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Phytec phyCORE-TriCore Hardware Manual

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phyCORE-TriCore
Development Board
Hardware Manual
Edition march 2009
A product of a PHYTEC Technology Holding company

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Summary of Contents for Phytec phyCORE-TriCore

  • Page 1 Development Board Hardware Manual Edition march 2009 A product of a PHYTEC Technology Holding company...
  • Page 2 PHYTEC Messtechnik GmbH neither gives any guar- antee nor accepts any liability whatsoever for consequential damages resulting from the use of this manual or its associated product. PHYTEC Messtechnik GmbH reserves the right to alter the information contained herein without prior notification and accepts no responsibility for any damages which might result.

  • Page 3: Table Of Contents

    Table of Contents Preface The phyCORE-TriCORE Development Board ....... 3 1.1 Concept of the phyCORE Development Board ......3 1.2 phyCORE-TriCORE Development Board Connectors and Jumpers..................5 1.2.1 Connectors............... 5 1.2.2 Jumpers on the phyCORE-TriCORE Development Board ................7 1.3 Functional Components on the phyCORE-TriCORE Development Board..............
  • Page 4 Development Board with Galvanic Separation)...... 21 Figure 16: Pin Assignment Scheme of the Expansion Bus....... 24 Figure 17: Pin Assignment Scheme of the Patch Field......24 Figure 18: Connection of the DS2401 Silicon Serial Number....36 © PHYTEC Messtechnik GmbH 2009 L-730e_0...
  • Page 5 Table 16: Pin Assignment for the phyCORE-TC1130, phyCORE- TC1796 and Development Board / Expansion Board ..... 33 Table 17: Pin Assignment for the phyCORE-TC1130, phyCORE- TC1796 and Development Board / Expansion Board ..... 33 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 6 Table 25: Pin assignemt JTAG_PLD connector for ........ 40 Table 26: Jumper Configuration for X12 USB connector for phyCORE- TC1130 ..................41 Table 27: Jumper Configuration for X12 USB connector for phyCORE- TC1796 ..................41 © PHYTEC Messtechnik GmbH 2009 L-730e_0...

  • Page 7: Preface

    Preface Preface This Hardware Manual describes only the functions of PHYTEC phyCORE-TriCORE Development Board for the phyCORE-TC1130 and phyCORE-TC1796 module. The controllers and modules are not described herein. Precise specifications for Infineon’s TC1130 or TC1796 Tricore microcontroller series controller can be found in the enclosed microcontroller Data Sheet/User's Manual.
  • Page 8 This Development Board supports the phyCORE-TC1130 and the phyCORE-TC1796. PHYTEC supports all common 8- and 16-bit as well as selected 32-bit controllers in two ways: (1) as the basis for Rapid Development Kits which serve as a...

  • Page 9: The Phycore-Tricore Development Board

    Development Board The phyCORE-TriCORE Development Board PHYTEC Development Boards are fully equipped with all mechanical and electrical components necessary for the speedy and secure start-up and subsequent communication to and programming of applicable PHYTEC Single Board Computer (SBC) modules. Development...

  • Page 10: Phycore-Tc1130 Or Phycore-Tc1796

    Development Board • As the physical layout of the expansion bus is standardized across all applicable PHYTEC Development Boards, we are able to offer various expansion boards (5) that attach to the Development Board at the expansion bus connectors. These modular expansion...

  • Page 11: Phycore-Tricore Development Board Connectors And Jumpers

    Development Board phyCORE-TriCORE Development Board Connectors and Jumpers 1.2.1 Connectors As shown in Figure 2, the following connectors are available on the phyCORE-TriCORE Development Board: low-voltage socket for power supply connectivity mating receptacle for expansion board connectivity dual DB-9 sockets for serial RS-232 interface connectivity...

  • Page 12: Figure 2: Location Of Connectors On The Phycore-Tricore Development Board

    Development Board Figure 2: Location of Connectors on the phyCORE-TriCORE Development Board Please note that all module connections are not to exceed their expressed maximum voltage or current. Maximum signal input values are indicated in the corresponding controller User’s Manual/Data Sheets.

  • Page 13: Jumpers On The Phycore-Tricore Development Board

    Development Board 1.2.2 Jumpers on the phyCORE-TriCORE Development Board Peripheral components of the phyCORE-TriCORE Development Board can be connected to the signals of the phyCORE-TC1130 or phyCORE-TC1796 by setting the applicable jumpers. The Development Board’s peripheral components are configured for use with the phyCORE-TC1130 or phyCORE-TC1796 by means of insertable jumpers.

  • Page 14: Figure 5: Default Jumper Settings Of The Phycore-Tricore Development Board For Standard Phycore-Tc1130

    Development Board Figure 55 shows the factory default jumper settings for operation of the phyCORE-TriCORE Development Board with the standard phyCORE-TC1130 (use of two RS-232 interfaces, the Boot button etc. on the Development Board). Jumper settings for other functional configurations of the phyCORE-TC1130 module mounted on the Development Board are described in section 1.3.

  • Page 15: Jumper Settings Of Development Board For Standard Phycore-Tc1796

    Development Board Figure 56 shows the factory default jumper settings for operation of the phyCORE-TriCORE Development Board with the standard phyCORE-TC1796 (use of two RS-232 interfaces, the Boot button etc. on the Development Board). Jumper settings for other functional configurations of the phyCORE-TC1796 module mounted on the Development Board are described in section 1.3.

  • Page 16: Functional Components On The Phycore-Tricore Development Board

    These jumper settings are different from the factory default settings shown in Figure 55 and Figure 6 and enable alternative or additional functions on the phyCORE-TriCORE Development Board depending on user needs. 1.3.1 Power Supply at X1...

  • Page 17: Activating The Bootstrap Loader

    Applying a low-level signal at pin X1C9 of the phyCORE-TC1130 or phyCORE-TC1796 (via the Boot input) activates the electronic switch. The phyCORE-TriCORE Development Board provides two different options to activate the on-chip Bootstrap Loader: 1. The Boot button (S1) can be connected to GND via Jumper JP12 which is located next the the Boot and Reset buttons at S1 and S2.

  • Page 18: Table 2: Jp20, Jp21, Jp13 Configuration Of Boot Via Rs-232

    (default) Table 2: JP20, JP21, JP13 Configuration of Boot via RS-232 Caution: JP20 and JP21 must have the same setting at any time: JP20,JP21 = 1+2 JP20,JP21 = 2+3 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 19 Development Board © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 20: First Serial Interface At Socket P1A

    Table 3: Jumper Configuration for the First RS-232 Interface Pin 2: TxD0 Pin 3: RxD0 Pin 5: Figure 8: Pin Assignment of the DB-9 Socket P1A as First RS-232 (Front View) © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 21: Second Serial Interface At Socket P1B

    Table 4: Jumper Configuration for the Second RS-232 Interface Pin 2: TxD1 Pin 3: RxD1 Pin 5: Figure 9: Pin Assignment of the DB-9 Socket P1A as Second RS-232 (Front View) © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 22: First Can Interface At Plug P2A

    JP14 open No supply voltage to CAN transceiver and opto-coupler (default) on the phyCORE-TriCORE Development Board JP19 closed GND potential at CAN transceiver and opto-coupler on (default) the phyCORE-TriCORE Development Board Table 5:...

  • Page 23: Development Board)

    (Development Board Ground) Pin 7: CAN-H0 (not galvanically separated) Pin 2: CAN-L0 (not galvanically separated) Pin 6: (Development Board Ground Figure 11: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board) © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 24: Development Board With Galvanic Separation)

    VCAN+ Pin 3: VCAN- Pin 7: CAN-H0 (galvanically separated) Pin 2: CAN-L0 (galvanically separated) Pin 6: VCAN- Figure 12: Pin Assignment of the DB-9 Plug P2A (CAN Transceiver on Development Board with Galvanic Separation) © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 25: Second Can Interface At Plug P2B

    Board disconnected from supply voltage JP19 closed No GND potential at CAN transceiver and opto-coupler (default) on the phyCORE-TriCORE Development Board Table 8: Jumper Configuration for CAN Plug P2B Using the CAN Transceiver on the phyCORE-TC1130 or phyCORE-TC1796 Pin 3:...

  • Page 26: Development Board)

    (Development Board Ground) Pin 7: CAN-H1 (not galvanically separated) Pin 2: CAN-L1 (not galvanically separated) Pin 6: (Development Board Ground Figure 14: Pin Assignment of the DB-9 Plug P2B (CAN Transceiver on Development Board) © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 27: Development Board With Galvanic Separation)

    VCAN+ Pin 3: VCAN- Pin 7: CAN-H1 (galvanically separated) Pin 2: CAN-L1 (galvanically separated) Pin 6: VCAN- Figure 15: Pin Assignment of the DB-9 Plug P2B (CAN Transceiver on Development Board with Galvanic Separation) © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 28: Rj45 Ethernet Connector X7

    Development Board 1.3.7 RJ45 Ethernet Connector X7 The phyCORE-TriCORE Development Board provides the Ethernet RJ45 jack with integrated magnetic at X7 to enable immediate connection of the phyCORE-TC1130 or phyCORE-TC1796 to an 10/100 Mbit/s Ethernet network. Two status LEDs for LINK and LAN are provided to display network status.

  • Page 29: Pin Assignment Summary Of The Phycore, The Expansion Bus And The Patch Field

    A two dimensional numbering matrix similar to the one used for the pin layout of the phyCORE-connector is provided to identify signals on the Expansion Bus connector (X2 on the Development Board) as well as the patch field. © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 30: Figure 16: Pin Assignment Scheme Of The Expansion Bus

    Figure 16: Pin Assignment Scheme of the Expansion Bus A B C D E F Figure 17: Pin Assignment Scheme of the Patch Field © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 31 Signal Signal phyCORE-TC1130 Expansion Bus Patch Field phyCORE phyCORE phyCORE-TC1796 TC1130 TC1796 xD10 xD11 xD12 xD13 xD14 xD15 xD16 xD17 xD18 xD19 xD20 xD21 xD22 xD23 xD24 xD25 xD26 xD27 xD28 xD29 xD30 xD31 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 32: Table 13: Pin Assignment For The Phycore-Tc1130, Phycore-Tc1796 And Development Board / Expansion Board

    Patch Field phyCORE phyCORE phyCORE-TC1796 TC1130 TC1796 xA10 xA11 xA12 xA13 xA14 xA15 xA16 xA17 xA18 xA19 xA20 xA21 xA22 xA23 Table 13: Pin Assignment for the phyCORE-TC1130, phyCORE-TC1796 and Development Board / Expansion Board © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 33 AN18 / P42 P111 AN20 / P44 P112 AN22 / P46 P113 AN21 / P45 P114 AN24 / P48 P115 AN23 / P47 P50 / RxD0_TTL RxD0_TTL P51 / TxD0_TTL TxD0_TTL P22 / MRST0 MRST0 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 34 AN39 / P97 AN36 / P94 P310 AN37 / P95 P311 AN35 / P93 P312 AN33 / P91 P313 AN34 / P92 P314 AN32 / P90 P315 AN31 / P415 USBCLK P41 / RVCI © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 35: Table 14: Pin Assignment For The Phycore-Tc1130, Phycore-Tc1796 And Development Board / Expansion Board

    P43 / VMI P71/ AD0EMUX2 P44 / VPO P72/ AD0EMUX0 P45 / VMO P73/ AD0EMUX1 P46 / USBOE P74 /BRKOUT /BRKOUT_A Table 14: Pin Assignment for the phyCORE-TC1130, phyCORE-TC1796 and Development Board / Expansion Board © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 36 EGPIO9 P210 EGPIO11 P214 EGPIO10 P212 EGPIO12 P213 EGPIO13 P215 EGPIO14 EGPIO15 EGPIO16 EGPIO17 EGPIO18 EGPIO19 EGPIO20 EGPIO21 EGPIO22 EGPIO23 EGPIO24 P311 EGPIO25 P310 EGPIO26 P312 EGPIO27 P314 EGPIO28 P313 EGPIO29 P315 EGPIO30 EGPIO31 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 37: Table 15: Pin Assignment For The Phycore-Tc1130, Phycore-Tc1796 And Development Board / Expansion Board

    AN0 / P00 ADC1 AN1 / P01 ADC2 AN2 / P02 ADC3 AN3 / P03 ADC4 AN4 / P04 ADC5 AN5 / P05 ADC6 AN6 / P06 ADC7 AN7 / P07 DAC0 AN8 / P08 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 38 AN26 / P410 MII_MDIO AN28 / P412 /E_INT 5V_VBUS E_DUPLEX E_NWAYEN /SLSI0 x/CS3 /CS3 x/CS2 /CS2 /CSCOMB /CSCOMB x/BC0 /BC0 x/BC1 /BC1 x/BC2 /BC2 x/BC3 /BC3 x/RD x/WR xALE /ADV x/BAA /BAA xADV /ADV x/WAIT /WAIT © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 39: Table 16: Pin Assignment For The Phycore-Tc1130, Phycore-Tc1796 And Development Board / Expansion Board

    TXD1 ETH_Link ETH_Link ETH_Lan ETH_Lan ETH_RXD- ETH_RXD- ETH_TXD- ETH_TXD- ETH_RXD+ ETH_RXD+ ETH_TXD+ ETH_TXD+ Table 17: Pin Assignment for the phyCORE-TC1130, phyCORE-TC1796 and Development Board / Expansion Board Signal Signal phyCORE-TC1130 Expansion Bus Patch Field © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 40: Table 19: Pin Assignment Power Supply For The Phycore-Tc1130 / Development Board / Expansion Board

    9D, 14D, 19D, 24D, 29D, 34D, 39D, 44D, 49D, 54D, 59D, 64D, 69D, AGND 77C, 74D, 79D 77C, 74D, 79D Table 19: Pin Assignment Power Supply for the phyCORE-TC1130 / Development Board / Expansion Board © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 41: Table 20: Pin Assignment For The Phycore-Tc1130, Phycore-Tc1796 And Development Board / Expansion Board

    PLD_TCK /CS_RAM2 PLD_TDO P115 PLD_TDI P114 SPIEEPWP ICCEEPWP AN27 / P411 1A, 4D,5D, 6D, 7D 1A, 4D,5D, 6D, 28A,2C,1D, 2D,2F Table 20: Pin Assignment for the phyCORE-TC1130, phyCORE-TC1796 and Development Board / Expansion Board © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 42: Ds2401 Silicon Serial Number

    The DS2401 is optionally populated on U2 on the Development Board. The Silicon Serial Number Chip mounted on the phyCORE-TriCORE Development Board can be connected to port pin P2.10 of the TC1130 or port pin P8.0 of the TC1796.

  • Page 43: Pin Header Connectors X10

    The maximum current draw depends on the power adapter used. 1.3.12 USB Wiggler connector X11 The phyCORE-TriCORE Development Board provides the USB jack X11 to enable access to the JTAG of the phyCORE-TC1130 or phyCORE-TC1796 via the DAS Server JTAG over USB Chip.

  • Page 44: Lcd Connector

    Development Board 1.3.13 LCD connector The connector LCD on the phyCORE-TriCORE Development Board enable connection of an optional LCD – Display. Signals for the following Display-Controller are provided T6963C (default) , HD61202, HD44780 Depending on the used LCD controller the following jumper...

  • Page 45: Table 23: Jumper Configuration For Hd61202, Hd44780

    RT4= 5k = 5k R59= 0R R56= 0R = 4k7 R58= 0R R58= 0R = 0R Table 24: contrast Configuration LCD Please contact PHYTEC for information of available LCD-Displays for the phyCORE-TriCORE Development Board © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 46: Jtag Pld Connector Only For Phycore-Tc1130

    Pin5 Pin6 PLD_TCK Table 25: Pin assignemt JTAG_PLD connector for phyCORE- TC1130 Caution: JTAG_PLD connector on the Development board must not be used when using the phyCORE-TC1796 module on the phyCORE- TriCORE Development Board. © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 47: Usb Connector X12

    Table 27: Jumper Configuration for X12 USB connector for phyCORE-TC1796 Caution: USB to UART Bridge can not be used with the standard phyCORE TC1796 module, due to the module HW-configuration. © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 48: Ocds2 Connector Only For Phycore-Tc1796

    Development Board 1.3.16 OCDS2 connector only for phyCORE-TC1796 OCDS2 debugging requires additional Trace Signals of the CPU with the OCDS1 Signals. With phyCORE-TriCORE Development Board, a 60 Pin Highspeed connector OCDS2, both signals are available. Caution: When using OCDS2 Trace connector OCDS2 on the phyCORE-...

  • Page 49: Revision History

    Appendice A Revision History Date Version numbers Changes in this manual 12-March-2009 Manual L-730e_0 Preliminary edition. KSP-0150-B0 PCB# 2200.0-001 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 50: Appendice A

    Development Board Appendice A Release Notes The following paragraph describes the differences between the technical facts provided in this manual and the currently available hardware revisions. © PHYTEC Meßtechnik GmbH 2009 L-730e_0...

  • Page 51: Index

    Socket P1B (Second RS-232) 14 and Jumpers DS2401 Expansion Bus First CAN Interface First Serial Interface Functional Components on the phyCORE Development Board JP17 Jumper Configuration LED D3 Patch Field Pin Assignment Plug P2A Plug P2B Power Supply © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 52 How would you improve this manual? Did you find any mistakes in this manual? page Submitted by: Customer number: Name: Company: Address: Return to: PHYTEC Technologie Holding AG Postfach 100403 D-55135 Mainz, Germany Fax : +49 (6131) 9221-33 © PHYTEC Meßtechnik GmbH 2009 L-730e_0...
  • Page 53 Published by © PHYTEC Meßtechnik GmbH 2009 Ordering No. L-730e_0 Printed in Germany...

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