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TRANSCRIPT
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User’s ManualV 1.0 2015-04
Microcontrol lers
32-BitMicrocontroller
Application Kit TC2X7Hardware: APPLICATION KIT TC2X7 V1.XHardware Manual
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Edition 2015-04Published byInfineon Technologies AG81726 Munich, Germany© 2015 Infineon Technologies AGAll Rights Reserved.
Legal DisclaimerThe information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights of any third party.
InformationFor further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon Technologies Office (www.infineon.com).
WarningsDue to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office.Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.
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http://www.infineon.com
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User’s ManualV 1.0 2015-04
Microcontrol lers
32-BitMicrocontroller
Application Kit TC2X7Hardware: APPLICATION KIT TC2X7 V1.XHardware Manual
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Application Kit TC2X7Hardware Manual
User’s Manual V 1.0, 2015-04
TrademarksTriCore® is a trademark of Infineon Technologies AG.
Application Kit TC2X7 User’s Manual
Revision History: V 1.0 2015-04Previous Versions: V0.1Page Subjects (major changes since last revision)all changed to V1.0––
We Listen to Your CommentsAny information within this document that you feel is wrong, unclear or missing at all?Your feedback will help us to continuously improve the quality of this document.Please send your proposal (including a reference to this document) to:[email protected]
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mailto:[email protected]
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Application Kit TC2X7Hardware Manual
Table of Contents
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1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
2 Application Kit Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12.1 Summary of Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12.2 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32.3 Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
3 Application Kit Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.1 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.1.1 Power via supply connector (X101) . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.1.2 Power via Micro USB (BU301) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.1.3 Multi Voltage Safety Micro Processor Supply TLF35584QV . . . . . . . . 3-13.2 Real Time Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23.3 XGA Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23.3.1 Write a display register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33.3.2 Read a display register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33.3.3 Touch controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.4 Micro SD card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.5 LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.6 Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.7 USB Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.7.1 Serial Connection to PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.7.2 miniWiggler JDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.8 Beeper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-53.9 MultiCAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.10 LIN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.11 Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.12 Core current measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.13 Other peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.14 Toggle LED’s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-63.15 Debug System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-73.15.1 OCDS1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7
4 Signal Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
5 Connector Pin Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.1 IO Connectors TC237 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.2 IO Connectors TC267, TC277, TC297 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-25.3 Power connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-25.4 USB connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-35.5 CAN connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-35.6 LIN connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4
User’s Manual L-1 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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5.7 OCDS connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-45.8 Ethernet Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-55.9 DAP connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-5
6 Schematic and Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16.1 Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16.1.1 Known problems/differences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16.2 Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-66.3 Layout with Dimensioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-8
User’s Manual L-2 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
List of Figures
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Figure 2-1 Application Kit TC2X7 Block Schematic . . . . . . . . . . . . . . . . . . . . . . 2-3Figure 2-2 Applcation Kit TC2X7 V1.X Top Placement. . . . . . . . . . . . . . . . . . . . 2-4Figure 2-3 Applcation Kit TC2X7 V1.X Bottom Placement . . . . . . . . . . . . . . . . . 2-5Figure 5-1 IO Connectors TC237- Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1Figure 5-2 IO Connectors TC267, TC277, TC297 - Pinout . . . . . . . . . . . . . . . . . 5-2Figure 5-3 Power connector pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2Figure 5-4 USB connector Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3Figure 5-5 CAN connector pinout (IDC10) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3Figure 5-6 LIN connector pinout (IDC10) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4Figure 5-7 OCDS connector pinout (IDC16) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4Figure 5-8 Ethernet connector pinout (RJ45) . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-5Figure 5-9 DAP connector pinout (FTSH10) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-5Figure 6-1 Schematic - Project . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2Figure 6-2 Schematic - CPU and Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . 6-3Figure 6-3 Schematic - Peripherals. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4Figure 6-4 Schematic - miniWiggler JDS and OCDS1 . . . . . . . . . . . . . . . . . . . . 6-5Figure 6-5 Component Plot Top Layer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6Figure 6-6 Component Plot Bottom Layer. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-7Figure 6-7 Dimensioning (mm) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-8Figure 6-8 Dimensioning (mil) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-9
User’s Manual L-3 V 1.0, 2015-04
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User’s Manual L-4 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
List of Tables
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Table 4-1 Power Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1Table 4-2 Reset Signals. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1Table 4-3 Interrupt Signals. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1Table 4-4 Clock Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2Table 4-5 Debug Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2Table 4-6 Peripheral Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
User’s Manual L-5 V 1.0, 2015-04
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User’s Manual L-6 V 1.0, 2015-04
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User’s Manual -7 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Introduction
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1 IntroductionWe congratulate you on your purchase of the TriCore Evaluation Board. This kit is aversatile tool, providing quick access to the capabilities of TriCore's powerfularchitecture.Applications can be developed easily. The Application Kit is equipped with a variety ofperipherals for connection to the environment. There is also an interface for the On ChipDebugging Features.The Application Kit allows easily the development of TriCore applications with thecorresponding tools.Subsequently, the applications can be downloaded and can be tested with the powerfuldebugger software.This Application Kit Hardware Manual familiarizes you with the TriCore Evaluation Boardand guides you through the initial configuration of the Application Kit. For detailed technical information about the TC2X7 (e.g. TC237, TC267, TC277, TC297)please refer to the User Manual of the device.
User’s Manual 1-1 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Introduction
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User’s Manual 1-2 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Application Kit Features
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2 Application Kit Features
2.1 Summary of Features– Infineon’s TC2X7 (TC237, TC267, TC277, TC297) Controller in LFBGA-292
Package– LCD XGA Display 320x240– SD card slot (mini SD)– High Speed CAN Transceivers– USB to UART bridge– Ethernet Gigabit PHY (if Ethernet supported by assembled CPU)– LIN Transceiver– Crystal 20MHz (default) or External Clock– USB miniWiggler JDS for easy debugging– 4 Low Power Status LEDs– RTC with alarm– Acoustic beeper– 100mm x 100mm
Connectors The Application Kit TC2X7 offers a wide variety of connectors:
– Standard power connector– Micro USB connector for ASC Interface (ASC0) and miniWiggler– RJ45 connector for Ethernet (if Ethernet supported by assembled CPU)– 16-pin header for JTAG interface (OCDS)– 10-pin header for DAP– 10pin (2x5) Header for LIN Transceiver (LIN)– 10pin (2x5) Header for CAN High Speed Transceiver (CAN0)– two 40-pin connectors with I/O signals– mini SD card slot
Components – Infineon’s Multi Voltage Safety Micro Processor Supply TLF35584QV– LED to validate power supply (5V or 3,3Volt)– LED indicating RESET (ESR0) active state– LED indicating activ miniWiggler JDS– LED switched via DAS software– Infineon’s High Speed CAN-Transceiver TLE 7250 GVIO– Infineon’s LIN-Transceiver TLE 7259-3GE– QSPI Real-Time Clock/Calendar with SRAM and unique MAC Id MCP79511 (only
with TC237)
User’s Manual 2-1 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Application Kit Features
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– I2C Real-Time Clock/Calendar with SRAM and unique MAC Id MCP79411 (notwith TC237)
– USB to UART bridge FT2232HL (FTDI)– Single Port Gigabit Ethernet PHY PEF7071 (LANTIQ, if Ethernet supported by
assembled CPU)– Touch screen controller ADS7843– 4 general purpose LEDs– Reset switch– Wake switch– Xilinx CPLD XC9572XL
User’s Manual 2-2 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Application Kit Features
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2.2 Block Diagram
Figure 2-1 Application Kit TC2X7 Block Schematic
MicroUSB miniWiggler
OCDS1
USB
XTAL
CAN Transceiver
TxCAN0
RxCAN0 TC2X7(TC237, TC267, TC277, TC297)TriCore
CPU
PLLCAN0
TX0
RX0
4 LED’s (P13.0 up to
P13.3)
Multi Voltage Safety Micro Processor Supply
TLF35584QV
RMII PHYTwisted Pair
RJ45
LIN LIN
Transceiver
TX1
RX1
Mic
ro
SD
Car
d
QSPI0 Serial to Parallel
converter
XGA Display320x240
with touch
QSPI1
Acoustic Beeper
P33.
0
RTCQSPI3 or I2C
P33.7
WAKEUPWAKE
QSPI2
QS
PI2
User’s Manual 2-3 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Application Kit Features
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2.3 Placement
Figure 2-2 Applcation Kit TC2X7 V1.X Top Placement
DAP
1
1
1APPLICATION KIT TC2X7 V1.X
CAN
0
POW
ER
+5,5
V...+
40V
1
1
L1
RUN
1
ETH
LIN
ACT
JTAG
11
INFINEON
USB
SDC
ARD
TECHNOLOGIES AG
U10
1
U103
X302
X202
F
X205
X103
X102
X101
U10
2
+
LS10
1
L102
L101 C
114
C107
X301
X201
U301D302
BU301
D301
C20
9
U203
X203
F
X204
U201
-+
BT101
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Application Kit TC2X7Hardware Manual
Application Kit Features
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Figure 2-3 Applcation Kit TC2X7 V1.X Bottom Placement
SS2
L4
WAKE
V_UC
/PORST
P13.3
P13.0
P13.1
P13.2
ESR01
LCD201
D104
S102
S101
D11
0D
109
D10
8D
107
D10
6
D105
User’s Manual 2-5 V 1.0, 2015-04
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Application Kit Features
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User’s Manual 2-6 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Application Kit Information
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3 Application Kit Information
3.1 Power SupplyThe microcontroller needs 3 different supply voltages. This voltages are generated viaInfineon’s Multi Voltage Safety Micro Processor Supply TLF35584QV (+3,3V and +5Vvolt for ADC and CAN) and via the microcontroller itself (+1,3V). Applying a stable supply voltage causes the power on reset after a short period. TheLED' (V_UC) indicate the status of the cpu voltage.The board can be powered directly by USB or by the power connector. In case that thevoltage on the power connector is higher than the 5V from the USB then the board ispowered by power connector.A manual power on reset is executed by pressing the reset button.
3.1.1 Power via supply connector (X101)The Board has to be connected to a +5,5V to +40V DC power supply. A supply with 6V and 500mA is sufficient. The pinout for the supply connector is shownin Figure 5-3. There can be used any standard power pack with a connector where thepositive line is surrounded by the ground line.
3.1.2 Power via Micro USB (BU301)The Board can also be powered by the Micro USB connector. The power consumptionof the board is approx. 400mA with TC237. Other CPUs like TC297 has a higherconsumption. Use an USB port which can deliver 500mA (USB 2.0) or better 900mA(USB 3.0). Most USB hubs are not able to drive more than 100mA and can’t be used. Also it is possible to power the board with a cellular battery charger which has 5V outputand use Micro USB for connecting.The pinout for the USB connector is shown in Figure 5-4.
3.1.3 Multi Voltage Safety Micro Processor Supply TLF35584QVThe board has assembled the Safety Micro Processor Supply with the followingFeatures:• High efficient multi voltage power supply chip• Serial step up and step down pre regulator for wide input voltage range from 3.0 to
40 V with full performance and low over all power loss• Low drop post regulator 5.0V/200mA for communication supply (named LDO_Com)• Low drop post regulator 3.3 V/600 mA (VS2) or 5.0V/600mA (VS1) for μC supply
(named LDO_μC)
User’s Manual 3-1 V 1.0, 2015-04
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Application Kit Information
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• Provides enable, sync out signal and voltage monitoring (inside device to be addedto reset function) for an optional external post regulator for core supply (not used)
• Voltage reference 5.0 V +/- 1% for ADC supply, 150 mA current capability (namedVolt_Ref)
• Two trackers for sensor supply following voltage reference 150 mA current capabilityeach (named Tracker 1 and Tracker 2, not used)
• Standby regulator 3.3 V/10 mA (VS2) or 5.0 V/10 mA (VS1) (named LDO_Stby)• Independent voltage monitoring block with reset function• Configurable functional and window watchdog• 16-bit SPI• Safe state control with two safe state signals with programmable delay• Input voltage monitoring (over voltage switch off)• Green Product (RoHS compliant)• ISO26262 compliant• AEC QualifiedThe TLF35584 is connected to the CPU via QSPI2 and use QSPI2_SLSO1 (P14.2) aschip select. Via this spi connection the power supply will be configured (Watchdog,device states and soon).For more information see the data sheet of TLF35584. Because the TC237 is a 3,3Vdevices we use the 3,3V version of the TLF35584 (VS2). All other CPUs are working with5V and we use the 5,0V version of the TLF35584 (VS1).
3.2 Real Time ClockThe board is equipped with a RTC MCP79511 (if with TC237) or MCP79411 (if with allother CPUs) from Microchip. The device is powered from the standby voltage of theTLF35584 and is also powered when the TLF35584 is switched to standby mode. Forbackup when the TLF35584 is not powered then there is a small battery to hold the valueinside the RTC. The MCP79511 is connected to the microcontroller via QSPI3, theMCP79411 is connected to the microcontroller via I2C on P15.4/P15.5. The RTC cantrigger an SCU_REQ8 (P33.7) interrupt (activ high) with the alarms. Also an alarm fromthe RTC will wake-up (switch on) the board if the board is powered and the supply isswitched off. The MCP79511/MCP79411 contains also an unique ID in the format EUI-48. This id canbe used as mac id for ethernet if the assembled CPU support ethernet.For more information about the RTC please see the datasheet ofMCP79511/MCP79411.
3.3 XGA DisplayThe board has an XGA Display with a resolution of 320x240. The display has an ILI9341display controller. Please see the datasheet of the display controller for the register of
User’s Manual 3-2 V 1.0, 2015-04
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the controller. The display is connected to the the microcontroller via an SPI to Parallelconverter (U201).The SPI to Parallel converter is based on a statemachine. This state machine is clockedwith the clock of SPI, here SCLK0 (P20.11). Each rising edge of P20.11 will change thestate of statemachine. When SLSO08 (P20.6) is not low then the state machine will goalways in the idle state with a valid clock edge.
3.3.1 Write a display registerA single write to any register can be done by a 32 bit transfer of SPI. Make sure that theSLSO08 is low during this 32 bit. Bit 31 must be transfered first.Bit 31 must be 0, this will be indicate a write access.Bit 30 must be 0, this will be indicate a single access.Bit 29...Bit 22 is the 8 bit register number which will be writtenBit 21...Bit 6 is the 16bit value which will be writtenBit 5...Bit 0 are dummy bits which are used to execute the write.To speedup the writing (e.g. write to ram of display controller) it is possible to make aendless transfer. This is done by this:first 10 bit transferBit 9 must be 0, this will be indicate a write access.Bit 8 must be 1, this will be indicate an endless transfer.Bit 7...Bit 0 is the 8 bit register number which will be writtenNow you need to transfer only 16bit values for the registers. With the first 16 bit valuethere is no action on the display. With the second value transfer is a write to the registerstarted. This means after the last value you must make a dummy transfer to write the lastvalue. The endless mode can only be leave by a rising edge of SCLK0 with SLSO08 set to high.This can be done by a dummy transfer to any other chip select or by a transfer from thetouch controller.
3.3.2 Read a display registerA single read from any register can be done by a 32 bit transfer of SPI. Make sure thatthe SLSO08 is low during the complete transfer.first transfer has 16 bit:Bit 15 must be 1, this will be indicate a read access.Bit 14 must be 0, this will be indicate a single access.Bit 13...Bit 7 is the 8 bit register number which will be readBit 5...Bit 0 are dummy bits to setup the register number.
User’s Manual 3-3 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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second transfer must have 26 bits:Bit 25...Bit 16 are dummy bits which are needed to readout the register valueBit 15...Bit 0 are dummy bits to transfer the readed value.To speedup the reading (e.g. reading from ram of display controller) it is possible to makea endless transfer. This is done by this:first 16 bit transfer:first transfer has 16 bit:Bit 15 must be 1, this will be indicate a read access.Bit 14 must be 1, this will be indicate an endless access.Bit 13...Bit 7 is the 8 bit register number which will be readBit 5...Bit 0 are dummy bits to setup the register number.second 10 bit transfer:Bit 9...Bit 0are dummy bits which are needed to readout the register valueNow you need to transfer only 16bit values for the registers. With the each 16 bit transferyou get a value. With the last transfer you have dummy read which you don’t get theresult. The endless mode can only be leave by a rising edge of SCLK0 with SLSO08 set to high.This can be done by a dummy transfer to any other chip select or by a transfer from thetouch controller.
3.3.3 Touch controllerThe touch of display is connected to an Touch controller ADS7843. This controller isconnected via the QSPI0 and SLSO9 to the microcontroller. For more information aboutthe delivered values from the touch controller please see the datasheet of ADS7348.
3.4 Micro SD cardThe board has a slot to use the board with an micro SD card. The card will be used inSPI mode only. The SD is connectred to QSPI1 with chip select 9 (P10.5) of QSPI1.Please see additional literature how to use a SD card in SPI mode.
3.5 LEDsThere are 8 LEDs on board:
– D107 up to D110 (blue) -> toogle LEDs connected to P13.0 ... P13.3– D106 ESR0 (red) -> RESET LED indicate the reset state of the board– D105 V_UC (green) -> V_UC power supply indication– D104 SS2 (green) -> safe state signal 2 of TLF35584– D302 ACT (green) -> on board miniWiggler JDS is ACTIV
User’s Manual 3-4 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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– D301 RUN (blue) -> Debug RUN mode (switched by DAS Server)
3.6 ClockOn the board is a fixed crystal wiith 20MHz assembled. You can change this by replacingY101 (soldered).
3.7 USB ConnectorThe USB connector is used for connection to a PC. Via the USB it is possible to powerthe board, using the ASCLIN0 as serial connection via USB and Debugging via DAS. Forthe pinout of USB socket see Figure 5-4.NOTE: Before connecting the board to the PC, make sure that the actual DAS softwareis installed on the PC. For actual DAS software please contact your local FAE.The software can also be found on the
DAS website
3.7.1 Serial Connection to PCAfter 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 tocommunicate with the board via ASC0 of the device (e.g. bootstrap loader).
3.7.2 miniWiggler JDSThe miniWiggler JDS is a low cost debug tool which allows you access to the JTAG ofthe device. Make sure that you have the latest DAS release. Debugging is possible viathe 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 workingconnection is visible via the green ACTIV LED.The status RUN LED is switched on/off through the DAS Server, depending on the useddebugger (client).IMPORTANT: Make sure that there is no or a tristated connection on X301 (OCDS1) ifthe ACTIV LED is on.
3.8 BeeperThe board has an electro-acoustic transducer which can be used for an acoustic output.The transducer is connected to pin P33.0 and needs a 2048Hz frequency.
User’s Manual 3-5 V 1.0, 2015-04
http://www.infineon.com/das
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Application Kit TC2X7Hardware Manual
Application Kit Information
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3.9 MultiCANOn the board is oneCAN transceiver connected to the MultiCAN on TC2X7 node 0. Thetransceiver is connected to an IDC10 plug. For the pinout of IDC10 plug see Figure 5-5.You can use a IDC female connector with crimpconnector, flat cable and SUB-D 9 plugwith crimpconnector to have a 1:1 adapter to SUB-D 9.
3.10 LINOn the board is one LIN transceiver connected to the ASCLIN1 on TC2X7. Thetransceiver are connected to one IDC10 plug. For the pinout of IDC10 plug seeFigure 5-6. You can use a IDC female connector with crimpconnector, flat cable andSUB-D 9 plug with crimpconnector to have a 1:1 adapter to SUB-D 9.
3.11 EthernetThe Application Kit provide a RJ45 connector (X204) for twisted pair ethernetconnections.The board use a Lantiq Giagabit PHY PEF7071 as physical interfacedevice. Note: The parts for ethernet are not assemled if the assembled CPU (TC237L) don’t
support ethernet.
For more information about the ethernet modul see TC2X7 User’s Manual, about thePHY see the PEF7071 datasheet. For the pinout of RJ45 see Figure 5-8.
3.12 Core current measurementIt is possible to measure the core (+1,3V) current with two ADC pins of the CPU. Thiscan be done by synchronous measurement of AN5 and AN17 with TC237. For all otherCPUs this can be done by synchronous measurement of AN6 and AN22. The pins areconnected togheter by an 50mOhm resistor. The current can be calculated by thefollowing formula:Icore = (VAN10 - VAN22) / 0,05. To get an valid result the measurement must be donesynchronous.
3.13 Other peripheralsFor all other peripherals there are no special plugs on the board. Many of the peripheralsignals are available on the two standard connectors X102 and X103. See “ConnectorPin Assignment” on Page 5-1.
3.14 Toggle LED’sPort 13 pin 0 up to pin 3 are connected to single LED’s (D107... D110) and can becontrolled by Software. This status LED’s are low active.
User’s Manual 3-6 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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3.15 Debug System
3.15.1 OCDS1The OCDS1 signals are connected to the IDC16 plug (X301). They work with the portsupply of +3.3V. For pinout of the connector see Figure 5-7. You can connect anydebugger to this connector. f you connect a debug hardware make sure that the miniWiggler JDS (see “miniWigglerJDS” on Page 3-5) is not activ (ACTIV LED is off).If the ACTIV LED is on, then stop the active DAS Server ’UDAS’ and/or remove the USBconnection to the PC.
User’s Manual 3-7 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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User’s Manual 3-8 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Signal Description
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4 Signal DescriptionFor more information about the signals please see the user manuals for TC2X7 and/orthe schematics of the board.
Table 4-1 Power SignalsShort Name DescriptionVCC_IN Supply Input (5,5V...50V(40V))VIN Input voltage of power supply deviceGND GroundVDD Core Supply Voltage (1,3V)V_UC Port Supply Voltage (5V or 3,3V)VSSOSC Oscillator GroundVSSM ADC Analog Part GroundVDDM ADC Analog Part Supply Voltage (VREF_5V or 3,3V)VAGND1 ADC Reference Ground 1VAREF1 ADC Reference Voltage 1 (VREF_5V or 3,3V)VAGND2 ADC Reference Ground 2VAREF2 ADC Reference Voltage 2 (VREF_5V or 3,3V)VDD_FT Supply Voltage FT2232HL device (3,3V)VDD_USB USB Supply Voltage (5V)
Table 4-2 Reset SignalsShort Name Description/PORST Power On Reset/ESR0 External Service Request 0 (Hardware Reset)/ESR1 External Service Request 1 (Non Maskable Interrupt)
Table 4-3 Interrupt SignalsShort Name DescriptionREQ1 / P15.8 External Trigger Input 1REQ3 / P10.3 External Trigger Input 3REQ5 / P10.8 External Trigger Input 5REQ8 / P33.7 External Trigger Input 8 (RTC alarm activ)
User’s Manual 4-1 V 1.0, 2015-04
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REQ9 / P20.0 External Trigger Input 9(Touch acttiv)REQ11 / P20.9 External Trigger Input 11 (MD Interrupt)
Table 4-4 Clock SignalsShort Name DescriptionXTAL1 Crystal Oscillator InputXTAL2 Crystal Oscillator Output
Table 4-5 Debug SignalsShort Name Description/TRST Test ResetTCK / DAP0 Test Clock / Device Access Pin 0TMS / DAP1 Test Mode Select / Device Access Pin 1TDI / P21.6 Test Data InputTDO / P21.7 Test Data Output/TESTMODE / P20.2 Test Mode Select Input
Table 4-6 Peripheral SignalsShort Name DescriptionP14.1 Receive Data ASCLIN0P14.0 Transmit Data ASCLIN0P15.1 Receive Data ASCLIN1P15.0 Transmit Data ASCLIN1SCLK0 / P20.11 Clock Line SSC0MRST0A / P20.12 Master Receive / Slave Transmit QSPI0MTSR0 / P20.14 Master Transmit / Slave Receive QSPI0SLSO08 / P20.6 Slave Select Output 8 (QSPI0)SLSO09 / P20.3 Slave Select Output 9 (QSPI0)SCLK1 / P10.2 Clock Line QSPI1MRST1A / P10.1 Master Receive / Slave Transmit QSPI1MTSR1 / P10.3 Master Transmit / Slave Receive QSPI1SLSO19 / P10.5 Slave Select Output 9 (QSPI1)SCLK2 / P15.3 Clock Line QSPI2
Table 4-3 Interrupt Signals
User’s Manual 4-2 V 1.0, 2015-04
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Signal Description
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MRST2B / P15.7 Master Receive / Slave Transmit QSPI2MTSR2 / P15.5 Master Transmit / Slave Receive QSPI2SLSO21 / P14.2 Slave Select Output 1 (QSPI2)SCLK3 / P22.3 Clock Line QSPI3MRST3E / P22.1 Master Receive / Slave Transmit QSPI3MTSR3 / P22.0 Master Transmit / Slave Receive QSPI3SLSO313 / P23.1 Slave Select Output 13 (QSPI3)P15.4 I2C Clock (not with TC237)P15.5 I2C Data (not with TC237)P20.8 CAN Transmitter Output 0P20.7 CAN Receiver Input 0P21.2 Ethernet MDCP21.3 Ethernet MDIOP11.2 Ethernet TXD1P11.3 Ethernet TXD0P11.6 Ethernet TXENP11.9 Ethernet RXD1P11.10 Ethernet RXD0P11.11 Ethernet CRSDIVP11.12 Ethernet REFCLKANx Analog Input x for all TC2X7ANx(y) Analog Input y for TC237 and Analog Input x for all othersP33.0 Beeper output (2048Hz)P13[0...3] On board LED’s
Table 4-6 Peripheral Signals
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User’s Manual 4-4 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Connector Pin Assignment
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5 Connector Pin AssignmentThe Application Kit will be shipped with two 40 pin male (plug) connectors on top layerwith a standard grid of 2,54mm.
5.1 IO Connectors TC237
Figure 5-1 IO Connectors TC237- Pinout
VCC_IN 1 2 V_UC (+3V3) VCC_IN 1 2 V_UC (+3V3)GND 3 4 GND GND 3 4 GNDAN10 5 6 AN9 P33.10 5 6 P33.9AN16 7 8 AN15 P14,8 7 8 P14.7AN3 9 10 AN2 P14,6 9 10 P10.6AN1 11 12 AN0 11 12 P11.8P33.5 13 14 P33.4 P02.0 13 14 P02.1P33.3 15 16 P33.2 P02.2 15 16 P02.3P33.1 17 18 P33.12 P02.4 17 18 P02.5P33.8 19 20 P33.6 P02.6 19 20 P02.7P34.0 21 22 P34.1 P02.8 21 22 P00.0P34.2 23 24 P34.3 P00.1 23 24 P00.2P22.4 25 26 P33.11 P00.3 25 26 P00.4P22.0 27 28 P22.1 P00.5 27 28 P00.6P22.2 29 30 P22.3 P00.7 29 30 P00.8P15.2 31 32 P15.3 P00.9 31 32 P21.4P15.4 33 34 P15.5 P21.5 33 34 P00.12P15.6 35 36 P15.7 AN21 35 36 AN20P20,9 37 38 P20.10 AN17 37 38 AN13P14.4 39 40 P14.5 AN11 39 40 AN12
X102 X103
User’s Manual 5-1 V 1.0, 2015-04
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5.2 IO Connectors TC267, TC277, TC297
5.3 Power connector pinout
Figure 5-2 IO Connectors TC267, TC277, TC297 - Pinout
Figure 5-3 Power connector pinout
VCC_IN 1 2 V_UC (+5V) VCC_IN 1 2 V_UC (+5V)GND 3 4 GND GND 3 4 GNDAN21 5 6 AN20 P33.10 5 6 P33.9AN33 7 8 AN32 P14,8 7 8 P14.7AN3 9 10 AN2 P14,6 9 10 P10.6AN8 11 12 AN0 P10.7 11 12 P10.4P33.5 13 14 P33.4 P02.0 13 14 P02.1P33.3 15 16 P33.2 P02.2 15 16 P02.3P33.1 17 18 P33.12 P02.4 17 18 P02.5P33.8 19 20 P33.6 P02.6 19 20 P02.7P23.0 21 22 P23.1 P02.8 21 22 P00.0P23.2 23 24 P23.3 P00.1 23 24 P00.2P23.4 25 26 P33.11 P00.3 25 26 P00.4P22.0 27 28 P22.1 P00.5 27 28 P00.6P22.2 29 30 P22.3 P00.7 29 30 P00.8P15.2 31 32 P15.3 P00.9 31 32 P00.10P15.4 33 34 P15.5 P00.11 33 34 P00.12P15.6 35 36 P15.7 AN45 35 36 AN44P20,9 37 38 P20.10 AN17 37 38 AN16P14.4 39 40 P14.5 AN25 39 40 AN24
X102 X103
+5,5V… +40V
G ND
User’s Manual 5-2 V 1.0, 2015-04
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5.4 USB connector pinout
5.5 CAN connector pinout
Figure 5-4 USB connector Pinout
Figure 5-5 CAN connector pinout (IDC10)
D+
D-VC
C
GN
DID
2 4 6 8
GN
D
CAN
HC
AN
L
1 3 5 7 9
10
GN
D
User’s Manual 5-3 V 1.0, 2015-04
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5.6 LIN connector pinout
5.7 OCDS connector pinout
Figure 5-6 LIN connector pinout (IDC10)
Figure 5-7 OCDS connector pinout (IDC16)
2 4 6 8
GN
D
BU
S
VIN
opt
1 3 5 7 9
10
GN
DTD
O
2 4 6 8
1 3 5 7 9
10 12 14 16
11 13 15
TDI
/TR
ST
TCK
/BR
KIN
TMS
GN
D
GN
D
/PO
RST
/BR
KOU
T
GN
D
VDD
P3
User’s Manual 5-4 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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5.8 Ethernet Connector
5.9 DAP connector pinout
Figure 5-8 Ethernet connector pinout (RJ45)
Figure 5-9 DAP connector pinout (FTSH10)
J2J1 J3 J4 J5 J6 J7 J8
DA
P0
2 4 6 8
1 3 5 7 9
10
US
R1_
IO
/PO
RS
T
USR
0_IO
DA
P1
GN
D
GN
D
Key
GN
D
VDD
P3
User’s Manual 5-5 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
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User’s Manual 5-6 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Schematic and Layout
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6 Schematic and Layout
6.1 Schematic
6.1.1 Known problems/differencesOn board version V1.0 are the resistors R147, R148 and R337 assembled via wire wrap.All other components are identically.
User’s Manual 6-1 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Schematic and Layout
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Figure 6-1 Schematic - Project
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Tel.: +49
-89-23
4-0
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Num
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Date:
Sheet:
of
App
lication Kit TC
2X7 Pr
oject O
verview
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G:\T
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2X7\Ap
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2X7 V1
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2X7 V1
1.prj
File:
PORT[00
..34]
/ESR
0
/PORSTCPU
and
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CPU
_supply.sch
PORT[00
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MiniW
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DAP
OCDS.sch
/ESR
0
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..34]
/PORST
User’s Manual 6-2 V 1.0, 2015-04
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Application Kit TC2X7Hardware Manual
Schematic and Layout
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Figure 6-2 Schematic - CPU and Power Supply
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MC ACE PD
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D-855
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Tel.: +49
-89-23
4-0
4
4/9/20
15
Num
ber:
Date:
Sheet:
of
App
lication Kit TC
2X7 CPU
and
Pow
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G:\T
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rd\EDA_
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\App
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2X7\Ap
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2X7 V1
.X\CPU
_sup
ply.sch
File:
VDD / VDDSB
G8
ESR1
G16
ESR0
F16
PORST
G17
VEX
T (V
DDP3
)A2
VDDOSC
3N20
VDD
G13
VGATE
1N (V
CAP0
)Y17
VDDOSC
N19
P32.2 (V
CAP1
)Y18
XTA
L1M20
XTA
L2M19
VSS
OSC
L20
VDD / VDDSB
H7
VDD
H14
VDD
N14
VDD
P13
VDD
N7
VDD
P8
VEX
T (V
DDP3
)B3
VEX
T (V
DDP3
)W20
VEX
T (V
DDP3
)V19
VEV
RSB (V
DDP3
)T1
1
VDDP3
A19
VDDP3
B18
VDDFL
3 (V
DDP3
)D16
VDDFL
3 (V
DDP3
)E1
5
VFL
EX (V
DDP3
)D5
VSS
B2
VSS
D4
VSS
E5
VSS
T16
VSS
U17
VSS
W19
VSS
Y20
VSS
A20
VSS
B19
VSS
D17
VSS
E16
VSS
/ AGBT_
TXN
P10
VSS
/ AGBT_
TXP
P11
VSS
P12
VSS
N9
VSS
P9
VSS
N10
VSS
N11
VSS
N12
VSS
M7
VSS
M8
VSS
M10
VSS
M11
VSS
M13
VSS
M14
VSS
/ AGBT_
CLK
NL7
VSS
L8
VSS
L9
VSS
L10
VSS
L11
VSS
L12
VSS
L13
VSS
/ AGBT_
ERR
L14
VSS
/ AGBT_
CLK
PK7
VSS
K8
VSS
K9
VSS
K10
VSS
K11
VSS
K12
VSS
K13
NC / VDDPS
BK14
VSS
J7VSS
J8VSS
J10
VSS
J11
VSS
J13
VSS
J14
VSS
H9
VSS
H10
VSS
H11
VSS
H12
VSS
G9
VSS
G10
VSS
G11
VSS
G12
VGATE
1P (N
C)
W17
U10
1A
TC2X
7
+3V3
VDDC
B10
1
100n
CB10
2
100n
CB10
3
100n
GND
VDD
VAREF
1
VDDM
CB11
01μ
F
GND
CB11
1
100n
GND
CB10
833
0n
GND
CB10
7
330n
GND
CB10
61μ
F
GND
GND
R10
1
0R
C10
210
pF
C10
110
pF
1 2
Y10
120
MHz
GND
GND
P33.8
P33.9
P33.10
P33.11
R11
64K
7
1
2
X10
1
POWER
VCC_IN D10
1 MSS
2P2 C11
4
100μ
F/40
VCB11
210
0nGND
GND
V_P
RER
EGVIN
GND
VIN
QST
SW1
43
WDI
16QST5
VS1
45
WAK
4
RSH
47
PG1
41VS2
44
VST
2
ENA
3
AG1 6
SW2
42
FRE
24
ROT
17
INT
18
SDO
13
SCL
14
QUC
30
QCO
31
SYN
19
QT1
33
QT2
32
VCI
26
SEC
23
EVC
21
SCS
15
ERR
20
BSG
1RS
L48
STU
25
DRG
46
GND HSSD
I12
SS1
11
SS2
10
QVR
29AG2 7
AG3 8
AG4 28
AGS 9
TM22
GST
27
PG2
40
FB1
34
FB2
35
FB3
36
FB4
37
FB5
38
AG5 39
U10
2*
VREF
_5V
+5V
S102
WAKE
R10
268
0R
S101
RES
ET
GND
R10
4
4K7
R10
510
KC11
54,7μ
F/10
V
GND
GND
V_U
C
R10
31K
V_U
C
GND
GND
C10
8
1μF/10
VGND
C11
3
4,7μ
F/10
V
GND
V_U
C
QT1
QT2
/ESR
0
GND
R11
5
100K
/PORST
GND
X1
1
VCC
10SC
K8
VSS
5
SI6
MFP
9
X2
2VBAT
3
CS4
SO7
U10
4*
12
Y10
2
32.768
Hz
C10
310
pFC10
412
pF
GND
GND
CB11
410
0n
R11
310
K
V_U
C
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 1617 19 21 23 25 27 29
18 20 22 24 26 28 3031
3233
3435
3637
3839
40
X10
2
CON2X
20
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 1617 19 21 23 25 27 29
18 20 22 24 26 28 3031
3233
3435
3637
3839
40
X10
3
CON2X
20
R11
9*
GND
V_U
C D10
5LP
T67
K
GNDR11
822
0R
R11
7
10K
V_U
C
1
3 2
Q10
6BS
S138
N
D10
6LS
T67
K
1
3 2
Q10
3
BSS1
38N
PORT[00
..34]
/PORST
R11
1
10K
R11
2
10K
/ESR
1
P02.0
P02.1
P02.2
P02.3
P02.4
P02.5
P02.6
P02.7
P02.8
P00.0
P00.1
P00.2
P00.3
P00.4
P00.5
P00.6
P00.7
P00.8
P00.9
V_U
CVCC_IN
P00.12
AN45
(21)
AN21
(10)
AN44
(20)
AN20
(9)
AN8(1)
AN25
(11)
GND
P22.3
P22.2
P22.1
P22.0
P23.1
P15.7
P15.6
P33.5
P10.5
P15.2
GND
V_U
CVCC_IN
GND
GND
P14.8
P14.6
P14.5
P14.2
P20.10
P20.9
P33.6
+1
-2
LS10
1
BRT1
615P
-06
+5V
GND
R12
1
10K
R12
3
4R7_
opt
R12
2
4R7
VREF
_5V
AN24
(12)
GND
P10.6
P14.6
R13
410
K_opt
1
3 2
Q10
7BS
S138
N
GND
1
32
Q10
5BS
S83P
GND
BT1
01
BR-122
5/VCN
C11
6 *
P14.4
P14.3
P14.2
P33.1
P33.2
P33.3
P33.4
P23.0
P23.1
P23.2
P23.3
P23.4
P10.6
P10.4
P00.10
P00.11
P10.7
C10
622
μF/10V
C10
9
4,7μ
F/10
VC11
0
4,7μ
F/10
VC11
1
4,7μ
F/10
VC11
2
4,7μ
F/10
V
GND
GND
+3V3
R12
4
0R
QST R11
010
0K
GND
R11
410
K
P33.8
P33.12
P33.7
R12
5
0R_o
ptVREF
_5V
+3V3
R13
110
K_opt
R13
210
K_opt
R14
12K
2
GND
V_U
CV_U
C
1
3 2
Q10
2BS
S138
N
D10
2
SS26
VDD_U
SB
L101
XAL5
050-22
3MEB
L102
XAL4
030-47
2MEC
R13
0 *
4
3
1,2,5,6Q10
1BS
L606
SN
C10
747
μF/40V
GND
GND
GND
D10
3
SS22
VIN
GND
P14.3
GNDR14
22K
2_opt
R12
7opt
R12
80R
GND
+5VCB11
310
0n
R12
9
470R
D10
4
LP T67
KGND
13
D11
1
BAT5
4R13
61K C
118
100pF
GND
P15.3
P15.6
P15.7
P14.7
P15.3
P15.5
P15.4
R13
7
10K
P22.3
P22.0
P22.1
R13
8 1K
P33.9
R13
92K
2
GND
V_U
C
+3V3
CB10
4
1μF
CB10
5
100n
VDD C
105
*
GND
1
6 5
Q10
4A*
3
2 4
Q10
4B*
GND
V_U
C
L103
*
C12
0 *GND
GND
GND
Q1
GND 6
SENSE
/ADJ
2
BYP
4
IN8
EN5
GND HS
U10
3*
GND
V_U
CC11
9*
C11
7*
+3V3
GND
R12
0
*
V_U
C+3
V3
U10
1U10
2TC
237
TC26
7TL
F355
84QVVS2
TLF3
5584
QVVS1
U10
3NA
TLS2
03B0E
JV33
R12
00R
NA
C11
61μ
FNA
C11
7NA
10nF
C11
9NA
10μF
Q10
4NA
BSL2
15C
L103
NA
LTF3
020T
-4R7N
C12
04,7μ
F10
μFC10
510
μF22
μF
R13
033
0mR
330m
R
R11
968
0R1K
5
V_U
C+3
,3V
+5V
P11.6
D9
P11.9
A9
P11.3
B10
P11.11
A8
P11.12
B8
P11.10
B9
P11.2
A10
P02.0
B1
P02.1
C2
P02.2
C1
P02.3
D2
P02.4
D1
P02.5
E2
P00.4
J1
P00.5
J2
P00.12
L2
P00.9
K2
P00.3
H2
P00.0
G1
P10.6 / H
WCFG
5A4
P13.1
A12
P13.0
B12
P13.3
A11
P10.1
B7
P13.2
B11
P10.5 / H
WCFG
4B5
P10.2
A5
P10.3
A6
P00.2
H1
P00.1
G2
P11.8 (N
C)
E7
P00.8
K4
P00.7
K1
P00.6
J4
P02.6
E1
P02.7
F2
P02.8
F1
P11.4 (N
C)
D10
P11.0 (N
C)
E10
P11.1 (N
C)
E9
P11.5 (N
C)
D8
P11.7 (N
C)
E8
P11.13
(NC)
E6
P11.14
(NC)
D7
P11.15
(NC)
D6
P12.0 (N
C)
E12
P12.1 (N
C)
E11
P10.4 (N
C)
B6
P10.0 (N
C)
A7
P10.7 (N
C)
A3
P10.8 (N
C)
B4
P00.10
(NC)
K5
P00.11
(NC)
L1
P02.9 (N
C)
E4
P02.10
(NC)
F5
P02.11
(NC)
F4
P01.3 (N
C)
G5
P01.4 (N
C)
G4
P01.5 (N
C)
H5
P01.6 (N
C)
H4
P01.7 (N
C)
J5
U10
1B
TC2X
7
P15.3
B17
P15.2
C19
P15.5
E14
P20.10
E19
P20.14
C20
P14.1
A15
P14.0
B16
P15.1
A18
P15.0
B20
P20.11
E20
P20.12
D19
P20.13
D20
P20.8
F20
P20.9
E17
P15.4
A17
P20.3
G20
P20.6
F17
P33.5
Y12
P20.7
F19
P21.3
J19
P21.2
K19
P33.7
Y13
P22.3
R19
P33.8
W14
P33.9
Y14
P33.10
W15
P21.4
K20
P33.11
Y15
P21.5
J20
P20.0
H20
P22.0
P20
P22.1
P19
P22.2
R20
P15.8
D14
P15.7
D15
P15.6
A16
P33.12
W16
P23.1
U19
P33.4
W12
P33.6
W13
P14.7
D13
P33.3
Y11
P22.4 (N
C)
P16
P14.8
A13
P33.1
Y10
P33.0
W10
P33.2
W11
P33.13
(NC)
Y16
P23.0 (N
C)
V20
P23.2 (N
C)
U20
P23.4 (N
C)
T20
P23.3 (N
C)
T19
P20.1 (N
C)
G19
P32.3 (N
C)
Y19
P32.4 (N
C)
W18
P32.5 (N
C)
T15
P32.6 (N
C)
U15
P32.7 (N
C)
U16
P23.5 (N
C)
T17
P23.6 (N
C)
R17
P23.7 (N
C)
R16
P33.14
(NC)
T14
P33.15
(NC)
U14
P21.0 (N
C)
K17
P21.1 (N
C)
J17
P22.5 (N
C)
P17
P22.6 (N
C)
N16
P22.7 (N
C)
N17
P22.8 (N
C)
M16
P22.9 (N
C)
M17
P22.10
(NC)
L16
P22.11
(NC)
L17
P14.9 (N
C)
D12
P14.10
(NC)
D11
P34.3 (N
C)
U12
P34.2 (N
C)
T12
P34.4 (N
C)
T13
P34.5 (N
C)
U13
P34.1 (N
C)
U11
U10
1C
TC2X
7
P10.1
P33.12
P00.0
AN1 (P34
.0)
U10
AN2 (AN0 / P
40.0)
W9
AN27
(AN13
/ P4
1.1)
V1
AN5 (AN1 / P
40.1)
Y9
AN8 (AN2 / P
40.2)
W8
AN10
(AN3 / P
40.3)
Y8
AN11
(AN4 / P
40.4)
W7
AN13
(AN5 / P
40.5)
W6
AN16
(AN6 / P
40.6)
W5
AN18
(AN7 / P
40.7)
W4
AN20
(AN9 / P
40.9)
Y3
AN21
(AN10
/ P4
0.10
)Y2
AN37
(AN18
/ P4
1.6)
P2
AN39
(AN19
/ P4
1.7)
P1
AN44
(AN20
/ P4
1.8)
N1
AN45
(AN21
/ P4
1.9)
N2
VAGND1 (V
AGND)
Y7
VAREF
1 (V
AREF
)Y6
VDDM Y5
VSSM Y4
AN28
(AN14
/ P4
1.2)
U2
AN29
(AN15
/ P4
1.3)
U1
AN33
(AN16
/ P4
1.4)
R1
AN35
(AN17
/ P4
1.5)
R2
AN46
(AN22
/ P4
1.10
)M1
AN47
(AN23
/ P4
1.11
)M2
AN19
(AN8 / P
40.8)
W3
AN25
(AN11
/ P4
0.11
)W1
AN26
(AN12
/ P4
1.0)
V2
VAGND2 / N
C (N
C)
T2VAREF
2 / N
C (N
C)
T1
AN0 (N
C)
T10
AN3 (N
C)
U9
AN4 (N
C)
T9
AN6 (N
C)
T8
AN7 (N
C)
U8
AN9 (N
C)
U7
AN12
(NC)
T7
AN14
(NC)
U6
AN15
(NC)
T6
AN22
(NC)
T5
AN17
(NC)
U5
AN23
(NC)
R5
AN24
(NC)
W2
AN30
(NC)
T4
AN31
(NC)
R4
AN32
(NC)
P4
AN34
(NC)
P5
AN36
(NC)
N4
AN38
(NC)
N5
AN40
(AN49
/NC)
M5
AN41
(AN48
/NC)
M4
AN42
(NC)
L5
AN43
(NC)
L4
U10
1D
TC2X
7
AN25
(11)
AN1
VAREF
2
CB10
9
*
GND
VAREF
1
TRST
L19
TCK / DAP0
J16
TMS / D
AP1
K16
P21.6 / T
DI
H17
P21.7 / T
DO / DAP2
H16
P20.2 / T
ESTM
ODE
H19
P14.3 / H
WCFG
3_BM
IB14
P14.4 / H
WCFG
6_HIG
HZ
B15
P14.2 / H
WCFG
2_EV
R13
E13
P14.5 / H
WCFG
1_EV
R33
A14
P14.6 / H
WCFG
0_DCLD
OB13
U10
1E
TC2X
7
P21.6
P21.7
DAP1
DAP0
/TRST
P33.0
/ESR1
/ESR0
/PORST
V_U
C
/PORST
/PORST
P14.5
R14
02K
2
GND
V_U
C
P14.4
GNDR14
32K
2_opt
R13
310
K_opt
P14.3
V_U
C
V_U
CR10
6
* R10
7
* R10
8
* R10
9
*
D10
7 LB T67
3D10
8 LB T67
3D10
9 LB T67
3D11
0 LB T67
3
P13.3
P13.2
P13.1
P13.0
R10
6-10
910
0R47
0RR12
6NA
4R7
AN20
(9)
AN21
(10)
AN45
(21)
AN44
(20)
AN8(2)
AN2(0)
AN27
(13)
AN26
(12)
AN33
(16)
AN17
(14)
AN16
(13)
AN3
AN0
P00.10
P00.11
P21.5
P21.4
P10.4
P11.8
P23.0
AN1
P23.1
P34.1
P23.2
P34.2
P23.3
P34.3
P23.4
P22.4
R13
5
4R7_
opt
R12
6
*
VREF
_5V
+3V3
VAREF
2
AN16
(6)
AN0
AN32
(15)
AN33
(16)
AN2
R14
4*
AN17
(14)
AN28
(14)
AN3
R15
1* A
N8(2)
AN2
AN5(1)
AN10
(3)
AN32
(15)
AN29
(15)
AN24
(12)
AN27
(13)
AN26
(12)
AN16
(6)
AN17
(14)
AN28
(14)
AN32
(15)
AN29
(15)
AN24
(12)
TC27
7TC
297
250m
R
NA
NA
0RNA
0R
R15
0*A
N0
R14
5*A
N8(1)
R15
2*A
N5(1)
R15
3*A
N3
R15
4*
R15
5*
R15
6*A
N2(0)
AN10
(3)
R15
7*
R14
6* A
N16
(13)
P00.1
P00.2
P00.3
P00.4
P00.5
P00.6
P00.7
P00.8
P00.9
P00.12
P02.0
P02.1
P02.2
P02.3
P02.4
P02.5
P02.6
P02.7
P02.8
P14.0
P14.1
P14.7
P14.8
P15.0
P15.1
P15.2
P15.3
P15.4
P15.5
P15.6
P15.7
P15.8
P14.2
P14.3
P14.4
P14.5
P14.6
P20.0
P20.6
P20.7
P20.8
P20.9
P20.10
P20.11
P20.12
P20.13
P20.14
P20.3
P21.2
P21.3
P21.4
P21.5
P22.0
P22.1
P22.2
P22.3
P33.0
P33.1
P33.2
P33.3
P33.4
P33.5
P33.6
P33.7
P33.8
P33.9
P33.10
P33.11
P23.1
P13.0
P13.1
P13.2
P13.3
P11.12
P11.11
P11.10
P11.9
P11.6
P11.3
P11.2
P10.2
P10.3
P10.5
P10.6
R15
8*
R15
9*
R16
0*
R16
1*
R16
2*
R16
3*
R16
4*
R16
5*
P10.4
P11.8
P00.11
P00.10
P23.0
P23.2
P23.3
P23.4
P34.1
P34.2
P34.3
P22.4
R15
0-16
5R14
4-14
6
XTA
L2XTA
L1
P10.7
GND
CB10
9NA
1μF
NA
R16
60R
05
VDD
VDD
AN6(5)
AN6(5)
AN6(5)
X1
1
VCC
8
SCL
6VSS
4
SDA
5MFP
7
X2
2VBAT
3
U10
5*
P15.5
P15.4
QST
QST
MFP
MFP
VBAT
U10
4MCP7
9411
-I/MS
NA
U10
5NA
MCP7
9511
-I/MS
R14
7
2K
V_U
CR14
8
2K
V_U
C
User’s Manual 6-3 V 1.0, 2015-04
-
Application Kit TC2X7Hardware Manual
Schematic and Layout
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:06:
18
Figure 6-3 Schematic - Peripherals
11
22
33
44
55
66
77
88
DD
CC
BB
AA
2Infin
eon Te
chnologies AG
ATV
MC ACE PD
AAm Cam
peon 1-12
D-855
79 Neubiberg
Tel.: +49
-89-23
4-0
4
4/9/20
15
Num
ber:
Date:
Sheet:
of
App
lication Kit TC
2X7 Pe
riph
erals
1.1
Revisio
n:
G:\T
echn
ical_S
uppo
rt\TriCore\TriBoa
rd\EDA_
DXP
\App
lication Kit\Ap
pl Kit TC
2X7\Ap
pl Kit TC
2X7 V1
.X\Peripherals.sch
File:
+5V
R24
8
0R
GND
R24
612
0R
R24
5
0R R24
7
0RGND
2
RXD
4CA
NH
7
TXD
1
VCC
3
CANL
6
INH
8
VIO
5U20
6
TLE7
250G
VIO
R24
40R
V_U
C
1 3 5 7 9
2 4 6 8 10
X20
2
CAN0
GND
PORT[00
..34]
CB22
1
100n
GND
PORT[00
..34]
GND
R24
2
0R
R24
01K
CB22
010
0n
GND
C20
922
μF/40V
GND
P15.0
P15.1
R24
310
K
V_U
C
13
2
D20
1
BAT5
4-04
1 3 5 7 9
2 4 6 8 10
X20
3
LIN1
R24
1
10K
VIN
R23
9
0R_o
pt
GND
GND
V_U
C
VIN
VS
CLKOUT
46
VDDP 2
LED0
24
LED1
23
LED2
22
XTA
L136
XTA
L237
EPAD
HS
TMS
20
TPIAN
27TP
IAP
26
MDIO42
REGO 39
TDI
18
TCK
19
MDINT47 MDC41
TX_CLK / REFCLK9
RSTN
16
TDO
21
PEF7
071
SDA
44SC
L43
TXD014 TXD112 TXD211 TXD310
RXD05 RXD14 RXD23 RXD31 RX_CTL / CRS_DV48
TX_CTL / TX_EN15
RX_CLK6
TPIBN
29TP
IBP
28
TPICN
32TP
ICP
31
TPID
N34
TPID
P33
VDDP 7
VDDC 8
VDDX 13
VDDL 17
VDDH 25VDDH 30VDDH 35
VDDR 38
VDDC 40
VDDP 45
U20
3PE
F707
1
99
22
44
33
55
66
88
LYK
LYK
LYA
LYA
LGA
LGA
LGK
LGK
SHIELD
S
77
SC10
C1
X20
4
RJ45
GND
L201
4,7μ
/0,5A
C20
222
μFC20
333
0pF
GND
GND
+3V3
SDA
5
WP
7VCC
8
SCL
6
GND
4
A2
3
A0
1
A1
2
U20
4
AT2
4C02
AN-10S
J-2.7_
opt
Shield
GND
GND
R22
011
KC20
6opt
GND
GND +3V3
+3V3
GNDC
B21
910
0n_opt
GND
GND
R22
310
0RR22
410
0RR22
516
KR22
616
K
R21
95R
1C20
7opt
C20
8opt
R22
13K
3
R22
211
K
GND
R21
7opt
C20
4 33pF
C20
5 33pF
GND
GND
R23
2
100R
R23
3
100R
R23
4
100R
P11.2
P11.3
P11.6
P11.12
P11.9
P11.10
P11.11
P21.3
P20.9
EN2
INH
8
BUS
6TX
D4
WK
3
RXD
1
VS
7GND
5U20
5
TLE7
259-3G
E R23
0
10K
V_U
C
R23
1
0R
R23
1...R
234 NEX
T TO
CPU
R22
710
0R
C21
01n
GND
P20.7
P20.8
1 3
Y20
1
NX32
25SA
-25M
Hz
TPIA_P
TPIA_N
TPIB_P
TPIB_N
TPIC_P
TPIC_N
TPID
_PTP
ID_N
CB20
8
100n
CB20
9
100n
CB21
0
100n
CB21
1
100n
CB21
2
100n
CB21
3
100n
CB21
4
100n
CB21
5
100n
+3V3
GND
+1V
+1V
CB21
6
100n
CB21
7
100n
CB21
8
100n
GND
R23
7
0R
DB1
1
DB2
2
DB3
3
DB4
4
GND
5
VCC
6
CS7
RS8
WR
9
RD
10
IM0
11
X+
12
Y+
13
X-
14
Y-
15
LEDA
16
LEDK4
17
LEDK3
18
LEDK2
19
LEDK1
20
N.C.
21
DB5
22
RST
31
VCI
32
VCC
33
GND
34
DB10
23
DB11
24
DB12
25
DB13
26
DB14
27
DB15
28
DB16
29
DB17
30
DB6
35
DB7
36
DB8
37
LCD20
1
ELT2
4032
0ATP
D15
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
1
3 2
Q20
1BS
S138
N
GND
GND
+3V3
+3V3
+3V3
/CS_
TFT
/WR
/RD
R20
810
K
R20
7
470R
GND
R20
11K
_opt
R20
20R
+3V3
GND
X+
Y+
X-
Y-
+3V3
GND
VCC
1
BUSY
13
PENIRQ
11
X+
2
GND
6VCC
10
Y+
3
X-
4
Y-
5
IN3
7
IN4
8
VREF
9
DOUT
12DIN
14
CS15
DCLK
16
U20
2
ADS7
843E
CB20
510
0nC20
110
uF
CB20
410
0n
GND
V_U
C
GND
GND
X+
Y+
X-
Y-
P20.3
P20.11
P20.14
P20.12
R20
322
RR20
422
RR20
522
RR20
622
R
CB20
610
0n
GND
RS
IO1
40
IO2
41
IO3
42
IO4/GCK
143
IO5/GCK
244
IO6/GCK
31
IO7
2
IO8
3
IO9
5
IO10
6
IO11
7
IO12
8
IO13
12
IO14
13
IO15
14
IO16
16
IO17
18
IO18
19IO
1920
IO20
21
VCCIO
26
TDI
9
TMS
10
IO0
39
TCK
11
TDO
24
IO33
38
GND
25
IO32
37
IO31
/GTS
136
IO30
/GTS
234
IO29
/GSR
33
IO28
32
IO27
31
IO26
30
IO25
29
IO24
28
IO23
27
IO22
23
IO21
22
VCCINT
35VCCINT
15
GND
17GND
4
U20
1
XC95
72XL-10
VQ44
I
V_U
C
CB20
1
100n
CB20
2
100n
CB20
3
100n
+3V3
GND
/ESR
0_3V
P20.11
P20.14
P20.12
/LCD16
P20.6
D15
D7
D8
D9
D10
D11
D12
D13
D14
D6
D5
D4
D3
D2
D1
D0
/RD
/WR
RS/CS_
TFT
1 32 4 5 6
X20
1
PROG_opt+3V3
GND
/LCD16
/LCD16
/ESR
0
/ESR
0_3V
/ESR
0_3V
/ESR0_3V
1 32 4 5 6 7 8 COM
CD
S
X20
5
MICRO-SD
GND
VDD_S
D
GND
R24
9
680R
C21
110
uF
GND
+3V3
R21
8
0RGND
R228100R R229100R
R23
5
0R
/ESR
0_3V
P10.5
P10.2
P10.3
P10.1
MRST
_SD
/CS_
SDMTS
R_S
D
SCLK
_SD
MRST
_SD
/CS_
SDMTS
R_S
D
SCLK
_SD
P15.8
/CD_S
D
/CD_S
D
R23
8
0R
P20.13
R25
0
4R7
P21.2
P20.0
VS
+3V3
2
6 1
Q20
2ABS
D23
5N5
3 4
Q20
2BBS
D23
5N
GND
GNDR21
010
K
R21
110
K
+3V3
R20
9
10K
/ESR
0
NOT WIT
H TC237L
(except A
DAS device)
User’s Manual 6-4 V 1.0, 2015-04
-
Application Kit TC2X7Hardware Manual
Schematic and Layout
Do
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ed b
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/201
9 14
:06:
18
Figure 6-4 Schematic - miniWiggler JDS and OCDS1
11
22
33
44
55
66
77
88
DD
CC
BB
AA
3Infin
eon Te
chnologies AG
ATV
MC ACE PD
AAm Cam
peon 1-12
D-855
79 Neubiberg
Tel.: +49
-89-23
4-0
4
4/9/20
15
Num
ber:
Date:
Sheet:
of
App
lication Kit TC
2X7 OCDS an
d OnB
oard W
iggler
1.1
Revisio
n:
G:\T
echn
ical_S
uppo
rt\TriCore\TriBoa
rd\EDA_
DXP
\App
lication Kit\Ap
pl Kit TC
2X7\Ap
pl Kit TC
2X7 V1
.X\O
CDS.sch
File:
TMS
1
TDO
3
CPU
CLOCK
5
TDI
7
TRST
9
TCK
11
BRKIN
13
N.C.
15
VCC
2
GND
4
GND
6
PORST
8
BRKOUT
10
GND
12
OCDSE
14
KEY
16
X30
1
OCDS1
+3V3
GND
DAP0
DAP1
/TRST
GND
/PORST
PORT[00
..34]
/PORST
PORT[00
..34]
EECS
63
EECLK
62
EEDATA
61
TEST
13
SUSP
END
36
OSC
I2
DM
7
GND 1
VREG
OUT
49
RES
ET14
AGND 10
OSC
O3
DP
8
REF
6
GND 5
VREG
IN50
GND 11
VCCIO20
GND 15
VCCIO31
ADBU
S016
ADBU
S117
ADBU
S218
ADBU
S319
ADBU
S421
ADBU
S522
ADBU
S623
ADBU
S724
ACBU
S026
ACBU
S127
ACBU
S228
BDBU
S038
BCBU
S048
BDBU
S139
BCBU
S152
BDBU
S240
BCBU
S253
BDBU
S341
BDBU
S443
BDBU
S544
BDBU
S645
BDBU
S746
ACBU
S329
ACBU
S430
ACBU
S532
ACBU
S633
ACBU
S734
BCBU
S354
BCBU
S455
BCBU
S557
BCBU
S658
BCBU
S759
GND 25
GND 35
GND 47
GND 51
PWREN
60
VCORE64
VCORE12
VCORE37
VCCIO42
VCCIO56
VPLL9
VPHY4
U30
1
FT22
32HL
VBUS
1
D+
3D-
2
ID4
GND
5
BU30
1
Micro USB
GND
R30
2
27R
R30
3
27R
R30
4
12K/1%
C30
6
3,3u
F
VDD_F
T
L301
MMZ1
608R
300A
CB30
110
0n
GND
R30
1
1K
CB30
310
0n
CB30
210
0n
CB30
410
0n
C30
110
μ/6V
GND
VDD_F
T
R30
5
10K
R30
7
opt
R30
6
2K2
CB30
610
0n
R30
8
1K_opt
CB30
710
0n
GND
+3V3
ADBU
S0ADBU
S1ADBU
S2ADBU
S3ADBU
S4ADBU
S5ADBU
S6ADBU
S7
ACBU
S0ACBU
S1
ACBU
S3
R30
910
K
+3V3
TMS
/TRST
DAP0
USR
0
/RES
ET
D30
1LB
T67
3
R31
110
0R
VDD_F
T
/PORST
ADBU
S0ADBU
S1
ADBU
S2
ADBU
S3
ADBU
S4
ADBU
S6/TRST
_IN
ACBU
S1ACBU
S5
BDBU
S0BDBU
S1
USR
8
GND
P14.0
R32
01K
V_U
C
DAP1
TDI
/TRST
DAP0
DAP1
P14.1
P14.0
BDBU
S0
BDBU
S1
CB30
910
0n
R31
268
0RD30
2LP
T67
K
VDD_F
T
VDD_F
TR31
4
1K
R31
610
K
R31
8
10K
R31
710
K R31
9
10K
VDD_F
TV_U
C
VDD_F
TV_U
C
R31
510
K
+3V3
R31
010
K
VDD_F
T
R32
1opt
R32
2opt
GND
GND
GND
GND
1 3
Y30
1NX32
25SA
-12M
Hz
C30
4 8pF
C30
5 8pF
VDD_F
T
GND
GND
R32
4
10K
VDD_F
T
GND
VDD_F
T
VDD_F
T
R32
5
10K
OUT
3GND 2
IN1
U30
5TL
E427
4GSV
33
GND
GND
CB31
110
0nCB31
010
0n
CB31
210
0n
GND
GND
C30
24u
7/6V
GND
CB30
510
0n
VDD_F
T
GND
L302
MMZ1
608R
300A
C30
34u
7/6V
GND
CB31
310
0n
GND
GND
VDD_F
T
VDD_F
T
+1V8
/OE
1VCC
5
A2
GND
3Y
4
U30
4
74LV
C1G
125
CB30
8
100n
GND
VDD_F
T
GND
ACBU
S4
ADBU
S1
ADBU
S2
R32
610
K
VDD_F
T
CB31
5
100n
CB31
4
100n
GND
VDD_F
T+3
V3
GND
R32
74K
7
GND
ADBU
S2
ACBU
S3
DIR
5
VCCA
1VCCB
6
A3
GND
2
B4
U30
6
SN74
LVC1T
45DBV
DIR
5
VCCA
1VCCB
6
A3
GND
2
B4
U30
7
SN74
LVC1T
45DBV
CB31
7
100n
CB31
6
100nV
DD_F
T+3
V3
GND
R32
84K
7
GNDG
ND
ACBU
S5
GND
ADBU
S1
ACBU
S5
ACBU
S5ACBU
S4
P21.7
P21.7
P21.6
P21.6
ACBU
S7
ACBU
S7
ACBU
S7ACBU
S3
R31
3
10K
R32
90R
_opt
R33
00R
_opt
ACBU
S4
ORG
6DNC
7
VCC
8CS
1
GND
5
Q4
CLK
2
D3
U30
2
93LC
46B-I/SN
G1
1A1
21Y
118
1A2
41Y
216
1A3
61Y
314
1A4
81Y
412
VCC
20
GND
10
2Y1
9
2Y2
7
2Y3
5
2Y4
3
G19
2A1
11
2A2
13
2A3
15
2A4
17
U30
3
SN74
AHC24
4PW
R33
6
0R
P21.6
R33
5
0R
P21.7
R33
2
0R_o
pt
R32
3
0R_o
pt
FOR USING W
IGGLE
R W
ITH JTA
G:
Assem
ble R32
9-R33
2 an
d R30
8Rem
ove R
333-R33
6
2
61
Q30
1ABS
D23
5N
5
34
Q30
1BBS
D23
5N
2
61
Q30
2ABS
D23
5N
5
34
Q30
2BBS
D23
5N
2
61
Q30
3ABS
D23
5N
5
34
Q30
3BBS
D23
5N
VDD_U
SB
/PORST
R33
310
K
+3V3
/TRST
R33
3 on
ly needed for H
OT Atta
ch via DAP
R33
10R
_opt
R33
40R
ACBU
S2
VREF
1
GND
3
GND
5
KEY
7
GND
9
DAP1
2
DAP0
4
USE
R1
8USE
R0
6
RES
ET10
X30
2
DAP
+3V3
DAP0
/TRST
DAP1
P21.7
/PORST
GND
N.C.
1
VCC
5A
2
GND 3
Y4
U30
8SN
74LV
C1G
07DCK
CB31
8
100n
GND
GND
+3V3
R33
710
K
+3V3
User’s Manual 6-5 V 1.0, 2015-04
-
Application Kit TC2X7Hardware Manual
Schematic and Layout
Do
wn
load
ed b
y m
oh
amed
om
ar.t
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@in
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eon
.co
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9/08
/201
9 14
:06:
18
6.2 Layout
Figure 6-5 Component Plot Top Layer
U10
1
R135
R133
CB1
05
U30
8
U103
R165R164
R163R162
R161
R16
0
R159
R15
8
R15
7
R15
6
R15
5
R15
4
R153 R15
2
R151
R15
0
R146
R145
R14
4
R14
3
R14
0
R126
Q202
CB3
18
CB1
09
CB104
C119
R13
8
R142
R14
1R13
2
X302
R131
X202
R20
9
R23
0Y102
Y101
F
X205
X103
X102
X101
U10
2
R218
R12
5
R124
R12
3
R122
R12
0R
117
R11
6R114
R11
3R112R111
R109 R108
R107 R106
R10
3R
102
R101
Q20
1
Q106+
LS10
1
L102
L101
CB2
01
CB1
14
CB112
CB1
06
CB1
07
CB108
CB1
11
CB110
CB1
03
CB102
CB101
C11
6
C11
4
C108
C110
C109
C107
C10
6
C104 C103
C102
C10
1
CB2
02
U202
X301
X201
R22
8
R24
9
R22
9
CB204
R20
7
R20
6
C201
R20
2
U20
6
R20
3C
B205
R246
R20
1
CB206
R247R245
R244
R24
8CB302
R30
2R
303
R31
0
R31
5 R31
6R
317
R318
R319
R31
4
R320
R312
Q301
Q30
2
Q30
3
Y301
U301
R308
CB3
01
R30
1
D302
L301
BU301
R31
1
C30
2
CB305
R32
3
D301
CB314CB315
CB316CB317
R31
3
R327
R328
R33
6
U30
6
U307
C20
9
C203
D201
L201
R208
R21
0
R239
R241
R21
9
R220
R221
R222R225R226
R23
1
R232
R23
3R
234
R22
7
U203U204
X203
F
X204
Y201
R211
R20
5R
204 CB203
U201
C117
U104
-+
BT101
Q107R134
R