Summary of Contents for Infineon Aurix TC275 Lite Kit 1 Series
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Eva lua t io n Bo ar d For Aurix™ TC275 Aur ix ™ TC2 75 Li te Ki t Kit Version 1.1 Board Us er ‘s Ma nu al Revision 01. June, 2020 M ic ro con tr o lle r...
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Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system.
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Aurix™ Lite-Kit V1.1 Revision History Page or Item Subjects (major changes since previous revision) Revision 2020, Initial relased Version is V1.1 June Trademarks of Infineon Technologies AG AURIX™, C166™, CanPAK™, CIPOS™, CIPURSE™, EconoPACK™, CoolMOS™, CoolSET™, CORECONTROL™, CROSSAVE™, DAVE™, EasyPIM™, EconoBRIDGE™, EconoDUAL™, EconoPIM™, EiceDRIVER™, eupec™, FCOS™, HITFET™, HybridPACK™, I²RF™, ISOFACE™, IsoPACK™, MIPAQ™,...
Debugging and USB Communication ................14 USB Connector ........................ 14 Serial Connection to PC ....................14 Bootmode ......................... 14 Config Signals ........................15 Infineon DAP Debug Connector (10-pin) ................15 miniWiggler JDS ....................... 16 Reset ..........................16 CAN Transceiver ......................16 Schematics ........................17 List of Material ........................
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Aurix™ Lite-Kit V1.1 Table of Contents List of Tables Table 1 Overview of the Board Specification .................. 6 Table 2 Signal mapping of the 0 Ohm Pin Bridges ............... 12 Aurix™ Pin Mapping for User LEDs ................. 13 Table 3 Table 4 Debugger Pin Mapping for User LEDs ................
32-Bit Single-Chip Aurix™ TriCore™-based Microcontroller Aurix™ TC275 from Infineon Technologies AG. It can be used with a range of development tools including Infineon’s free of charge Eclipse based IDE Aurix™ Development Studio or the Eclipse based “FreeEntryToolchain” from Hitecs/PLS/Infineon. Aurix™...
Aurix™ Lite-Kit V1.1 Hardware Description 1) Address range starts at lowest address defined in the User’s Manual. For reference see the Memory Maps chapter of the User’s Manual. 2) To ensure the processor cores are provided with a constant stream of instructions the Instruction Fetch Units will speculatively fetch instructions from the up to 64 bytes ahead of the current PC.
Aurix™ Lite-Kit V1.1 Hardware Description Hardware Description The following chapters give a detailed description of the board hardware and how it can be used. The different assembly versions of the kits series are shown in Figure 2. Figure 2 Aurix™ TC275 Lite Kit Board View from the Top Power Supply The Aurix™...
Aurix™ Lite-Kit V1.1 Hardware Description Figure 3 Power Supply Concept Option 4: Note that for this option, the CAN Tranceiver is not working. By desoldering the resitstor R27 (size 0805 imp), you can use an external +3V3 source on either one of the VEXT pins at X1, X2 connectors or the +3V3 pin on the X302 Arduino power connector, to power the board.
Aurix™ Lite-Kit V1.1 Hardware Description Pinout of X1 and X2 connectors The pin headers X1 and X2 can be used to extend the evaluation board or to perform measurements on the Aurix™ TC275. Figure 4 shows the available GPIOs / signals at these pin headers. The pin table is also printed onto the bottom side of the PCB.
Aurix™ Lite-Kit V1.1 Hardware Description Shield2Go and MikroBus™ Pinout The pin connectors for the Shield2Go Connectors 1 and 2 and the mikroBus™ can be used to extend the evaluation board or to perform measurements on the Aurix™ TC275. Figure 5 shows the available signals at these connectors.
Aurix™ Lite-Kit V1.1 Hardware Description Solderable Pin Bridges Some resistor bridges enable/disable or changing functions of specific signals in Table 2. To disable the signals, the resistors have to be removed. To enable, the resistor has to be assembled. For example: Desoldering the intialy assembled resistor R33, disables the Potentiometer and the analog Signal AN0 of the Aurix, making it usable for other purposes.
Aurix™ Lite-Kit V1.1 Hardware Description Figure 6 Mapping of Arduino Functions to Aurix™ Pin Functions The Aurix™ TC275 Lite-Kit works with 3.3V logic levels. Therefore, any board that works with 5V logic levels, cannot be used. Analog input signals ADC0-5 are limited to a voltage which is smaller or equal than VAREF2 with VAREF2 = VDDM = 3.3V.
Aurix™ Lite-Kit V1.1 Hardware Description Table 4 Debugger Pin Mapping for User LEDs Name Debugger Pin Color Active ADBUS7 green Low-active (pull against GND) ADBUS4 green Low-active (pull against GND) Aurix™ Push Buttons and Potentiometer Table 5 Name Aurix™ Pin Active Button1 P00.7...
P10.6 HWCFG5 (see boot configuration Table 6) Infineon DAP Debug Connector (10-pin) Infineon’s 10-pin Device Access Port Debug Connector (DAP) is a two-wire tool access port for microcontrollers and similar devices. It allows robust high speed connections over a long cable for automotive applications. The...
TLE9251V is the latest Infineon high-speed CAN transceiver generation, used inside HS CAN networks for automotive and also for industrial applications. It is designed to fulfill the requirements of ISO 11898-2 (2016) physical layer specification and respectively also the SAE standards J1939 and J2284. The CAN buses (signals CANH, CANL) are terminated with by a 120Ohm resistor.
Aurix™ Lite-Kit V1.1 Hardware Description Table 9 CAN Signals and Aurix™ TC275 Pin Mapping Aurix ™Pin, Aurix™ Function Pin No. at CAN Pin Ass. Reg./ Signal Header I/O Line Name CANH CANL CAN_TX P20.8, CAN node 0 output TXDCAN0 CAN_RX - P20.7, CAN node 0 input RXDCAN0B Schematics...
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