3
Y4
U30
4
74L
VC
1G12
5
CB
308
100n
GN
D
VD
D_F
T
GN
D
AC
BU
S4
AD
BU
S1
AD
BU
S2
R32
610
K
VD
D_F
T
CB
315
100n
CB
314
100n
GN
D
VD
D_F
TV
_UC
GN
DR
327
4K7
GN
D
AD
BU
S2
AC
BU
S3
DIR
5
VC
CA
1V
CC
B6
A3
GN
D2
B4
U30
6
SN74
LV
C1T
45D
BV
DIR
5
VC
CA
1V
CC
B6
A3
GN
D2
B4
U30
7
SN74
LV
C1T
45D
BV
CB
317
100n
CB
316
100nV
DD
_FT
V_U
C
GN
DR
328
4K7
GN
D
GN
D
AC
BU
S5
GN
D
AD
BU
S1
AC
BU
S5
AC
BU
S5A
CB
US4
P21.
7
P21.7
P21.6
P21.
6
AC
BU
S7
AC
BU
S7
AC
BU
S7A
CB
US3
R31
3
10K
R32
90R
_opt
R33
00R
_opt
AC
BU
S4
OR
G6
DN
C7
VC
C8
CS
1
GN
D5
Q4
CL
K2
D3
U30
2
93L
C46
B-I
/SN
G1
1A1
21Y
118
1A2
41Y
216
1A3
61Y
314
1A4
81Y
412
VC
C20
GN
D10
2Y1
9
2Y2
7
2Y3
5
2Y4
3
G19
2A1
11
2A2
13
2A3
15
2A4
17
U30
3
SN74
AH
C24
4PW
R33
6
0R
P21.
6
R33
5
0R
P21.
7R
332
0R_o
pt
R32
3
0R_o
pt
FOR
USI
NG
WIG
GL
ER
WIT
HJT
AG
:A
ssem
ble
R32
9-R
332
and
R30
8R
emov
eR
333-
R33
6
2
61
Q30
1AB
SD23
5N
5
34
Q30
1BB
SD23
5N
2
61
Q30
2AB
SD23
5N
5
34
Q30
2BB
SD23
5N
2
61
Q30
3AB
SD23
5N
5
34
Q30
3BB
SD23
5N
VD
D_U
SB
/PORST
R33
10R
_opt
R33
40R
AC
BU
S2
VR
EF
1G
ND
3
GN
D5
KE
Y7
GN
D9
DA
P12
DA
P04
USE
R1
8U
SER
06
RE
SET
10
X30
2
DA
P
V_U
C
DAP0
/TRST
DAP1
P21.7
/PO
RST
GN
D
13
D30
3
BA
T54
User Manual 7-6 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
7.3 Layout
Figure 7-5 Component Plot Top Layer
U101
Y201
U203
RN202
RN20
1
R248R237
R23
6R235
R233
R232
R230
R22
9
R22
8R22
7
R222
L201
JP20
1
CB21
6CB21
5
CB214
C218
C205
C20
4
C20
2
D303
R164 R163
C125
R270
R269
R26
8
R267
R26
6
R265
R264R263 R262R261
R25
8R25
7
R256
R25
5
R254R253
R25
2
R25
1R23
8
R166C105
C120
L103
Q104
C11
6
C121
C124C123
C122
R14
8
R14
7U10
5
CB113
R12
8
R127
R115
R130
R134
BT101
U104
C117
U201
CB203
R20
4R205
R211
X203
R241
R239
R210
R208
D201
C20
9
U307
U306
R33
6
R328
R327
R313
CB317 CB316
CB315 CB314
D301
R32
3
CB305
C302
R311
BU301
L301
D302
R30
1
CB301
R308
U301
Y30
1
Q30
3
Q30
2
Q301
R31
2
R32
0
R31
4
R319
R318
R31
7R316
R315
R31
0
R30
3R30
2
CB302
R24
3
R24
4
R245 R247
CB206R20
1
R246
CB2
05R20
3
U206
R20
2
C201
R20
6
R20
7
CB204
R249
X201
X301
U202
CB202
C101
C10
2
C103
C10
4
C106
C107
C109
C110
C108
C114
CB101
CB102
CB1
03
CB110CB111
CB108
CB1
07
CB106
CB112
CB1
14
CB20
1
L101
L102
LS10
1
Q10
6
Q20
1
R101
R10
2R10
3
R106
R107
R108
R109
R111R112
R114
R116
R11
7R12
0
R122R123
R124
R125
U10
2X1
01
X102
X103X205
Y101
Y102R20
9
X202
R272
X302
R271
R142
R13
8
C119
CB104
CB10
9
Q202
R126
R14
0
R143
R14
4
R145
R14
6
R150
R151
R15
3
R15
2
R15
4
R155
R156
R157R158
R159R160
R161
U103
CB10
5
R133
R135
R132
X204
User Manual 7-7 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
Figure 7-6 Component Plot Bottom Layer
R113
LCD201
R284
R283
R282
R281
R280
R279
R278
R277
R276
R275
R274
R273
R234
R226
R225
R224
R223
R221
CB213
CB212
CB211
CB210
CB209 CB208C220
C219
C217C216
C215
C214
C213
C212
C208
C207
C206
C203
R137
R136
D111
C118
Q105
R250
D103
D102
U205R242
R240
CB220
C210
R332R335
R334
R331
R330
R329
R326
U305
L302
CB313
C303
R304
C301
R325
R324
CB312
CB311
CB310
C305
C304
R322
R321
U304U303
C306
R309
CB309
CB308CB307
CB303
R307
U302
R306
R305
CB306
CB304
CB221
C211
C112
C113
C115
D101
D105
D106
D107
D108
D109
D110
Q101
Q102
Q103
R104R105
R110
R118
R119
R121
S101
S102
C111
D104R129
R139
R131
User Manual 7-8 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
7.4 Layout with DimensioningThe following dimensions should be used for development of extension boards.
Figure 7-7 Dimensioning (mm)
U101
Y201
U203
RN202
RN201
R248R237
R236
R235
R233
R232
R230
R229
R22
8R227
R222
L201
JP201
CB216
CB2
15
CB214
C218
C205
C204
C202
D303
R164 R163
C125
R270
R269
R268
R267
R26
6
R265
R264R263 R262R261
R25
8R257
R256
R255
R254R253
R252
R251
R238
R166C105
C120
L103
Q104
C116
C121
C124C123
C122
R148
R147
U10
5
CB113
R128
R127
R115
R 130
R134
BT101
U10
4
C117
U201
CB203
R20
4R20
5
R211
X203
R241
R239
R21
0
R208
D201
C209
U307
U306
R336
R328
R327
R313
CB317 CB316
CB315 CB314
D301
R323
CB305
C302
R311
BU301
L301
D302
R301
CB301
R308
U301
Y301
Q30
3
Q30
2
Q301
R31
2
R320
R31
4
R319
R318
R317
R31
6
R315
R31
0
R303
R302
CB302
R243
R244
R245 R247
CB206
R201
R246
CB2
05R20
3
U206
R20
2
C201
R20
6
R207
CB204
R249
X201
X301
U202
CB2
02
C10
1C102
C103
C104
C106
C107
C109
C110
C108
C114
CB101
CB102
CB103
CB110CB111
CB108
CB107
CB106
CB112
CB114
CB201
L101
L102
LS101
Q106
Q201
R101
R102
R103
R106
R107
R108
R109
R111R112
R114
R116
R117
R120
R122R123
R124
R12
5
U102
X101
X102
X103
X205
Y101
Y102
R209
X202
R272
X302
R271
R142
R13
8
C119
CB104
CB1
09
Q202
R126
R14
0
R143
R144
R145
R146
R15
0
R151
R153
R15
2
R154
R155
R156
R157R158
R159R160R161
U103
CB105
R133
R135
R132
X204
User Manual 7-9 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Schematic and Layout
Figure 7-8 Dimensioning (mil)
The dimensioning is valid for all Application Kits.
U101
Y201
U203
RN202
RN2
01R248R237
R236
R23
5
R233
R232
R230
R229
R22
8R227
R222
L201
JP201
CB2
16CB2
15
CB214
C218
C205
C20
4
C202
D303
R164 R163
C125
R270
R269
R268
R267
R266
R265
R264R263 R262R261
R258
R25
7
R256
R25
5
R254R253
R252
R251
R238
R166C105
C120
L103
Q104
C116
C121
C124C123
C122
R14
8
R14
7U105
CB113
R128
R127
R115
R130
R134
BT101
U10
4
C117
U201
CB203
R204
R205
R211
X203
R241
R239R21
0
R208
D201
C209
U307
U306
R336
R328
R327
R313
CB317 CB316
CB315 CB314
D301
R323
CB305
C302
R311
BU301
L301
D302R301
CB301
R308
U301
Y301
Q30
3
Q302
Q301R312
R320
R314
R319
R318
R317
R316
R315
R310
R303
R302
CB302
R243
R244
R245 R247
CB206
R201
R246
CB205R203
U20
6
R202
C20
1
R206
R207
CB204
R249
X201
X301
U202
CB2
02
C101
C102
C103
C104
C106
C107
C109
C110
C108
C114
CB101
CB102
CB1
03
CB110CB111
CB108
CB107
CB1
06
CB112
CB1
14
CB2
01
L101
L102
LS101
Q106
Q201
R101
R102
R103
R106
R107
R108
R109
R111R112
R114
R116
R117
R120
R122R123
R124
R125
U102
X101
X102
X103
X205
Y101
Y102
R209
X202
R272
X302
R27
1
R142
R138
C119
CB104
CB1
09
Q202
R126
R14
0
R143
R144
R145
R146
R150
R151
R153
R152
R154
R15
5R156
R157R158R159
R160R161
U103
CB1
05
R133
R135
R132
X204
User Manual RevisionHistory-1 V2.0 Application Kit TC3X7 V2.0 2018-06
Application Kit Manual TC3X7Hardware: Application Kit TC3X7 V2.0
Revision History
Page or Item Subjects (major changes since previous revision)
V2.0, 2018-06
all Adapt to new board version V2.0 with Gigabit Ethernet
Trademarks of Infineon Technologies AGµHVIC™, µIPM™, µPFC™, AU-ConvertIR™, AURIX™, C166™, CanPAK™, CIPOS™, CIPURSE™, CoolDP™, CoolGaN™, COOLiR™, CoolMOS™, CoolSET™, CoolSiC™,DAVE™, DI-POL™, DirectFET™, DrBlade™, EasyPIM™, EconoBRIDGE™, EconoDUAL™, EconoPACK™, EconoPIM™, EiceDRIVER™, eupec™, FCOS™, GaNpowIR™,HEXFET™, HITFET™, HybridPACK™, iMOTION™, IRAM™, ISOFACE™, IsoPACK™, LEDrivIR™, LITIX™, MIPAQ™, ModSTACK™, my-d™, NovalithIC™, OPTIGA™,OptiMOS™, ORIGA™, PowIRaudio™, PowIRStage™, PrimePACK™, PrimeSTACK™, PROFET™, PRO-SIL™, RASIC™, REAL3™, SmartLEWIS™, SOLID FLASH™,SPOC™, StrongIRFET™, SupIRBuck™, TEMPFET™, TRENCHSTOP™, TriCore™, UHVIC™, XHP™, XMC™.
Trademarks updated November 2015
Other TrademarksAll referenced product or service names and trademarks are the property of their respective owners.
Edition 2018-06Published by Infineon Technologies AG81726 Munich, Germany
© 2018 Infineon Technologies AG.All Rights Reserved.
Do you have a question about any aspect of this document?Email: [email protected]
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