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 power consumption is not specified yet but a supply with 12V and 500mA is recommended. The pinout for the supply connector is shown in Figure 6-3. There can be used any standard power pack with a connector where
User Manual. Please read the Important Notice and Warnings at the end of this document. V1.2 www.infineon.com. TriBoard TC3X4L TH V1.0 and TriBoard ...
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 power consumption is not specified yet but a supply with 12V and 500mA is recommended.
TriBoard TC3X4L
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
About this document
Scope and purpose The User Manual provide information about using, configuration and connecting the TriBoard with Infineon AURIXTM TC3X4 LQFP device. The manual provide information for different hardware types. There exist different hardware with Through Hole socket (TriBoard TC3X4L TH) and soldered devices (TriBoard TC3X4L). The schematic is identically for the all boards if not other mentioned in chapter schematic. The placing on the boards is the same, all components are on the same location.
Intended audience Design, verfication, test and software engineers will use this document to get an understanding of the functionality and connections of the TriBoard.
User Manual
www.infineon.com
Please read the Important Notice and Warnings at the end of this document TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Table of Contents
Table of Contents
About this document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Preface-1
Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TOC-2
1
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
2 2.1 2.2 2.3
3 3.1 3.2 3.2.1 3.2.2 3.3 3.3.1 3.4 3.5 3.6 3.6.1 3.6.2 3.7 3.8 3.9 3.10 3.11 3.12 3.12.1 3.13 3.14 3.15 3.16 3.17 3.17.1 3.17.2 3.17.3 3.17.4 3.17.5 3.17.6
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 Summary of Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2 Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
TriBoard Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Soldered board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Socketed board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Usable devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Restricted usable devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Failsafe handling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 USB Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 Serial Connection to PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 miniWiggler JDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4 FlexRayTM (E-RAY) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4 Serial Eeprom . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4 MultiCAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4 LIN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5 Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5 HSCT (optional) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6 High speed with HSCT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6 ADC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7 Other peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8 Toggle LED's . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8 Buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8 Debug System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9 OCDS1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9 DAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9 DAP_SCR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9 High speed with DAP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9 ETK connector (optional) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10 EmW Power (optional) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
4 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2
TriBoard Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 HW Boot Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
Default Pad State . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 Bootmode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 Assembly Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 General optional resistors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 Resistors for peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4
5
Signal (on board used) Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
5.1
Power Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
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Table of Contents
5.2 5.3 5.4 5.5 5.6
6 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13
7 7.1 7.1.1 7.1.2 7.2 7.3 7.4
Reset Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 Config Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 Clock Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 Debug Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 Peripheral Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
Connector Pin Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 On Board only used signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 TC3X4 Connector / Top View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 Power connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4 USB connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4 FlexRayTM (ERAY) connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4 CAN connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4 LIN connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 HSCT connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 Ethernet connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 OCDS1 connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6 DAP connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6 ETK connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-7 Ethernet miniWiggler power connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-7
Schematic and Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Known problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
Known problems on TriBoard TC3X4L TH V1.0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Known problems on TriBoard TC3X4L V1.0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-9 Layout with Dimensioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-11
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Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Introduction
1
Introduction
We congratulate you on your purchase of the TriCore Evaluation Board. This kit is a versatile tool, providing quick access to the capabilities of TriCore's powerful architecture.
Applications can be developed easily. The Evaluation Board is equipped with a variety of memories and peripherals 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 TriBoard Hardware Manual familiarizes you with the TriCore Evaluation Board and guides you through the initial configuration of the TriBoard.
For detailed technical information about the TC3X4 LQFP (e.g. TC374, TC364) please refer to the User Manual of the used device.
User Manual
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Features
2
Features
2.1
Summary of Features
Infineon's TC3X4 (TC374, TC364) AURIXTM 2G Controller in LQFP-144 Package FlexRayTM 1) Transceivers High Speed CAN Transceivers (CAN-FD capable) USB to UART bridge Ethernet PHY Serial Eeprom LIN Transceiver Crystal 20MHz (default) or External Clock USB miniWiggler JDS for easy debugging 8 Low Power Status LEDs 8-DIP switches for configuration access to all pins of controller 100mm x 160mm (EURO-Board)
Connectors
The TC3X4L TriBoard offers a wide variety of connectors:
Standard power connector Micro USB connector for ASC Interface (ASC0) and miniWiggler RJ45 connector for Ethernet 16-pin header for JTAG interface (OCDS) 2 x 10-pin header for DAP and DAP_SCR 10pin (2x5) Header for LIN Transceiver (LIN) 2 x 10pin (2x5) Header for CAN High Speed Transceiver (CAN0 and CAN1) 2 x 10pin (2x5) Header for FlexRayTM (ERAY-A and ERAY-B) four 80-pin connectors (male) + four 80-pin connectors (female) with all I/O signals optional ETK connector optional 6pin (IEEE1394) Socket for HSCT
Components
Infineon's Multi Voltage Safety Micro Processor Supply TLF35584QV Three LEDs to validate power supply (5Volt / 3,3 Volt / 1,25 Volt) LED indicating safe state signal 2 from TLF35584 LED indicating /HDRST (ESR0) active state LED indicating activ miniWiggler JDS LED switched via DAS software 2 x Infineon's FlexRayTM Transceiver TLE9221SX 2 x Infineon's High Speed CAN-Transceiver TLE9251VSJ Infineon's LIN-Transceiver TLE 7259-3GE USB to UART bridge FT2232HL (FTDI) Single-Chip/Port 10/100M Ethernet PHYCEIVER with Auto MDX RTL8201FI-VC-CG (Realtek) 8 general purpose LEDs 2K I2C Serial Eeprom with EUI-48TM 2) Node Identity (MICROCHIP)
1) FlexRayTM is a trademark of FlexRay Consortium.
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Features
Reset switch Enable switch Generic switch 4-pin Dip switch
Zero Ohm Bridges
Zero Ohm resistors give the flexibility to configure the systems functionality.
2.2
Block Diagram
XTAL
CAN0 CAN1
PLL TxCAN0 RxCAN 0
Tr a n sce ive r
TxCAN1
RxCAN1
TC3X4
Micro USB
USB
miniWiggler
OCDS1
TX0 RX0
(e.g. TC374, TC364)
LIN
L IN Tr a n sce ive r
TX1 RX1
TriCore CPU
RMII
PHY
Twisted Pair
RJ45
HSCT - TX/RX
I²C HSCT optional
ERAY A
Fle xRa yTM Tr a n sce ive r
ERAY B
8 LED's (P33.4 up to P33.7, P20.11 up to P20.14)
Serial EEPROM with EUI-48TM
Figure 2-1 TriBoard Block Schematic
2) EUI-48TM is trademarked by IEEE
User Manual
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TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
WAKEUP
QSPI2
Multi Voltage Safety Micro Processor Supply TLF35584QV
ENA
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Features
2.3
Placement
BU 401
X303
X306
Y401 U401 D401 D402
T301
U307 Y301
X301
X604
D302 D303 D304 D305 D 306 D307 D 308 D 309 X404
S201
S202 X201
U201
X402
X601
DA P
X401
X304
T302
X302
L502 S501
U502
C303
C502
D504
D 507
D506
D508 D505
U501
S502
L501 R501
X603
X305
X501
C501
Figure 2-2 TriBoard TC3X4L (TH) V1.0 Placement
Y201
X406
X502 X602
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TriBoard Information
3
TriBoard Information
3.1
Soldered board
TriBoard TC3X4L V1.0 is the soldered board and will be available only with usable devices. Please see also chapter Usable devices.
3.2
Socketed board
TriBoard TC3X4L TH V1.0 is the socketed board.
3.2.1 Usable devices
Note:
Note: Please check always the latest manual for complete list of usable/tested devices.
The board can be used with the following devices:
· TC374 · TC364DP-64F300W
Note:
For TC364: AN42 is connected directly to ground and AN43 is connected to VDDM via R223. Additional there is a capacitor (CB206) between AN43 and AN42.
3.2.2 Restricted usable devices
· None
3.3
Power Supply
All needed voltages are generated via Infineon's Multi Voltage Safety Micro Processor Supply TLF35584QV and via the 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 and FlexRayTM transceivers)
+5V voltage reference (connected to VDDM and VAREFx)
+3,3V via LDO directly from pre regulator (used by Ethernet PHY)
Applying a stable supply voltage causes the power on reset after a short period. The three LED's (V_UC, +3.3V, +1V25) indicate the status of the on board generated voltages.
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 power consumption is not specified yet but a supply with 12V and 500mA is recommended. The pinout for the supply connector is shown in Figure 6-3. There can be used any standard power pack with a connector where the positive line is surrounded by the ground line.
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TriBoard Information
3.3.1 Failsafe handling
In case that the device don't contains a program which disable or service the window watchdog and error pin monitor of the TLF35584 then the TLF35584 is going to a FAILSAFE state where all supplies are switched off. This state can be left via reconnect the power plug or via the ENA button (S502). In this case you must connect a debugger which is able to disable the window watchdog and error pin monitor to reprogram the microcontroller.
In the default state of the board the switching to FAILSAFE state is switched off via resistor R508.
If you will use/evaluate all safety features of the TLF35584 make sure that R509 is assembled and R508 is not assembled. Make sure that you have a proper initialization of TLF35584 in your softare.
Resistor R508 and R509 are red marked in the following Figure 3-1:
X306
X604
CB401
BU 401
L401
X303
D306 D307 D308 D309
R256
Y401
C310 C311
Y301
CB313
R390 X404
R399
S202
D305
D302 D303 D304
R211 R 255 R240 R 525
R379 R372 CB316
U307
C402 CB405
R401 T301
R 402 R403
U401
CB314
U 404 CB408 C305
CB402 D401 D402 U407
CB416 CB315
R376
R 375 U308 CB317
CB414
U408
U406
CB418 CB419 R 455
R411
R456
CB417 R428
R446
R427
R423 R451 R454 R444 CB415
C301 R336
R337 R335
X401
R324
R202
X301
R439 R391
R 377
R392 R393 R394 R395 R396 R397 R398
X201
S201
R230 R233 R232 CB203 R234 R235 R236 R 237 CB520
C519
R 231 U201
R 524 R 241
R430 R429 R216 R213
R212
R424
R426 R425 R 532
R531
C504 L502
C503 CB502
C 509 C 508 R 508
C505
R354 R344
U502
C303 R361
D301
C502
U501
S501
R201
D504 D507 D506
D508 D505 R509
C507 R507
S502
X302 CB206
R246 R245
R222 R223
R244
CB205 CB204
X406 R457
R207 Y201
C522
X402
R215 R 214
C202 R206
R205 R204 C 201 R203
X502
R452
X304 R357 R 355
T 302 C302 R356
X305 R359
R248 R249
CB501
L501 R501
X603
X601
R349
R 347
X602
R348 R346
U305 CB309
X501
C501
Figure 3-1 Resistors for TLF35584 Safety feature handling with switch on
3.4
LEDs
There are 15 LEDs on board:
D302 up to D305 (blue) -> toogle LEDs connected to P33.4 ... P33.7 D306 up to D309 (blue) -> toogle LEDs connected to P20.11 ... P20.14 D504 RST (red) -> RESET LED indicate the reset state of the board (/ESR0) D505 +1V25 (green) -> +1V25 power supply indication D506 +3V3 (green) -> +3,3V power supply indication D507 V_UC (green) -> +5V/+3,3V power supply indication D508 SS2 (green) -> safe state signal 2 indication D402 ACT (green) -> on board miniWiggler JDS is ACTIV D401 RUN (blue) -> Debug RUN mode (switched by DAS Server)
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3.5
Clock
On the board is a fixed crystal with 20MHz assembled. You can change this by replacing Y101 (soldered).
3.6
USB Connector
The USB connector is used for connection to a PC. Via the USB it is possible to power the board, using the ASCLIN0 as serial connection via USB and Debugging via DAS. For the pinout of USB socket see Figure 6-4.
NOTE: Before connecting the board to the PC, make sure that the actual DAS software is installed on the PC. For actual DAS software please contact your local FAE.
The software can also be found on:
DAS website
3.6.1 Serial Connection to PC
After the first connection of USB to a PC the needed driver will be installed automatically. During this there will be created a new COM port on PC. This COM port can be used to communicate with the board via ASCLIN0 of the device. Per default the ASCLIN0 is used on P14.0 and P14.1 (e.g. Generic Bootstrap Loader) . In case you will use the Generic Bootstrap Loader via CAN or ASCLIN0 via P15.2 and P15.3 you must:
remove R436 and R437 (this disconnect the serial connection from P14.0 and P14.1) remove R301 and R302 (this disconnect the CAN0 transceiver from P20.7 and P20.8) assemble R438 and R440 with 0R resistor (size 0603) to connect P15.2 and P15.3 to serial connection assemble R303 and R304 with 0R resistor (size 0603) to connect P14.0 and P14.1 to CAN0 transceiver
R388
The mentioned resistors are red marked in Figure 3-2.
X701
R254
R 250
R253 R 251
R252 R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
Q506
R522 R520
R209 CB201 CB202 R208
CB510
CB518
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370 R369
C313 C406
R368 R371
R378 R380
R 386
R367 Q301
C320 R440
R 419 Q403
R 418
CB409
L402 CB411
R442
CB403 R406
R413 R421 R410
R 433 R449
R381 R 422
R420 R437
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
C515
U 304
R316 R 315
R340 Q502
R341
R342
R343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X702
X703
D 502
Figure 3-2 Resistors for ASC connection (ASC0)
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TriBoard Information
3.6.2 miniWiggler JDS
The miniWiggler JDS is a low cost debug tool which allows you access to the JTAG of the device. Make sure that you have the latest DAS release. Debugging is possible via the DAS Server `UDAS`. Please contact your prefered debug 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 via the 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 X401 (OCDS1) and X402 (DAP) if the ACTIV LED is on.
Per default the miniWiggler is connected to the DAP. If resistors R214, R215 and R216 assembled (default) then the standard DAP is connected to miniWiggler. If all this resistors are not assembled then the miniWiggler can't be used. In this case only the DAP connectors X402 and X406 can be used. See Figure 3-7.
3.7
FlexRayTM (E-RAY)
The board has 2 IDC10 plugs for FlexRayTM Communication (channel A and B) with up to 10 Mbit/s. For the pinout of the plugs see Figure 6-5. You can use a IDC female connector with crimpconnector, flat cable and SUB-D 9 plug with crimpconnector to have a 1:1 adapter to SUB-D 9.
The transceiver are connected to the TriCore device via zero ohm resistors (R320 up to R324 and R340 up to R344) which must be removed to use the ports outside.
ERAY-A can be connected to P02.0, P02.1 and P02.4. Transceiver for channel A can be enabled/disabled via P10.1. The error state of transceiver channel A can be read out via P10.2.
ERAY-B is connected to P02.2, P02.3 and P02.5. Transceiver for channel B can be enabled/disabled via P20.10. The error state of transceiver channel A can be read out via P20.9.
For more information look in the user manual for TC3X4 LQFP.
3.8
Serial Eeprom
The I2C via P15.4 and P15.5 of the TC3X4 is connected to a serial EEPROM with a size of 2KBit (2 x 128 x 8). The slave address of this EEPROM is 0x50. The upper half of the array (80h-FFh) is permanently write-protected. Write operations to this address range are inhibited. Read operations are not affected. This upper half contains a preprogrammed EUI-48TM node address which can be used as MAC ID for Ethernet. The other 128 bytes are writable by customer.
To disconnect (disable) the EEPROM remove resistor R348 and R349.
3.9
MultiCAN
On the board are two CAN transceiver connected to the CAN0 and CAN1 of TC3X4 LQFP. The transceivers are connected to two IDC10 plug. For the pinout of IDC10 plug see Figure 6-6. You can use a IDC female connector with crimpconnector, flat cable and SUB-D 9 plug with crimpconnector to have a 1:1 adapter to SUB-D 9.
The transceiver are connected to the TriCore device via zero ohm resistors (R301 up to R304 and R311 up to R314) which must be removed to use the ports outside.
CAN0 can be used via P20.7 and P20.8 (CAN0 node 0, default) or P14.0 and P14.1 (CAN0 node 1). CAN1 can be used via P13.0 and P13.1 (CAN1 node 0, default) or P00.0 and P00.1 (CAN1 node 0).
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3.10
LIN
On the board is one LIN transceiver connected to the ASCLIN1 on TC3X4 LQFP (P15.0 and P15.1). The transceiver are connected to one IDC10 plug. For the pinout of IDC10 plug see Figure 6-7. You can use a IDC female connector with crimpconnector, flat cable and SUB-D 9 plug with crimpconnector to have a 1:1 adapter to SUB-D 9.
To disconnect the LIN remove resistor R364 and R365.
The LIN can be used in master and in slave mode. For the master mode there is per default a pull-up of 1K (R360) and a capacitor of 1nF (C304) on the BUS assembled. For using the LIN in slave mode the pull-up resistor R360 must be removed and maybe the capacitor changed to a smaller value (e.g. 220pF).
The mentioned resistor and capacitor are red marked in Figure 3-3
R388
X701
R254
R 250
R253 R 251
R252 R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
Q506
R522 R520
R209 CB201 CB202 R208
CB510
CB518
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370 R369
C313 C406
R368
R 386
CB409
R378 R380
R367
Q301
L402
R371
C320 R440
R 419 Q403
CB411
R 418
R442
CB403 R406
R413 R421 R410
R 433 R449
R381 R 422
R420 R437
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
C515
U 304
R316 R 315
R340 Q502
R341
R342
R343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X702
X703
D 502
Figure 3-3 Components for LIN Master Mode
3.11
Ethernet
The TriBoard provide a RJ45 connector (X306) for twisted pair ethernet connections.The TriBoard use a Realtek Single-Chip/Port 10/100M Ethernet PHYCEIVER with Auto MDX RTL8201FI-VC-CG as physical interface device. For more information about the ethernet modul see TC3X4 User's Manual, about the PHY see the RTL8201FI datasheet. For the pinout of RJ45 see Figure 6-9.
The PHY is connected to the TriCore device via resistors and resistor arrays (R368 up to R374) which must be removed to use the ports outside.
For the connection between TriCore and PHY is used RMII.
For MD connection there is used P00.0 and P02.8. To use this communication way please make sure that R376 is not assembled (default). For R376 position please see also Figure 4-4.
Note:
Please note that the RGMII interface can't be used of limited pin availability. Therefore Gigabit is not usable with this board only 10M and 100M.
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3.12
HSCT (optional)
The TriBoard provide a footprint of IEEE 1394 socket (X201) for connection to other TC3XX via HSCT.
Note: Don't use X201 for connection to any IEEE 1394 device, this can destroy the board and/or the connected device.
For connect two TriBoards you need to assemble this socket (Lumberg 2415 01) on each board and connect the boards with a standard 6 pin IEEE 1394 cable. For the pinout of socket see Figure 6-8.
3.12.1 High speed with HSCT
For use the HSCT connection between two board you need to remove 5 resistors to have a very short connection between device and connector. On the TC3X4L Triboard this 5 resistors are R250, R251, R252, R253 and R254 (red marked in Figure 3-4). This resistors needs to be removed. mportant: When the resistors are removed then the port signals P20.0, P21.2, P21.3, P21.4 and P21.5 are no longer available on the 80 pin samtec connectors.
R388
X701 X702
R254
R 250
R253 R 251
R252 R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
Q506
R522 R520
R209 CB201 CB202 R208
CB510
CB518
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370 R369
C313 C406
R368 R371
R378 R380
R 386
R367 Q301
C320 R440
R 419 Q403
R 418
CB409
L402 CB411
R442
CB403 R406
R413 R421 R410
R 433 R449
R381 R 422
R420 R437
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
U 304
C515
R316 R 315
R340 Q502
R341
R342
R343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X703
D 502
Figure 3-4 Resistors for high speed HSCT
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3.13
ADC
On this boards are 5 ADC channels prepared with a low pass filter. On pin AN7, AN20, AN21, AN44 and AN45 is assembled a capacitor of 47nF and a serial resistor of 4,7K. The filter components are red marked in the following figures (Figure 3-5 and Figure 3-6).
X306
X604
CB401
BU 401
L401
X303
D306 D307 D308 D309
R256
Y401
C310 C311
Y301
CB313
R390 X404
R399
S202
D305
D302 D303 D304
R211 R 255 R240 R 525
R379 R372 CB316
U307
C402 CB405
R401 T301
R 402 R403
U401
CB314
U 404 CB408 C305
CB402 D401 D402 U407
CB416 CB315
R376
R 375 U308 CB317
CB414
U408
U406
CB418 CB419 R 455
R456 R411
CB417 R428
R446
R427
R423 R451 R454 R444 CB415
C301 R336
R337 R335
X401
R324
R202
X301
R439 R391
R 377
R392 R393 R394 R395 R396 R397 R398
S201
X201
R230 R233 R232 CB203 R234 R235 R236 R 237 CB520
C519
R 231 U201
R 524 R 241
R430 R429 R216 R213
R212
R424
R426 R425 R 532
R531
C504 L502
C503 CB502
C 509 C 508 R 508
C505
R354 R344
U502
C303 R361
D301
C502
U501
S501
R201
D504 D507 D506
D508 D505 R509
C507 R507
S502
X302 CB206
R246 R245
R222 R223
R244
CB205 CB204
X406 R457
R207 Y201
C522
X402
R215 R 214
C202 R206
R205 R204 C 201 R203
X502
R452
X304 R357 R 355
T 302 C302 R356
X305 R359
R248 R249
CB501
L501 R501
X603
X601
R349
R 347
X602
R348 R346
U305 CB309
X501
C501
Figure 3-5 Filter components of ADC channels on Top Side
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TriBoard Information
R388
X701 X702
R254
R 250
R253 R 251
R252 R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
R522 R520
R209 CB201 CB202 R208
CB510
CB518
Q506
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370
C313
R369
C406
R368
R 386
CB409
R378 R380
R367
Q301
L402
R371
C320 R440
R 419 Q403
CB411
R 418
R442
CB403 R406
R413 R421 R410
R 433 R449
R381 R 422
R420 R437
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
C515
U 304
R316 R 315
R340 Q502
R341
R342
R343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X703
D 502
Figure 3-6 Filter components of ADC channels on Bottom Side
3.14
Other peripherals
For all other peripherals there are no special plugs on the board. The peripheral signals are available on the different connectors. See "Connector Pin Assignment" on Page 6-1.
3.15
Toggle LED's
The status LED's are low active and can be controlled by Software.
Port 20 pin 11 up to pin 14 are connected to single LED's (D306... D309) and powered by the normal microcontroller voltage.
Port 33 pin 4 up to pin 7 are connected to single LED's (D302... D305) and powered by the standby voltage. This means that this LED's can be are activ also when the board is in standby mode and only the standby voltage available (port 33 is powered by VEVRSB pin which is connected to standby supply of TLF35584). In this case the port pins are controlled by the standby controller if available.
3.16
Buttons
On the board are three buttons.
The reset button (S501) will apply a warm power on reset to the device.
The ENA button (S502) will be used to enable/wakeup the TLF35584.
The P33.11 button (S202) can be used by software as input. Also can this button used by the standby controller to react on an event when only standby supply is available (e.g. wakeup the TLF35584 via P33.10).
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TriBoard Information
3.17
Debug System
3.17.1 OCDS1
The OCDS1 signals are connected to the IDC16 plug (X401). They work with the port supply of Microcontroller (+5V default or +3,3V). For pinout of the connector see Figure 6-10. You can connect any debugger to this connector. The signals /BRKIN and /BRKOUT are not connected per default. If you need this signals in the connector then assemble R424 and R425 or R426 with a 0R resistor. If you connect a debug hardware make sure that the miniWiggler JDS (see "miniWiggler JDS" on Page 3-4) is not activ (ACTIV LED is off) and on the DAP connector (X402) 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. If R214 up to R216 not assembled then the connector is not usable.
3.17.2 DAP
The board comes with a DAP connector (X402). For pinout of this connector see Figure 6-11. You can connect a DAP hardware here. If you use this connector make sure that the miniWiggler JDS is not activ (ACTIV LED is off) and a connected OCDS1 hardware is disconnected or tristated.
3.17.3 DAP_SCR
Additional DAP connector (X406) is connected to DAP_SCR. This DAP can be used as private DAP connection to the standby controller. For pinout of this connector see Figure 6-15. You can connect a DAP hardware here. This DAP use P33.6 and P33.7 which are connected to LED on the board. Maybe it is necessary to remove R393 and R394 if the speed of the connection is not fast enough.
3.17.4 High speed with DAP
For use the DAP connection with 160 MHz you need to remove 3 resistors to have a very short connection between device and connector. On the TC3X4L Triboard this 3 resistors are R214, R215 and R216 for DAP (red marked in Figure 3-7). This resistors needs to be removed. Important: When the resistors are removed then only the DAP connector on the board can be used. The on board wiggler and the OCDS1 connector couldn't be use (are disconnected) in this case, also the DAP/JTAG part of the ETK connector couldn't be used. All resistors are red marked in the following figure:
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Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
TriBoard Information
X306
X604
CB401
BU 401
L401
X303
D306 D307 D308 D309
R256
Y401
C310 C311
Y301
CB313
R390 X404
R399
S202
D305
D302 D303 D304
R211 R 255 R240 R 525
R379 R372 CB316
U307
C402 CB405
R401 T301
R 402 R403
U401
CB314
U 404 CB408 C305
CB402 D401 D402 U407
CB416 CB315
R376
R 375 U308 CB317
CB414
U408
U406
CB418 CB419 R 455
R456 R411
CB417 R428
R446
R427
X301
R439 R391
R 377
R230 R233 R232 CB203 R234 R235 R236 R 237 CB520
C519
R392 R393 R394 R395 R396 R397 R398
S201
X201
R 231 U201
R 524 R 241
R423 R451 R454 R444 CB415
C301 R336
R337 R335
X401
X302 CB206
R324
C505
R354 R344
U502
R424
S501
R426 R425 R 532
R531
R202 R201
D504 D507
R452
R430 R 429 R216 R213
R212
X402
R215 R 214
R207 Y201
C202
R206 R205 R204
C 201 R203
C504 L502
C503 CB502
C 509 C 508 R 508
C303 R361
D301
C502
U501
D506 D508 D505 R509
C507 R507
S502
R246 R245
R222 R223
R244
CB205 CB204
X406 R457
C522
X502
X304 R357 R 355
T 302 C302 R356
X305 R359
R248 R249
CB501
L501 R501
X603
X601
R349
R 347
X602
R348 R346
U305 CB309
X501
C501
Figure 3-7 Location of DAP resistors on Top Side
3.17.5 ETK connector (optional)
The TriBoard provide a 10 pin samtec connector (X404) for connecting to an ETK. This connector should be assembled by your self if needed. For the pinout of connector see Figure 6-12. The needed Samtec connector is: TFM-105-02-A.
3.17.6 EmW Power (optional)
The TriBoard provide the 4 pin power connector (X502) for the Ethernet miniWiggler (EmW). This connector should be assembled by your self if needed. For the pinout of connector see Figure 6-13. The needed Samtec connector is the JST B4B-PH-K. The connector provide the input voltage to the Ethernet miniWiggler and an enable/wakeup signal connected to TLF35584 and a standby voltage of +1,25V connected to VDDSB of device. In case the EmW is used you must remove R522. If R522 is removed then you must make sure that the EmW is always connected. Otherwise with assembled R522 (default) you should not connect the pin 4 of connector. The mentioned resistor is red marked in Figure 3-8
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TriBoard Information
X701 X702
R254
R 250
R253 R 251
R252 R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
R522 R520
R209 CB201 CB202 R208
CB510
CB518
Q506
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370
C313
R369
C406
R368
R 386
CB409
R378 R380
R367
Q301
L402
R371
C320 R440
R 419 Q403
CB411
R 418
R442
CB403 R406
R413 R421 R410
R 433 R449
R381 R 422
R420 R437
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
C515
U 304
R316 R 315
R340 Q502
R341
R342
R343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X703
D 502
Figure 3-8 Resistor for VDDSB
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Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
TriBoard Configuration
4
TriBoard Configuration
4.1
HW Boot Configuration
P14.4 P10.5 P10.6 P14.3 on
1
2
3
4
Figure 4-1 HW Configuration DIP-Switches
The picture above shows the definition of the boot HW configuration switch. The meaning of the switches will be described in the following table (Table 4-1).
Note: The ON position of the switch is equal to a logical LOW at the dedicated pin.
4.1.1 Default Pad State
P14.4 / HWCFG6 is used to select the Default Pad State. Dipswitch 1 used to select this.
In case that dispswitch1 is set to ON then all I/O pins are in tristate otherwise the internal pull-up devices are enabled on the I/O pins. Please note that after change Dipswitch 1 you must make a power cycle (switch off -> switch on) to use the new configuration.
In case that TriState is selected (Dipswitch 1 is set to ON) then the I/O pins are floating. If you need a specific level on different pins during startup (e.g. driver pins) then you must add the needed pull device (up or down). Some pins (especially the HWCFG pins) haven always the needed external pull-up and/or pull-down resistor assembled on the board.
4.1.2 Bootmode
Table 4-1 User Startup Modes 1)2)3)
HWCFG[5...3] Type of Boot
XX1
Start-up mode is selected by Boot Mode Index
110
Internal Start from Flash
100
Alternate Boot Mode, Generic Bootstrap Loader on fail (P14.0/P14.1)
010
Alternate Boot Mode, ASC Bootstrap Loader on fail (P15.2/P15.3)
000
Generic Bootstrap Loader (P14.0/P14.1)
1) The shadowed line indicates the default setting.
2) 'x' represents the don't care state.
3) 2 to 4 are the Dip Switch numbers.
234 X X OFF OFF OFF ON ON OFF ON OFF ON ON ON ON ON
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TriBoard Configuration
4.2
Assembly Options
4.2.1 General optional resistors
Table 4-2 General optional resistors (default assembly in brackets)
Component
Description
R202
Connect P20.2 (/TESTMODE) to GND (not assembled)
R203
XTAL1 Rload (50 Ohm) (not assembled)
R206
XTAL Rparallel (not assembled)
R207
XTAL2 Rserial (assembled)
R238
Switch off EVRC (not assembled)
R240
Switch off EVR33 (not assembled)
R390
Connect V_STBY to toggle LEDs D302...D305 (assembled)
R399
Connect V_UC to toggle LEDs D306...D309 (assembled)
R423
Connect P20.0 with miniWiggler JDS (not assembled)
R424
Connect P20.0 with OCDS1 connector (not assembled)
R425
Connect P21.7 with OCDS1 connector (not assembled)
R426
Connect P20.2 with OCDS1 connector (not assembled)
R427
Connect P21.7 with USR1 of miniWiggler JDS (not assembled)
R428
Connect P20.2 with USR1 of miniWiggler JDS (not assembled)
R429
Connect P21.6 (DAP3) with USR1 of DAP (assembled)
R430
Connect P20.2 with USR1 of DAP (not assembled)
R433
Connect P21.7 with ETK connector (not assembled)
R439
Connect P21.7 with ETK connector (not assembled)
R508
Connect pin MPS of TLF35584 to V_CO (not assembled)
R509
Connect pin MPS of TLF35584 to Ground (assembled)
R524
Connect VDDP3 to V_UC (not assembled)
R525
Connect VDDP3 to +3V3 (not assembled)
Note:
All resistors are red marked in the following figures
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TriBoard Configuration
X306
X604
CB401
BU 401
L401
X303
D306 D307 D308 D309
R256
D305
D302 D303 D304
Y301 R379 R372 CB316
Y401
C310 C311
CB313
R390 X404
R399
S202
U307
R211 R 255 R240 R 525
C402 CB405
R401 T301
R 402 R403
U401
CB314
U 404 CB408 C305
CB402 D401 D402 U407
CB416 CB315
R376
R 375 U308 CB317
CB414
U408
U406
CB418 CB419 R 455
R456 R411
CB415
CB417 R428
R446
R427
X301
R439 R391
R 377
R230 R233 R232 CB203 R234 R235 R236 R 237 CB520
C519
R392 R393 R394 R395 R396 R397 R398
X201
S201
R 231 U201
R 524 R 241
R423 R451 R454 R444
C301 R336
R337 R335
X401
X302 CB206
R324
C505
R354 R344
U502
R424
S501
R426 R425 R 532
R531
R202 R201
D504 D507
R452
R430 R429 R 216 R213
R212
X402
R215 R 214
R207 Y201
C202
R206 R205 R204
C 201 R203
C504 L502
C503 CB502
C 509 C 508 R 508
C303 R361
D301
C502
U501
D506 D508 D505 R509
C507 R507
S502
R246 R245
R222 R223
R244
CB205 CB204
X406 R457
C522
X502
X304 R357 R 355
T 302 C302 R356
X305 R359
R248 R249
CB501
L501 R501
X603
X501
C501
Figure 4-2 Location of general optional resistors on Top Side
X601
R349
R 347
X602
R348 R346
U305 CB309
R388
X701 X702
R254
R 250
R253 R 251
R252
R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
R522 R520
R209 CB201 CB202 R208
CB510
CB518
Q506
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370 R369
C313 C406
R368 R371
R378 R380
R 386
R367 Q301
C320 R440
R 419 Q403
R 418
CB409
L402 CB411
R442
CB403 R406
R413 R421 R410
R 433
R381 R420 R437
R449 R 422
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
C515
U 304
R316 R 315
R340 Q502
R341
R342
R343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X703
D 502
Figure 4-3 Location of general optional resistors on Bottom Side
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TriBoard Configuration
4.2.2 Resistors for peripherals
Table 4-3 Resistors for peripherals (default assembly in brackets)
Component
Description
R220
Connect V_VR with VDDM (assembled)
R221
Connect +3V3 with VDDM (not assembled)
R222
Connect VAREF1 with VDDM (assembled)
R223
Connect VAREF2/AN43 with VDDM (assembled)
R301
Connect P20.7 with RXD of CAN0 transceiver (assembled)
R302
Connect P20.8 with TXD of CAN0 transceiver (assembled)
R303
Connect P14.1 with RXD of CAN0 transceiver (not assembled)
R304
Connect P14.0 with TXD of CAN0 transceiver (not assembled)
R311
Connect P13.1 with RXD of CAN1 transceiver (assembled)
R312
Connect P13.0 with TXD of CAN1 transceiver (assembled)
R313
Connect P00.1 with RXD of CAN1 transceiver (not assembled)
R314
Connect P00.0 with TXD of CAN1 transceiver (not assembled)
R320
Connect P02.0 with TXD of ERAY-A transceiver (assembled)
R321
Connect P02.4 with TXDEN of ERAY-A transceiver (assembled)
R322
Connect P02.1 with RXD of ERAY-A transceiver (assembled)
R323
Connect P10.1 with EN of ERAY-A transceiver (assembled)
R324
Connect P10.2 with ERRN of ERAY-A transceiver (assembled)
R340
Connect P02.2 with TXD of ERAY-B transceiver (assembled)
R341
Connect P02.5 with TXDEN of ERAY-B transceiver (assembled)
R342
Connect P02.3 with RXD of ERAY-B transceiver (assembled)
R343
Connect P20.10 with EN of ERAY-B transceiver (assembled)
R344
Connect P20.9 with ERRN of ERAY-B transceiver (assembled)
R348
Connect P15.4 with SCL of I2C Eeprom (assembled)
R349
Connect P15.5 with SDA of I2C Eeprom (assembled)
R364
Connect P15.1 with RXD of LIN1 transceiver (assembled)
R365
Connect P15.0 with TXD of LIN1 transceiver (assembled)
R368
Connect P11.9 with RXD1 of Ethernet PHY (assembled)
R369
Connect P11.10 with RXD0 of Ethernet PHY (assembled)
R370
Connect P11.11 with CRS_V of Ethernet PHY (assembled)
R371
Connect P11.12 with RXC and TXC of Ethernet PHY (assembled)
R372
Connect P11.6 with TXEN of Ethernet PHY (assembled)
R373
Connect P11.3 with TXD0 of Ethernet PHY (assembled)
R374
Connect P11.2 with TXD1 of Ethernet PHY (assembled)
R376
Disable outputs of MDIO/MDC transceiver (not assembled)
R377
Connect P10.3 with MDINT of Ethernet PHY (not assembled)
R436
Connect P14.0 with RXD of USB to UART (assembled)
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TriBoard Configuration
Table 4-3 Resistors for peripherals (default assembly in brackets) (continued)
Component
Description
R437
Connect P14.1 with TXD of USB to UART (assembled)
R438
Connect P15.2 with RXD of USB to UART (not assembled)
R440
Connect P15.3 with TXD of USB to UART (not assembled)
Note:
All resistors are red marked in the following figures
X306
X604
CB401
BU 401
L401
X303
D306 D307 D308 D309
R256
D305
D302 D303 D304
Y301 R379 R372 CB316
Y401
C310 C311
CB313
R390 X404
R399
S202
U307
R211 R 255 R240 R 525
C402 CB405
R401 T301
R 402 R403
U401
CB314
U 404 CB408 C305
CB402 D401 D402 U407
CB416 CB315
R376
R 375 U308 CB317
CB414
U408
U406
CB418 CB419 R 455
R456 R411
CB415
CB417 R428
R446
R427
R423 R451 R454 R444
C301 R336
R337 R335
X401
R324
R202
X301
R439 R391
R377
R392 R393 R394 R395 R396 R397 R398
S201
X201
R230 R233 R232 CB203 R234 R235 R236 R 237 CB520
C519
R 231 U201
R 524 R 241
R430 R429 R216 R213
R212
R424
R426 R425 R 532
R531
C504 L502
C503 CB502
C 509 C 508 R 508
C505
R354 R344
U502
C303 R361
D301
C502
U501
S501
R201
D504 D507 D506
D508 D505 R509
C507 R507
S502
X302 CB206
R246 R245
R222 R223
R244
CB205 CB204
X406 R457
R207 Y201
C522
X402
R215 R 214
C202 R206
R205 R204 C 201 R203
X502
R452
X304 R357 R 355
T 302 C302 R356
X305 R359
R248 R249
CB501
L501 R501
X603
X501
C501
Figure 4-4 Location of peripheral resistors on Top Side
X601
R349
R 347
X602
R348 R346
U305 CB309
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TriBoard Configuration
X701 X702
R254
R 250
R253 R 251
R252 R239 R 238
R535
CB517
CB512 R 521
C 520
R523
U 503
R522 R520
R209 CB201 CB202 R208
CB510
CB518
Q506
C506 C B50 6
L503
C521
CB513 CB516
X704
C316 C315 C 314
R389
R385 C 317
R383
R374 R373
CB511
C205 C203
C 204
C207 C208
CB519
C306
C B31 1
C312
CB413 CB412
R382 R414 CB312 CB404
R370 R369
C313 C406
R368 R371
R378 R380
R 386
R367 Q301
C320 R440
R 419 Q403
R 418
CB409
L402 CB411
R442
CB403 R406
R413 R421 R410
R 433
R381 R420 R437
R449 R 422
R417 Q402 R416 R443
R438
R448 R447
U403
R405 U402
R436
R307
Q401
C403 CB410
C40 1
C404 C 405
R404 U405 R441
CB406
R412 R450
R309 CB407
R304 R302
R 431
R 409
R445 R415
R407
R334
CB301 R308
U301
R303
CB515
R314 R312 R313 R311
R301
R306
R305
D 403
R 323
R 330
R320
R321
CB305
R 350 R338
R408
CB302 R318
R317
R513 R 512
U 302
R319
R 322
R331
C515
R316 R 315
R340 Q502
R341
R342
R 343 CB308
R533 R538 Q503
R358 R351 R536
R537
R364 R365
U 304
U 303
CB304 R333 CB303 R332
CB307 R353 CB306
R352 R362
R363
Q504
R504 C510 C512 C511
R511
U306 C304
R220 R221
R510
R503 R505
D 501 Q501
R3 60
CB310 D503
Q505 R502 R 534
R506
X703
D 502
Figure 4-5 Location of peripheral resistors on Bottom Side
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Signal (on board used) Description
5
Signal (on board used) Description
For more information about the signals please see the user manual/datasheet for TC3X4 and/or the schematics of the board.
All not mentioned signals are not used on the board and can be used outside. Optional marked signals are used only if they are connected (default is that they are not used on the board).
5.1
Power 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)
V_UC
Microcontroller Supply Voltage (5V or 3,3V depends on assembled TLF35584)
V_CO
Communication Supply Voltage (5V)
V_VR
Reference Supply Voltage (5V)
V_STBY
Standby Supply Voltage (5V or 3,3V depends on assembled TLF35584)
VDD
Core Supply Voltage (1,25V)
VDDSB
Emulation Stand-by SRAM Supply Voltage (1,25V)
VDDP3
Flash Power Supply Voltage (3,3V)
VFLEX
Flexport Supply Voltage (3,3V)
VEXTOSC
Oscillator Port Supply Voltage (5V or 3,3V depends on assembled TLF35584)
VDDOSC
Oscillator Core Supply Voltage (1,25V)
VSSOSC
Oscillator Ground
VDDM
ADC Analog Part Supply Voltage (5V or 3,3V selectable via 0R resistors)
VAREF1
ADC Reference Voltage 1 (VDDM)
VAREF2
ADC Reference Voltage 2 (VDDM)
VDD_USB
Supply Voltage from USB (5V)
VDD_FT
Supply Voltage FT2232HL device (3,3V)
5.2
Reset Signals
Table 5-2 Reset Signals
Short name
Description
/PORST
Power On Reset
/DBG_PORST
Power On Reset from debug connectors
/ESR0
External Service Request 0 (Hardware Reset)
/ESR1
External Service Request 1 (Non Maskable Interrupt)
User Manual
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Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Signal (on board used) Description
5.3
Config Signals
Table 5-3 Config Signals
Short name
Description
P14.5
HWCFG1 (EVR33OFF / EVR33ON)
P14.2
HWCFG2 (EVRCOFF / EVRCON)
P14.4
HWCFG6 (Pins in tristate / Pins with pull-up)
P14.3
HWCFG3 (Boot from pins / Boot from Flash BMI)
P10.5
HWCFG4 (see boot configuration Table 4-1)
P10.6
HWCFG5 (see boot configuration Table 4-1)
5.4
Clock Signals
Table 5-4 Clock Signals
Short name
Description
XTAL1
Crystal Oscillator Input
XTAL2
Crystal Oscillator Output
5.5
Debug Signals
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)
DAP2
Device Access Port Line 2 / Test Data Output (TDO)
P21.6
Test Data Input (TDI)
DAP0_A
DAP0 / TCK from debug connectors
DAP1_A
DAP1 / TMS from debug connectors
P21.7
DAP2 / TDO from debug connectors / TriCore Breakpoint Input
P20.2
Test Mode Select Input
P20.0
TriCore Breakpoint Output
5.6
Peripheral Signals
Table 5-6 Peripheral Signals
Short name
Description
P14.1
ASCLIN0 Receive Input A CAN01 Receive Input B (optional)
P14.0
ASCLIN0 Transmit Output CAN01 Transmit Output (optional)
P15.3
ASCLIN0 Receive Input B (optional)
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TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Signal (on board used) Description
Table 5-6 Peripheral Signals (continued)
Short name
Description
P15.1
ASCLIN1 Receive Input A
P15.0
ASCLIN1 Transmit Output
P15.4
I2C0 Serial Clock
P15.5
I2C0 Serial Data Input C und Output
P20.7
CAN00 Receive Input B
P20.8
CAN00 Transmit Output
P13.1
CAN10 Receive Input D
P13.0
CAN10 Transmit Output
P00.1
CAN10 Receive Input A (optional)
P00.0
CAN10 Transmit Output (optional)
P02.0
E-Ray Channel A Transmit Data Output
P02.4
E-Ray Channel A Transmit Data Output enable
P02.1
E-Ray Channel A Receive Data Input 2
P10.1
E-Ray Channel A Enable Output
P10.2
E-Ray Channel A Error Input
P02.2
E-Ray Channel B Transmit Data Output
P02.5
E-Ray Channel B Transmit Data Output enable
P02.3
E-Ray Channel B Receive Data Input 2
P20.10
E-Ray Channel B Enable Output
P20.9
E-Ray Channel B Error Input
P11.2
Ethernet TXD1 Output
P11.3
Ethernet TXD0 Output
P11.6
Ethernet TXEN Output
P11.9
Ethernet RXD1 Input A
P11.10
Ethernet RXD0 Input A
P11.11
Ethernet CRSDV Input A
P11.12
Ethernet REFCLK Input A
P02.8
Ethernet Management Data Clock Output (MDC)
P00.0
Ethernet Management Data Input/Output (MDIO)
P10.3
Ethernet MD Interrupt Input (optional)
P14.6
QSPI2 Slave Select Output 2 for SCS of TLF35584
P15.8
QSPI2 Master Clock Output for SCL of TLF35584
P15.6
QSPI2 Master Transmit Output for SDI of TLF35584
P15.2
QSPI2 Master Receive Input E for SDO from TLF35584 ASCLIN0 Transmit Output (optional)
P02.7
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
User Manual
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V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Signal (on board used) Description
Table 5-6 Peripheral Signals (continued)
Short name
Description
P33.10
Output for Wake/Inhibit Input of TLF35584
P20.0
HSCT System Clock
P21.2
HSCT Data Negative Input
P21.3
HSCT Data Positive Input
P21.4
HSCT Data Negative Output
P21.5
HSCT Data Positive Output
P20[11...14]
On board LED's
P33[4...7]
On board LED's (standby voltage supplied)
User Manual
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Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
6
Connector Pin Assignment
The TriBoard will be shipped with four male (plug) connectors on top layer and four female (socket) connectors on bottom layer. The default connectors are 80-pol. Board to Board connectors from Samtec:
http://www.samtec.com
Plug: FTSH-140-02-L-DV-ES-A
Socket: FLE-140-01-G-DV-A
6.1
On Board only used signals
Following port pins are only used on board and are not connected to any connector also not via resistor:
Table 6-1 On Board only used Signals
Short name
Description
P32.0
Used as VGATE1N for EVRC
P32.1
Used as VGATE1P for EVRC
P14.2
Used as HWCFG2
P14.4
Used as HWCFG6
P14.5
Used as HWCFG1
User Manual
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TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
6.2
TC3X4 Connector / Top View
BUS EXPANSION (X601,X701)
GND
12
GND
GND
34
GND
56 78
P21.6 P21.7
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
P21.2
51 52 53 54
P21.3 P21.4
55 56
P21.5
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
P20.0
73 74
75 76
77 78
79 80
Figure 6-1 Connector for TC3X4 - Pinout (Part I, Top View)
PERIPHERALS (X602,X702)
GND
12
GND
GND
34
GND
VCC_IN
56
VCC_IN
VCC_IN
78
VCC_IN
9 10
11 12
13 14
/ESR1
15 16
/ESR0
17 18
GND
19 20
GND
21 22
/PORST
P10.5
23 24
25 26
P10.2
27 28
P23.1
P13.1
29 30
P22.1
P13.0 P13.3
31 32 33 34
P22.0 P22.3
P13.2
35 36
P22.2
P20.9 P20.13
37 38 39 40
P20.10 P00.4
P33.5
41 42
P20.6
P20.3
43 44
P20.2
P00.0
45 46
P00.3
P00.1
47 48
P00.2
GND
49 50
GND
XTAL1 XTAL2
51 52 53 54
P32.4
P15.3
55 56
P15.5
P15.2 P14.1
57 58 59 60
P15.4 P15.1
P14.0
61 62
P15.0
P20.11 P20.14
63 64 65 66
P00.12
P20.12
67 68
P00.5
P20.7
69 70
P20.8
P15.8
71 72
73 74
P10.3
VDDSB
75 76
GND
VEXT
77 78
+3V3
VEXT
79 80
+3V3
User Manual
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TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
GND GND AN0 AN1 AN2 AN3 AN4 AN5 AN6 AN7 AN8
AN10 AN11 AN12 AN13
GND VDDM GND GND
AN35 AN36 AN37 AN38 AN39 GND
VEXT P02.6 P02.7 P02.8 P33.7 P33.11
ADC (X603, X703)
12
GND
34
GND
56
AN16
78
AN17
9 10
11 12
13 14
AN20
15 16
AN21
17 18
19 20
21 22
AN24
23 24
AN25
25 26
27 28
29 30
31 32
33 34
35 36
37 38
GND
39 40
VAREF1
41 42 VAREF2 / AN43
43 44
GND
45 46
47 48
49 50
51 52
53 54
AN44
55 56
AN45
57 58
AN46
59 60
AN47
61 62
GND
63 64
P33.6
65 66
67 68
P33.4
69 70
+3V3
71 72
P00.6
73 74
P00.7
75 76
P00.8
77 78
P14.3
79 80
P33.12
Figure 6-2 Connector for TC3X4 - Pinout (Part II, Top View)
GTM / PORTS (X604,X704)
GND
12
GND
GND
34
GND
P00.9
56
78
P02.0
9 10
P02.1
11 12
P02.2
13 14
P02.3
15 16
P14.6
P02.4
17 18
P02.5
19 20
21 22
23 24
25 26
P15.6
27 28
P15.7
29 30
31 32
P10.1
33 34
P10.6
35 36
37 38
39 40
41 42
43 44
P11.2
45 46
P11.3
47 48
49 50
51 52
P11.6
53 54
55 56
P33.8
57 58
P33.9
P11.9
59 60
P33.10
P11.10
61 62
P33.13
P11.11
63 64
P11.12
65 66
67 68
69 70
71 72
73 74
VFLEX
75 76
VEXT
77 78
+3V3
VEXT
79 80
+3V3
User Manual
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TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
6.3
Power connector pinout
+3,5V...40V
Figure 6-3 Power connector pinout (Roka 520 2550
6.4
USB connector pinout
GND
VCC DD+ ID GND
Figure 6-4 USB connector pinout (Micro USB B-type)
6.5
FlexRayTM (ERAY) connector pinout
2
4
6
8
1 0
13579
BP BM GND
Figure 6-5 FlexRayTM (ERAY) connector pinout (IDC10)
6.6
CAN connector pinout
2
4
6
8
1 0
13579
GND CANH CANL
GND
Figure 6-6 CAN connector pinout (IDC10)
User Manual
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V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
6.7
LIN connector pinout
2
4
6
8
1 0
13579
GND BUS GND VIN opt
Figure 6-7 LIN connector pinout (IDC10)
6.8
HSCT connector pinout
RXD_N
GND TXD_N
GND
246 13 5
RXD_P
TXD_P
SYSCLK
Figure 6-8 HSCT connector pinout (IEE1394 6-conductor)
6.9
Ethernet connector pinout
J8
J7
J6
J5
J4
J3
J2
J1
Figure 6-9 Ethernet connector pinout (RJ45)
User Manual
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V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
6.10
OCDS1 connector pinout
V_UC GND GND /PORST /BRKOUT GND
2 4 6 8 10 12 14 16 1 3 5 7 9 11 13 15
TMS TDO TDI /TRST TCK /BRKIN
Figure 6-10 OCDS1 connector pinout (IDC16)
6.11
DAP connector pinout
DAP1 DAP0 USR0_IO USR1_IO /PORST
2 4 6 8 10 13579
Figure 6-11 DAP connector pinout (Samtec FTSH10)
V_UC GND GND Key GND
User Manual
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TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Connector Pin Assignment
6.12
ETK connector pinout
TCK / DAP0 TDO / DAP2 TDI V_UC /PORST
2 4 6 8 10 13579
GND /TRST TMS / DAP1 BRKIO /ESR0
Figure 6-12 ETK connector pinout (Samtec TFM-105)
6.13
Ethernet miniWiggler power connector pinout
VCC_IN GND WAKEUP VDDSB
1
2
3
4
Figure 6-13 Ethernet miniWiggler connector pinout (JST B4B-PH)
User Manual
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TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
7
Schematic and Layout
7.1
Known problems
7.1.1 Known problems on TriBoard TC3X4L TH V1.0
No problems known.
7.1.2 Known problems on TriBoard TC3X4L V1.0
No problems known.
7.2
Schematic
User Manual
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V1.2 2019-09
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TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
7-2
User Manual
Figure 7-1 Schematic - Project
1 A
B
C
D 1
2
3
4
5
wiggler_Dbg_con.sch
miniWiggler and Debug Connectors
DEBUG..
/ESR0
PORT[00..33]
/PORST
DEBUG..
/ESR1
/PORST
/ESR0
XTAL[1..2]
AN[0..47]
Clk_Cfg_Dbg_Ports_Adc.sch
Clock, Config, Debug, Ports and ADC
AN[0..47]
XTAL[1..2]
PORT[00..33]
DEBUG..
Peripherals.sch
On Board Peripherals
/ESR0
PORT[00..33]
Supply.sch /ESR0
Power Supply
/PORST
PORT[00..33]
/ESR1
2
3
4
5
PORT[00..33] NC1[5..80] NC2[5..80] NC3[5..80] NC4[5..80]
6
7
8
A
Connectm.sch
Connector Plug
PORT[00..33]
AN[0..47]
NC1[5..80]
XTAL[1..2]
B
NC2[5..80]
/ESR0
NC3[5..80] NC4[5..80]
/PORST /ESR1
Connectf.sch
Connector Socket
AN[0..47] NC4[5..80]
C
NC3[5..80]
XTAL[1..2]
NC2[5..80]
/ESR0
NC1[5..80] PORT[00..33]
/PORST /ESR1
D
TriBoard TC3X4L Project
Sheet: 1 of 7
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\TriBoard_TC3X4L_V10.prj
6
7
8
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
Figure 7-2 Schematic - Clock, Config, Debug, Ports and ADC
User Manual
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
1
2
3
4
5
6
7
8
V_UC
AN[0..47] A
U201E EVADC / EDSADC
XTAL[1..2]
XTAL[1..2]
FOR 5V ADC V_VR
R220
R203
VSSOSC 50R_opt
XTAL1
R204 0R
R206
1
R202 GND opt
P20.2
R201 10K
Y201
U201B CLOCK & TESTMODE
94 P20.2 / TESTMODE VEXT(OSC)
81 XTAL1
VDD(OSC)
83
VEXTOSC R209 V_UC
VDDOSC 79
R208 VDD
CB201 0R 330n
CB202 0R
VSSOSC
A
R244 AN7 4K7
C203
AN0 AN1 AN2 AN3 AN4 AN5 AN6 AN7_I AN8
57 56 55 54 53 52 51 50 49
AN0 / EDS3PA AN1 / EDS3NA AN2 / EDS0PA AN3 / EDS0NA AN4 AN5 AN6 AN7 AN8
VDDM VSSM
44 43
VDDM
CB204 470n GND
1R2
FOR 3,3V ADC +3V3
R221 1R2_opt
XTAL2
R205 0R
opt
C201 10pF
C202 10pF
2
20MHz
VSSOSC VSSOSC
DAP0
R214 0R
R207
0R
/TRST DAP0 DAP1
R212 33R
82 XTAL2
VSS(OSC)
JTAG / DAP / OCDS1
91 92 89 88
TRST TCK / DAP0 TMS / DAP1 P21.6 / TDI
P21.7 / TDO / DAP2
TC3X4_LQFP
80 330n VSSOSC GND
90
R213
33R
47nF
GND R245 4K7
AN20
AN10 AN11 AN12 AN13
AN16 AN17
48 47 46 45
40 39
AN10
AN11
VAREF1
AN12 / EDS0PB
AN13 / EDS0NB
VAGND1
AN16
AN17 / P40.10
42 41
VAREF1
VDDM
R222
CB205 6R8 2,2F
GND
V_STBY
DAP0_A
DAP1 R215 0R
DAP1_A
B
C204 47nF
GND
R246
4K7 C205 47nF
AN21
AN20_I 38 AN21_I 37
AN24 36 AN25 35
AN35 34 AN36 33 AN37 32 AN38 31 AN39 30
AN20 / EDS2PA
AN21 / EDS2NA VAREF2 / AN43
24
AN24 / EDS2PB / P40.0
AN25 / EDS2NB / P40.1 VAGND2 / AN42
25
AN35
AN36 / EDS1PA / P40.6
AN37 / EDS1NA / P40.7
AN38 / EDS1PB / P40.8
AN39 / EDS1NB / P40.9
VAREF2
VDDM
R223
6R8 CB206 2,2F
GND
S202
R256
P33.11 1K5 GND
R255 47K
P33.11
R216 P21.7 0R
DAP2 P20.2 P21.6
DEBUG..
DEBUG..
PORT[00..33]
PORT[00..33]
B
DAP2 S
AN[0..47]
GND
R248 AN44 4K7
C207 47nF
GND
R249
4K7 C208 47nF
AN45
GND
AN44_I AN45_I
AN46 AN47
29 28 27 26
AN44 / EDS1PC AN45 / EDS1NC AN46 / EDS1PD AN47 / EDS1ND
TC3X4_LQFP
V_UC
R238
R239 47K
1K5_opt V_UC
P14.2
U201D
PORTS
P00.1 P00.2 P00.3 P00.4 P00.5 P00.6 P00.7 P00.8 P00.9
12 13 14 15 16 17 18 19 20
P00.1 P00.2 P00.3 P00.4 P00.5 P00.6 P00.7 P00.8 P00.9
P00.12 21 P00.12
P02.6
7 P02.6
P13.2 P13.3
130 131
P13.2 P13.3
P15.3 112 P15.3
P15.7 116
P20.3 95
P20.6 100
P22.0 P22.1 P22.2 P22.3
74 75 76 77
P23.1 73
P32.4 72
P33.12 P33.13
68 69
P15.7
P20.3
P20.6
P22.0 P22.1 P22.2 P22.3
P23.1
P32.4
P33.12 P33.13
P14.1
P15.1
P20.7
P13.1
P14.6 P15.2
P33.9
P02.1 P02.4 P02.0 P10.2 P10.1
P15.5
TC3X4_LQFP
R241
C
R240
47K P14.5
P14.5
1K5_opt
GND
V_UC
P14.2 P14.3
P10.5
HWCFG6 R230
R231 47K P14.4
P10.6 P14.4
1K5 V_UC
P33.11
P20.11
S201
HWCFG4 R232
R233 47K P10.5
P20.12 P20.13 P20.14
1
8
1
7
2
1K5 V_UC
P11.12
6
3
P11.10
5
4
DIPSW-4 GND
HWCFG5 R234 1K5
R235 47K
V_UC
P10.6
P11.9 P11.11
P10.3
NOTE: S201 is for device configuration (about configuration see the manual of assembled device)
Switch ON means the corresponding signal is low.
HWCFG3 R236
R237 47K P14.3
Switch OFF means the corresponding signal is high.
1K5
D
U201C
ON BOARD USED PERIPHERALS / PINS
119 P14.1 / ARX0A
P14.0 / ATX0
110
ASCLIN P15.1 / ARX1A
P15.0 / ATX1
101 P20.7 / CAN00_RXDB P20.8 / CAN00_TXD
129
CAN P13.1 / CAN10_RXDD P13.0 / CAN10_TXD
124 111
P14.6 / SLSO22 P15.2 / MRST2E
P15.8 / SCLK2 P15.6 / MTSR2
65
QSPI / TLF35584
P02.7
P33.9
P33.8 / SMU_FSP0
P33.10
2 5 1 141 140
P02.1 / RXD0A
P02.4 / TXEN0A
P02.0 / TXD0A
P10.2 / REQ2_0
P10.1
ERAY
P02.3 / RXD0B P02.5 / TXEN0B
P02.2 / TXD0B P20.9 / REQ7_0
P20.10
114 P15.5 / SDA0
I2C
P15.4 / SCL
HWCFG
123 120 121 143 144 122
P14.5 / HWCFG1 P14.2 / HWCFG2 P14.3 / HWCFG3 P10.5 / HWCFG4 P10.6 / HWCFG5 P14.4 / HWCFG6
67
BUTTON P33.11
HSCT P21.5 / TXD0P P21.4 / TXD0N P21.3 / RXD0P P21.2 / RXD0N P20.0 / SYSCLK
105 106 107 108
P20.11 P20.12 P20.13 P20.14
LEDs
P33.4 P33.5 P33.6 P33.7
139 137 135 138
P11.12 / REFCLKA P11.10 / RXD0A P11.9 / RXD1A P11.11 / RXDVA
P02.8 / MDC P00.0 / MDIOA
P11.3 / TXD0 P11.2 / TXD1 P11.6 / TXEN
142 P10.3 / REQ3_0 ETHERNET
VFLEX
TC3X4_LQFP
118 P14.0
109 P15.0
102 P20.8
128 P13.0
117 P15.8
115 P15.6
8
P02.7
64 P33.8
66 P33.10
4
P02.3
6
P02.5
3
P02.2
103 P20.9
104 P20.10
113 P15.4
87 TXD0_P 86 TXD0_N 85 RXD0_P 84 RXD0_N 93 SYSCLK
60 P33.4 61 P33.5 62 P33.6 63 P33.7
9
P02.8
11 P00.0
133 P11.3 132 P11.2 134 P11.6
VFLEX 136
CB203 100n
GND
P20.0 P21.2 P21.3 P21.4 P21.5
R252
0R R253
0R R254
0R R250
0R R251
0R
R211 0R
+3V3
X201
3 4 5 6 1 2
TXDP TXDN RXDP RXDN SYSCLK GND
C HSCT0-opt
GND
D
7-3
TriBoard TC3X4L Clock, Config, Debug, Ports, ADC
Sheet: 2 of 7
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\Clk_Cfg_Dbg_Ports_Adc.sch
1
2
3
4
5
6
7
8
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
Figure 7-3 Schematic - On Board Peripherals
User Manual
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
1
2
3
4
5
6
7
8
7-4
PORT[00..33]
PORT[00..33]
V_UC
P33.4 P33.5 P33.6 P33.7 P20.11 P20.12 P20.13 P20.14
R391 R392 R393 R394 R395 R396 R397 R398 470R 470R 470R 470R 470R 470R 470R 470R
D302 LB T673
D303 LB T673
D304 LB T673
D305 LB T673
D306 LB T673
D307 LB T673
D308 LB T673
D309 LB T673
A
V_STBY R390
V_UC R399
V_UC V_UC
V_UC 4
CB309 100n 2
U305
VCC SCL SDA
VSS
R346 2K
1 3
GND
24AA02E48-E/OT
R347 2K
R348
0R R349
0R
P15.4 P15.5
P20.7 P20.8 P14.1 P14.0
R301 R302 0R 0R R303 R304 0R_opt
CB301 V_CO
GND
100n
U301
3 4
VCC VIO RXD CANH
5 7
1 2
TXD CANL GND STB
6 8
TLE9251VSJ
R306 0R
R308
R307 0R 120R R309
0R
X301
1
2
3
4
5
6
7
8
9 10
A
0R
VIN D301
0R
1
U306
0R_opt
R305 0R
CAN0
GND
X305
1
2
3
4
5
6
7
8
9 10
LIN1
3 2
BAT54-04
C303 22F/50V
CB310 100n
GND
R360 1K
GND
GND
R359 0R_opt
C304
VIN
1n
GND
7 VS
GND
8 INH
WK
6 BUS
RXD TXD
EN
TLE7259-3GE
5
GND
VIN
3
R361
1
10K
4
V_UC
2
R362
0R
+3V3
V_UC R363
10K R364
0R R365
0R
P15.1 P15.0
P13.1 P13.0 P00.1 P00.0
R311 R312 0R 0R R313 R314 0R_opt 0R_opt
GND
V_UC
CB302 V_CO
GND
100n
U302
3 4
VCC VIO RXD CANH
5 7
1 2
TXD CANL GND STB
6 8
TLE9251VSJ
R315
R316 0R
R318
R317 0R 120R R319
0R
GND
X302
1
2
3
4
5
6
7
8
9 10
CAN1
0R
R378 4K7
R377
P10.3
GND
GND
330R_opt
R368 P11.9
B
B
R369 0R
P11.10
0R R370 P11.11
0R R371
P11.12
P02.0
R320
V_UC
0R R372 P11.6
0R
R338
+3V3
C320
opt GND
+3V3
+3V3
R379 1K8
CB316
R373 0R 0R R374
0R
P11.3 P11.2
CB317 V_UC
100n
GND
100n
U308
3 4 5 6
VCCA VCCB
A2
B2
A1
B1
OE
GND
7 1 8 2
P00.0 P02.8
P02.4 P02.1 P10.1
R321
0R R322
0R R323
0R
P10.2
R324 0R
4K7
V_UC
TXDA TXENA RXDA BGEA ENA
R330
R331 4K7
4K7
U303
4 5 6 7
TXD TXDEN RXD BGE
2 EN 8 STBN
ERRNA
10 9
ERRN RXEN
R332 TLE9221SX
BP BM
15 14
BPA BMA
VBAT VDD VIO
11 16 3
GND 13
GND
INH WAKE
1 12
INHA
CB303 100n
CB304 100n
CB305 100n
T301
1
2
4
3
VIN B82789-C0104 V_CO V_UC
R335 51R
GND R336 51R
R337 0R
C301 10nF
GND
X303
1
2
3
4
5
6
7
8
9 10
ERAY-A
R367
+3V3
TXS0102DCUT GND
opt
R333 R334 GND GND GND
C317
4K7
R375 R376
opt opt
C
10n GND
10K opt GND
GND
C
GND GND
23 22
15 20 16 17 18 19
8 27 28 12 11 10 9 26 13
X306
TD+ CT TD-
1 4 2
RD+ CT RD-
3 5 6
GND 8
LA LK
9 10
RK RA
11 12
SHIELD S RJ45
RXDV COL
RXER / FXEN RXD[3] / CLK_CTL
RXD[2] / INTB RXD[1] RXD[0]
CRS / CRS_DV RXC
C306 10n GND
MDI0_P MDI0_N MDI1_P MDI1_N
3 4 5 6
MDI+[0] MDI-[0] MDI+[1] MDI-[1]
RTL8201FI
DVDD10OUT AVDD10OUT
Shield
+3V3 R385
4K7
24
+3V3 R389
25
R388 510R GND
510R
R383 4K7
LED0 / PHYAD[0] / PMEB LED1 / PHYAD[1]
30 7
29 2
AVDD33 AVDD33
TXC TXEN TXD[0] TXD[1] TXD[2] TXD[3]
14 DVDD33
U307 RTL8201FI-VC-CG
MDIO MDC
CKXTAL1 CKXTAL2 PHYRSTB
RSET EPAD
C310
31
1
27pF GND
Y301 C311
3
32 NX3225SA-25MHz
27pF GND
21 RSTN
R386
+3V3
1
3
4K7 Q301B BSD235N
R380 10K
HS
R382 2K49/1%
5
6
Q301A BSD235N
4
2
GND GND
GND
1
GND
P02.2 P02.5 P02.3
P20.10
R340 0R R341 0R R342 0R
R343 0R
P20.9
R344 0R
R381 /ESR0 10K
/ESR0
V_UC
R358 4K7
V_UC
TXDB TXENB RXDB BGEB ENB
R350
R351 4K7
4K7
U304
4 5 6 7
TXD TXDEN RXD BGE
2 EN 8 STBN
ERRNB 10 9
R352 opt
ERRN RXEN
TLE9221SX
GND
BP BM
15 14
BPB BMB
VBAT VDD VIO
11 16 3
T302
1
2
4
3
VIN B82789-C0104 V_CO V_UC
GND 13
GND
INH WAKE
1 12
INHB
CB306 100n
CB307 100n
CB308 100n
R353 opt
R354 opt
GND
GND
GND
R355 51R
GND R356 51R
R357 0R
C302 10nF
GND
X304
1
2
3
4
5
6
7
8
9 10
ERAY-B
GND
GND GND
D
D
Shield
+3V3
C316 C315 C314 C313 C312 100n 10n 10n 100n 1000pF/2KV
GND
CB311 CB312 100n 100n
GND GND
CB313 CB314 CB315 C305 100n 100n 100n 22F
GND
TriBoard TC3X4L On Board Peripherals
Sheet: 3 of 7
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\Peripherals.sch
1
2
3
4
5
6
7
8
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
Figure 7-4 Schematic - miniWiggler JDS and Debug connectors
User Manual
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
1
2
3
4
5
6
7
8
VDD_FT L401
VDD_FT
L402
VDD_FT
VDD_FT
V_UC V_UC
MMZ1608R300A C402 CB405 4u7/6V 100n
CB412 100n
VDD_FT CB402
100n
CB413 100n
C403 MMZ1608R300A 4u7/6V
VDD_FT
D402 LP T67K
R410 10K
R415 R409 10K 10K
V_UC
FOR USING WIGGLER WITH JTAG: Assemble R447-R451
GND GND
CB411
100n
U405
GND
CB410 100n
A
VDD_USB
TLE4274GSV33 VDD_FT 1 IN OUT 3
+1V8
2 GND
CB401 100n
C401 10/6V
GND
GND GND
C406
49 VREGOUT
GND
3,3uF VDD_FT
50 VREGIN
BU401
VBUS DD+ ID
GND
1 2 3 4 5 GND
R402 27R R403 27R
7 DM 8 DP
Micro USB
C404 8pF
C405 8pF
3
1
GND
R404 12K/1%
Y401 NX3225SA-12MHz
6 REF 2 OSCI 3 OSCO
GND
VDD_FT R401
14 RESET
B
1K VDD_FT
R441
10K R442
63 62 61
EECS EECLK EEDATA
VDD_FT
CB406 100n GND
U402
8 5
7 4
VCC CS GND CLK
D DNC Q ORG
1 2 3
6
93LC46B-I/SN
R406
10K R405
10K
GND
VDD_FT R407 opt
13 TEST
36 SUSPEND 60 PWREN
2K2
1 5 11 15 25 35 47 51
GND GND GND GND GND GND GND GND
VCORE VCORE VCORE
12 37 64
VPLL VPHY
9 4
GND
10 AGND
VCCIO VCCIO VCCIO VCCIO
20 31 42 56
CB403 CB404 CB409
100n 100n
GND GND
GND
R411 100R
2 5
R412
680R ADBUS4 1
6
Q401A
3
4
Q401B
U403
1 19
G G
VCC GND
20 10
CB407 100n
Remove R455-R456
100n U401 GND
R450 1K_opt
ADBUS0 ADBUS1 ADBUS2 ADBUS3 ADBUS4 ADBUS5 ADBUS6 ADBUS7
16 17 18 19 21 22 23 24
ADBUS0 ADBUS1 ADBUS2 ADBUS3 ADBUS4 ADBUS5 ADBUS6 ADBUS7
D401 LB T673
BSD235N ADBUS0 ADBUS1 ADBUS3 ADBUS6 ACBUS0 ACBUS1
ACBUS5
VDD_FT
BSD235N 2 4 6 8
11 13 15 17
R413
GND
1A1 1A2 1A3 1A4 2A1 2A2 2A3 2A4
1Y1 1Y2 1Y3 1Y4 2Y1 2Y2 2Y3 2Y4
18 DAP0_A 16 TDI 14 TMS 12 USR0 9 /TRST_J 7 /RESET 5 3 USR8
SN74AHC244PW
R421 opt
R422 opt
R447 R448 R449
0R_opt 0R_opt 0R_opt
DAP0_A P21.6 DAP1_A /TRST
D403
3
1 /PORST
BAT54 R454 5K1
DAP1_A
ACBUS0 ACBUS1 ACBUS2 ACBUS3 ACBUS4 ACBUS5 ACBUS6 ACBUS7
26 27 28 29 30 32 33 34
BDBUS0 BDBUS1 BDBUS2 BDBUS3 BDBUS4 BDBUS5 BDBUS6 BDBUS7
38 39 40 41 43 44 45 46
BCBUS0 BCBUS1 BCBUS2 BCBUS3 BCBUS4 BCBUS5 BCBUS6 BCBUS7
48 52 53 54 55 57 58 59
FT2232HL
ACBUS0 ACBUS1 ACBUS2 ACBUS3 ACBUS4 ACBUS5 ACBUS6 ACBUS7
BDBUS0 BDBUS1
VDD_FT
R416 10K
2
BDBUS0 1
6
Q402A
BSD235N
VDD_FT
R414
R418
2
4K7
10K
BDBUS1 1
6
Q403A BSD235N
R443
10K
10K ACBUS4 1
2
U404
/OE A
4Y
VCC GND
VDD_FT 5
CB408
3
100n
GND GND
ADBUS1 ADBUS2 ACBUS5 ACBUS3 ACBUS7 ACBUS2 ACBUS6
V_UC
SN74LVC1G125
GND
VDD_FT
GND
CB414
U406
1 VCCA VCCB
ADBUS2 100n 3 A
B
V_UC 6 4
ACBUS5
R444 4K7
5 DIR GND 2 SN74LVC1T45DBV GND
R417 10K
5
3
4
Q402B BSD235N
R419
V_UC
V_UC
R420 4K7
R437 R440 0R 0R_opt
VDD_FT
GND GND
CB416
U407
1 VCCA VCCB
ACBUS3 100n 3 A
B
V_UC 6 4
ACBUS7
R445 4K7
5 DIR GND 2 SN74LVC1T45DBV GND
5
10K
3
4
Q403B BSD235N
R436 R438
VDD_FT
GND GND
CB418
U408
1 VCCA VCCB
ACBUS2 100n 3 A
B
ACBUS6
5 DIR GND
V_UC 6 4 2
CB415 GND
100n R455 DAP1_A 0R R451 P21.7 0R_opt
CB417 GND
100n R456 P21.7
0R R423 P20.0
0R_opt V_UC
CB419 GND R431
100n USR1 100K
R427 P21.7
0R 0R_opt
R446 4K7
SN74LVC1T45DBV GND
0R_opt R428 P20.2
DEBUG.. P21.6
P21.7 P21.7 P20.0 P21.7 P20.2
DEBUG..
A B
GND
0R_opt
7-5
P21.6 P20.2 P33.6 P33.7
P14.0 P15.2 P14.1 P15.3
P21.7 P21.6 P21.7 P20.2
P20.0
C
D PORT[00..33]
PORT[00..33]
R424 0R_opt
V_UC
GND
/DBG_PORST /BRKOUT
GND
X401
2 4 6 8 10 12 14 16
VCC
TMS
GND
TDO
GND CPUCLOCK
PORST
TDI
BRKOUT
TRST
GND
TCK
OCDSE
BRKIN
KEY
N.C.
OCDS1
1 3 5 7 9 11 13 /BRKIN 15
R425 0R_opt
R426 0R_opt
DAP1_A
/TRST DAP0_A
/DBG_PORST
DAP0_A
X404
P21.7 P21.6
R439
DAP0_A 2 4
22R_opt
6
/DBG_PORSTV_UC
8 10
TCK / DAP0 GND
TDO / DAP2 /TRST
TDI / - TMS / DAP1
VDDsense BRKIO
/PORST
ESR0
1 3 5 7 9
P21.7
R433
ETK_CON_opt
0R_opt
GND /ESR0
/TRST DAP1_A
/ESR0
R429 0R
R430 0R_opt
X406
2 4 6 8 10
DAP1 DAP0 USER0 USER1 RESET
VREF GND GND KEY GND
1 3 5 7 9
DAP_SCR
X402
DAP1
2
DAP0
4
DAP2
6
DAP3_USR1 8
/DBG_PORST 10
DAP1 DAP0 USER0 USER1 RESET
VREF GND GND KEY GND
1 3 5 7 9
DAP
V_STBY R457 0R
GND V_UC
R452 0R
GND
/DBG_PORST
1
2
3
4
5
C
R408 0R
/PORST
D
TriBoard TC3X4L miniWiggler and Debug connectors
Sheet: 4 of 8
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\Wiggler_Dbg_con.sch
6
7
8
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
Figure 7-5 Schematic - Power Supply
User Manual
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
1
2
3
4
5
6
7
8
7-6
V_STBY
C507
GND
1F/10V U501
U502
POWER 2 4
1,2,5,6
QST 5
A
X501 VCC_IN D502 1 SS26
GND VDD_USB D503
VIN
L501
D501
XAL5050-223MEB
MSS2P2
C501
C502
47F/40V
GND
2 VST
45 44
VS1 VS2
100F/40V CB501
SSTWWL12F355448324QVVSX1A/2L4L053002-472MEC
V_PREREG
TLS205B0EJV33
8 IN
Q
C503
V_UC
SENSE/ADJ
1 2
PG1 PG2
41 40
CB502
22F/10V GND
5 EN
GND GND
BYP 4
+3V3
C504
C505 10F
10nF
GND
A
GND SS22_opt
/PORST
Q501 BSL606SN
3
R501 250mR
100n 25
46
47 48
1
STU
DRG
RSH RSL BSG
GND 17 ROT
FB1 FB2 FB3 FB4 FB5
34 35 36 37 38
SYN EVC VCI SEC
19 21 26 23
100n GND
6 HS
GND
+3V3
+3V3
V_UC
/ESR1
P14.6 P15.8 P15.6 P15.2
18 INT
15 14 12 13
SCS SCL SDI SDO
QUC 30 QCO 31
V_UC C508 GND
V_CO 4,7F/10V C509 GND
V_VR 4,7F/10V
R511 620R
R512 680R
R513 1K5
+1V25
Q504
R510
1
3
D505 LP T67K
D506 LP T67K
D507 LP T67K
GND
GND
P02.7
16 WDI
QVR 29
C510 GND
82K
BC848C
2
B
P33.8 P33.9
R503
D508
1K R504
GND LP T67K VCC_IN
470R V_STBY R507 100K
20 11 10
ERR SS1 SS2
24 3 4
FRE ENA WAK
GND AG1 AG2 AG3 AG4 AG5 AGS
QT1 33
QT2 32
TM GST
22 27
QT1 4,7F/10V C511 GND
QT2 4,7F/10V C512 GND
4,7F/10V
V_CO
GND
GND GND
V_STBY
CB510
GND R520 0R
VDD
VDDSB CB515 R522
100n
0R
+1V25 R523 0R
CB516
100n CB517
B
PORT[00..33]
3
X502 1
Q505
HS 6 7 8 28 39 9
R508
100n
2 3
GND VDDSB
4
1BSS138N GND
R502
0R R509
V_UC
100n CB518
2
10K
20K
R521
EmW_Pwr_opt
GND
100n 0R
P33.10
GND
CB511
CB519
PORT[00..33]
S502 VIN
ENA
R505
10K R506 100K
GND
V_UC
S501 RESET
R531 4K7
R532
3
1 C515
Q502 BC848C
R533 0R
V_UC +3V3 GND R524 R525 VDDP3 0R_opt 0R_opt
CB512 100n CB513 100n
100n
100n GND
VDD VDD VDD VDD
VEVRSB 59
VEXT VEXT VEXT
VDDP3 126
127 99 58 22
125 78 23
2
10K
47/10V
C
C519 CB520
C
/PORST
V_UC
2,2F 100n
U201A
GND GND
GND
TC3X4_LQFP
R534
GND GND
/PORST
/PORST
2K2
/PORST
/PORST
97 PORST
VDD / VDDSB 10
V_UC
/ESR1
/ESR1
96 ESR1
/ESR1
/ESR1
/ESR0
/ESR0
R535 4K7
V_UC
R536 4K7
V_UC
2
R537 1 10K
3
Q503 BC858C
R538
120R
D504 GND
LS T67K
/ESR0
Q506
+1V25
BSZ15DC02KD
L503
8
LTF5022T-3R3N2R5 7
C522 C521
6
10F 22F
5
GND GND
2
1 GND V_UC C520 4
10F
GND
3
10 9
V_PREREG C506 GND
10F_opt VCC 7
/ESR0 VGATE1N
VGATE1P V_UC
98 ESR0
POWER
70 P32.0 / VGATE1N 71 P32.1 / VGATE1P
HS VSS
GND
VS VS
D
1 2
SW SW PWM
LSCON
6 5
CB506 100n_opt
GND
D
GND GND
PGND PGND
8 3
HS 4
U503 TLF11251_opt
GND
TriBoard TC3X4L Power supply
Sheet: 5 of 7
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\Supply.sch
1
2
3
4
5
6
7
8
V1.2 2019-09
V1.2 2019-09
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
7-7
User Manual
Figure 7-6 Schematic - Connectors (Plug)
1
2
3
NC1[5..80] NC1[5..80]
X601
GND
1 PLUG2
A B
NC1.5 NC1.7 NC1.9 NC1.11 NC1.13 NC1.15 NC1.17 NC1.19 NC1.21 NC1.23 NC1.25 NC1.27 NC1.29 NC1.31 NC1.33 NC1.35 NC1.37 NC1.39 NC1.41 NC1.43 NC1.45 NC1.47 NC1.49 NC1.51 NC1.53 NC1.55 NC1.57 NC1.59 NC1.61 NC1.63 NC1.65 NC1.67 NC1.69 NC1.71 NC1.73 NC1.75 NC1.77 NC1.79
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
P21.6 P21.7 NC1.10 NC1.12 NC1.14 NC1.16 NC1.18 NC1.20 NC1.22 NC1.24 NC1.26 NC1.28 NC1.30 NC1.32 NC1.34 NC1.36 NC1.38 NC1.40 NC1.42 NC1.44 NC1.46 NC1.48 P21.2 P21.3 P21.4 P21.5 NC1.58 NC1.60 NC1.62 NC1.64 NC1.66 NC1.68 NC1.70 P20.0 NC1.74 NC1.76 NC1.78 NC1.80
FTSH-140-02-L-DV-ES-A
4
/ESR1
XTAL[1..2]
XTAL[1..2]
AN[0..47]
AN[0..47]
C
NC3[5..80] NC3[5..80]
ADC
D
AN0 AN1 AN2 AN3 AN4 AN5 AN6 AN7 AN8 NC3.23 AN10 AN11 AN12 AN13 NC3.33 NC3.35
GND VDDM
GND NC3.45GND NC3.47 NC3.49 AN35 AN36 AN37 AN38 AN39
NC3.63GND NC3.65 NC3.67
P02.6 V_UC P02.7 P02.8 P33.7 P33.11
X603
1 PLUG2
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
GND
AN16 AN17 NC3.10 NC3.12 AN20 AN21 NC3.18 NC3.20 AN24 AN25 NC3.26 NC3.28 NC3.30 NC3.32 NC3.34 NC3.36
GND VAREF1 VAREF2 GND NC3.46
NC3.48 NC3.50 NC3.52 AN44 AN45 AN46 AN47
GND P33.6 NC3.66 P33.4
+3V3 P00.6 P00.7 P00.8 P14.3 P33.12
FTSH-140-02-L-DV-ES-A
PORT[00..33]
PORT[00..33]
1
2
3
4
5
6
VCC_IN
NC2.9 NC2.11 NC2.13 /ESR1 NC2.17
NC2.21GND P10.5 NC2.25 P10.2 P13.1 P13.0 P13.3 P13.2 P20.9 P20.13 P33.5 P20.3 P00.0 P00.1
XTAL1GND XTAL2 P15.3 P15.2 P14.1 P14.0 P20.11 P20.14 P20.12 P20.7 P15.8 NC2.73
VDDSB
V_UC
X602
1 PLUG2
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
GND VCC_IN
NC2.10 NC2.12 NC2.14 /ESR0 NC2.18
GND
/PORST NC2.24 NC2.26 P23.1 P22.1 P22.0 P22.3 P22.2 P20.10 P00.4 P20.6 P20.2 P00.3 P00.2
GND
P32.4 NC2.54 P15.5 P15.4 P15.1 P15.0 P00.12 NC2.66 P00.5 P20.8 NC2.72 P10.3
GND
+3V3
FTSH-140-02-L-DV-ES-A
P00.9 NC4.7 P02.0 P02.1 P02.2 P02.3 P02.4 P02.5 NC4.21 NC4.23 NC4.25 NC4.27 NC4.29 NC4.31 P10.1 P10.6 NC4.37 NC4.39 NC4.41 NC4.43 P11.2 P11.3 NC4.49 NC4.51 P11.6 NC4.55 NC4.57 P11.9 P11.10 P11.11 P11.12 NC4.67 NC4.69 NC4.71 NC4.73
VFLEX
V_UC
X604
1 PLUG2
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
GND
NC4.6 NC4.8 NC4.10 NC4.12 NC4.14 P14.6 NC4.18 NC4.20 NC4.22 NC4.24 P15.6 P15.7 NC4.30 NC4.32 NC4.34 NC4.36 P23.2 NC4.40 NC4.42 NC4.44 NC4.46 NC4.48 NC4.50 NC4.52 NC4.54 P33.8 P33.9 P33.10 P33.13 NC4.64 NC4.66 NC4.68 NC4.70 NC4.72 NC4.74 NC4.76
+3V3
FTSH-140-02-L-DV-ES-A
5
6
7 NC2[5..80] NC2[5..80]
/ESR0 /PORST
8
TOP
A
PERIPHERALS
B NC4[5..80] NC4[5..80]
C
PORTS
D
TriBoard TC3X4L Connectors plug
Sheet: 6 of 7
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\Connectm.sch
7
8
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
V1.2 2019-09
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
7-8
User Manual
Figure 7-7 Schematic - Connectors (Socket)
1
2
3
NC1[5..80] NC1[5..80]
X701
GND
1SOCKE2T
A B
NC1.5 NC1.7 NC1.9 NC1.11 NC1.13 NC1.15 NC1.17 NC1.19 NC1.21 NC1.23 NC1.25 NC1.27 NC1.29 NC1.31 NC1.33 NC1.35 NC1.37 NC1.39 NC1.41 NC1.43 NC1.45 NC1.47 NC1.49 NC1.51 NC1.53 NC1.55 NC1.57 NC1.59 NC1.61 NC1.63 NC1.65 NC1.67 NC1.69 NC1.71 NC1.73 NC1.75 NC1.77 NC1.79
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
P21.6 P21.7 NC1.10 NC1.12 NC1.14 NC1.16 NC1.18 NC1.20 NC1.22 NC1.24 NC1.26 NC1.28 NC1.30 NC1.32 NC1.34 NC1.36 NC1.38 NC1.40 NC1.42 NC1.44 NC1.46 NC1.48 P21.2 P21.3 P21.4 P21.5 NC1.58 NC1.60 NC1.62 NC1.64 NC1.66 NC1.68 NC1.70 P20.0 NC1.74 NC1.76 NC1.78 NC1.80
FLE-140-01-G-DV-A
4
/ESR1
XTAL[1..2]
XTAL[1..2]
AN[0..47]
AN[0..47]
C
NC3[5..80] NC3[5..80]
ADC
D
AN0 AN1 AN2 AN3 AN4 AN5 AN6 AN7 AN8 NC3.23 AN10 AN11 AN12 AN13 NC3.33 NC3.35
GND VDDM
GND NC3.45GND NC3.47 NC3.49 AN35 AN36 AN37 AN38 AN39
NC3.63GND NC3.65 NC3.67
P02.6 V_UC P02.7 P02.8 P33.7 P33.11
X703
1SOCKE2T
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
GND
AN16 AN17 NC3.10 NC3.12 AN20 AN21 NC3.18 NC3.20 AN24 AN25 NC3.26 NC3.28 NC3.30 NC3.32 NC3.34 NC3.36
GND VAREF1 VAREF2 GND NC3.46
NC3.48 NC3.50 NC3.52 AN44 AN45 AN46 AN47
GND P33.6 NC3.66 P33.4
+3V3 P00.6 P00.7 P00.8 P14.3 P33.12
FLE-140-01-G-DV-A
PORT[00..34]
PORT[00..34]
1
2
3
4
5
6
VCC_IN
NC2.9 NC2.11 NC2.13 /ESR1 NC2.17
NC2.21GND P10.5 NC2.25 P10.2 P13.1 P13.0 P13.3 P13.2 P20.9 P20.13 P33.5 P20.3 P00.0 P00.1
XTAL1GND XTAL2 P15.3 P15.2 P14.1 P14.0 P20.11 P20.14 P20.12 P20.7 P15.8 NC2.73
VDDSB
V_UC
X702
1SOCKE2T
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
GND VCC_IN
NC2.10 NC2.12 NC2.14 /ESR0 NC2.18
GND
/PORST NC2.24 NC2.26 P23.1 P22.1 P22.0 P22.3 P22.2 P20.10 P00.4 P20.6 P20.2 P00.3 P00.2
GND
P32.4 NC2.54 P15.5 P15.4 P15.1 P15.0 P00.12 NC2.66 P00.5 P20.8 NC2.72 P10.3
GND
+3V3
FLE-140-01-G-DV-A
P00.9 NC4.7 P02.0 P02.1 P02.2 P02.3 P02.4 P02.5 NC4.21 NC4.23 NC4.25 NC4.27 NC4.29 NC4.31 P10.1 P10.6 NC4.37 NC4.39 NC4.41 NC4.43 P11.2 P11.3 NC4.49 NC4.51 P11.6 NC4.55 NC4.57 P11.9 P11.10 P11.11 P11.12 NC4.67 NC4.69 NC4.71 NC4.73
VFLEX
V_UC
X704
1SOCKE2T
3
4
5
6
7
8
9 10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
51 52
53 54
55 56
57 58
59 60
61 62
63 64
65 66
67 68
69 70
71 72
73 74
75 76
77 78
79 80
FLE-140-01-G-DV-A
GND
NC4.6 NC4.8 NC4.10 NC4.12 NC4.14 P14.6 NC4.18 NC4.20 NC4.22 NC4.24 P15.6 P15.7 NC4.30 NC4.32 NC4.34 NC4.36 P23.2 NC4.40 NC4.42 NC4.44 NC4.46 NC4.48 NC4.50 NC4.52 NC4.54 P33.8 P33.9 P33.10 P33.13 NC4.64 NC4.66 NC4.68 NC4.70 NC4.72 NC4.74 NC4.76
+3V3
5
6
7 NC2[5..80] NC2[5..80]
8
BOTTOM
A /ESR0
/PORST
PERIPHERALS
B NC4[5..80] NC4[5..80]
C
PORTS
D
TriBoard TC3X4L Connectors socket
Sheet: 7 of 7
Infineon Technologies AG ATV MC ACE ATV CES
Number:
Am Campeon 1-12
Revision: 1.0
D-85579 Neubiberg
Date: 15.10.2018
Tel.: +49-89-234-0
File: G:\Technical_Support\TriCore\TriBoard\EDA_DXP\TriBoard AURIX 2G\TriBoard TC3X4L\TriBoard TC3X4L V1.X\Connectf.sch
7
8
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
V1.2 2019-09
User Manual
7-9
Figure 7-8 Component Plot Top Layer
X30 6
C3 10 CB3 14
R39 0
X501
X 305
X 304
R359
D301
C501
L 501 R501
CB501
C507 R50 7
U50 1
C502
C30 3 R361
L502
C504
C505
R354 R3 44
R357 R355 C302 R356
T302
U50 2
C503 CB 502
C509
C508 R508
S 501
R426 R425 R532
R531
R20 2 R201
Y4 01 R4 02 R4 03
X303
R337 R335 C301 R336
T301
B U401
L401
R401
C402 CB 405
CB 401
U401
CB 402 D40 1
R4 11
R324
D40 2
R4 56
X401 R424
U404
U407
CB408
U307
CB417
R428
R446
U408
R427
R423
R451
R454
R455
R444
CB 416 CB 418 CB 419
C305
CB315
R379
R372
CB 316
R375 U308
CB31 7 CB 414
U4 06
CB 415
CB3 13 R376
C311 Y301
X4 04
D5 08 R509
D504
X603
R246 R2 45
R222 R223
R244
S5 02
R248 R249
CB 205 CB 204
D50 6 D50 5
D50 7
X302 CB 206
X301
R391 R439
D302
R392
R377
D303 D304
R393
U201
R3 94
D305
R39 5 R39 6
R2 31
S 201
R230 R233 R232
R234 R235 R236 R237
CB203 CB520
R211
R52 4
C519
R240 R525
R3 98
R3 97
D306 D307 D308 D309
R255 R256
R241
X201
X 406 R457
R430 R429 R216 R213
R212
R21 4
X40 2
C522
C2 01 R203
R207 Y 201
C20 2 R206
R2 15
R452
X 604
R39 9
S 202
R20 5 R204
X 502
X 601
X60 2
R3 49
R347
R348
R346
U305
CB 309
7.3
Layout
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
V1.2 2019-09
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
7-10
User Manual
Figure 7-9 Component Plot Bottom Layer
X7 01 X7 02
R535
C521
C506
CB 506
C5 20 U503
X7 04
R385
C31 6 C315 C314
R38 9
C3 17 C306
R383
R254 R25 0 R252
R253
R251
R23 9 R23 8
R374 R373
CB513 CB 516
C B 512
R52 1 R52 3
R522 R520
CB51 7
R209 CB2 01
CB2 02 R208
CB 510
C B 511 C20 5
C B 518
C203
C204
C207 C208
CB519
C312
CB 412
R36 9 R368
R370 R386
R378
R4 33
R37 1 R4 49
Q30 1
C3 20
R38 0 R44 0
R3 81
R42 0 R437
R4 22
R4 36
R438 R307
R44 8 R44 7
U4 03
CB311
R413
R382 CB 312
C40 6
C313 CB40 9
CB404
R36 7
R41 9
Q4 03
L 402 R414
CB 411
R418
R442
CB403
R41 7
Q402
R416
R443
R421 R410
Q4 01
R406
R405 U4 02
C403
CB413
CB 410
R4 41
C401
R404
C4 04 C40 5
U405
CB 406
R415 R412 R450
R309 CB 407
R304 R308
R431
R302
U301
R303 CB301
CB 515
R301
R314 R312
R313 R3 11
R318
U302
R30 6 R317
CB302
R51 3
R512
R319
R305
R4 09
R445
R334
R408
D403
R323
R320
R3 30 CB 305
R321
R3 22
R331
R315
Q502
R340 R341
C515
R316
R53 8
R533 Q50 3
R34 2
R5 36 R537
R34 3 R350
CB 308 R358
R351
R338 U303
U304
R407
CB30 4 R33 3 C B 303 R33 2
C B 307 R35 3
C B 306
R362 R363
R3 64
R352
R3 65
Q504
R5 11
U306
C304
R504 C510 C512 C511
R510
R534
Q5 06 L5 03
R221
R22 0
Q505
R502
R5 03 R505
R506
D501 Q5 01
R360
C B 310 D503
X70 3
D502
R388
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
7.4
Layout with Dimensioning
The following dimensions should be used for development of extension boards.
Figure 7-10 Dimensioning (mm)
User Manual
7-11
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Schematic and Layout
Figure 7-11 Dimensioning (mil)
The dimensioning is valid for all TriBoards.
User Manual
7-12
TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
V1.2 2019-09
TriBoard Manual TC3X4L
Hardware: TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
Revision History
Page or Item Subjects (major changes since previous revision)
V1.2, 2019-09
Table 5-6
correct Short name and Description for SDO from TLF35584
chapter 3.10 add description for LIN master and slave changes
Revision History add complete history of all previous versions
V1.1, 2019-06
all
add TC364 in LQFP package as usable device and adapt description for this devices
chapter 3
add detailed description of usable devices/restricted devices
V1.0, 2017-11
First version
User Manual TriBoard TC3X4L TH V1.0 and TriBoard TC3X4L V1.0
RevisionHistory-1
V1.2 2019-09
Please read the Important Notice and Warnings at the end of this document
Trademarks of Infineon Technologies AG µHVICTM, µIPMTM, µPFCTM, AU-ConvertIRTM, AURIXTM, C166TM, CanPAKTM, CIPOSTM, CIPURSETM, CoolDPTM, CoolGaNTM, COOLiRTM, CoolMOSTM, CoolSETTM, CoolSiCTM, DAVETM, DI-POLTM, DirectFETTM, DrBladeTM, EasyPIMTM, EconoBRIDGETM, EconoDUALTM, EconoPACKTM, EconoPIMTM, EiceDRIVERTM, eupecTM, FCOSTM, GaNpowIRTM, HEXFETTM, HITFETTM, HybridPACKTM, iMOTIONTM, IRAMTM, ISOFACETM, IsoPACKTM, LEDrivIRTM, LITIXTM, MIPAQTM, ModSTACKTM, my-dTM, NovalithICTM, OPTIGATM, OptiMOSTM, ORIGATM, PowIRaudioTM, PowIRStageTM, PrimePACKTM, PrimeSTACKTM, PROFETTM, PRO-SILTM, RASICTM, REAL3TM, SmartLEWISTM, SOLID FLASHTM, SPOCTM, StrongIRFETTM, SupIRBuckTM, TEMPFETTM, TRENCHSTOPTM, TriCoreTM, UHVICTM, XHPTM, XMCTM.
Trademarks updated November 2015
Other Trademarks All referenced product or service names and trademarks are the property of their respective owners.
Edition 2019-09 Published by Infineon Technologies AG 81726 Munich, Germany
© 2019 Infineon Technologies AG. All Rights Reserved.
Do you have a question about any aspect of this document? Email: erratum@infineon.com
Document reference Doc_Number
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