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Phytec phyCORE-MPC5676/57 Series Hardware Manual

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phyCORE
Hardware Manual
Document No.:
SOM Prod. No.:
SOM PCB. No.:
CB Prod. No.:
CB PCB. No.:
Edition:
A product of a PHYTEC Technology Holding company
®
-MPC5676/57xx
L-807e.A2
KSP-0180-1 /
KSP-0180-1C1/
KSP-0180-1C2
2367.1
KSP-0180-B0
2373.1
August 2020

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Summary of Contents for Phytec phyCORE-MPC5676/57 Series

  • Page 1 ® phyCORE -MPC5676/57xx Hardware Manual Document No.: L-807e.A2 SOM Prod. No.: KSP-0180-1 / KSP-0180-1C1/ KSP-0180-1C2 SOM PCB. No.: 2367.1 CB Prod. No.: KSP-0180-B0 CB PCB. No.: 2373.1 Edition: August 2020 A product of a PHYTEC Technology Holding company...
  • Page 2 GmbH neither gives any guarantee 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 that might result.

  • Page 3: Table Of Contents

    Technical Specifications ................57 Hints for Integrating and Handling the phyCORE-MPC5676/57xx ......60 13.1 Integrating the phyCORE-MPC5676/57xx ............60 13.2 Handling the phyCORE-MPC5676/57xx ............. 60 The phyCORE- MPC5676R on the phyCORE Carrier Board ........61  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 4 14.3.13 Reduced JTAG/OnCE/NEXUS Pin Header Connector X ....... 76 14.3.14 Full JTAG/OnCE/NEXUS Pin Header Connector X10 ........77 14.3.15 phyCORE-MPC5676/57xx Expansion Connector ........78 14.3.16 Schematic of Carrier Board KSP-0180-Bx ..........79 Revision History ..................84 Index ......................85  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 5: List Of Figures

    Figure 20: page 2/5 of KSP-0150-B0 schematic .............. 80 Figure 21: page 3/5 of KSP-0150-B0 schematic .............. 81 Figure 22: page 4/5 of KSP-0150-B0 schematic .............. 82 Figure 23: page 5/5 of KSP-0150-B0 schematic .............. 83  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 6 Pin Assignment of the JTAG_FPGA connector X6 ..........76 Table 25: Pin Assignment of the Reduced JTAG/OnCE/Nexus Pin Header X7 ......76 Table 26: Pin Assignment of the Full JTAG/OnCE/Nexus Pin Header X10 ......77  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 7: Conventions, Abbreviations And Acronyms

    URL, part, chapter, table, or figure.  References made to the phyCORE-Connector always refer to the high density Samtec connector on the undersides of the phyCORE-MPC5676/57xx System on Module.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 8: Table 1: Signal Types Used In This Manual

    5 V tolerant input with pull down 5V_PD ETHERNET Differential line pairs 100 Ohm Ethernet level input ETH_I Input ETHERNET Differential line pairs 100 Ohm Ethernet level output ETH_O Output Table 1: Signal Types used in this Manual  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 9: Table 2: Abbreviations And Acronyms Used In This Manual

    Solderless jumper; these types of jumpers can be removed and placed by hand with no special tools. Printed circuit board. PHYTEC Display Interface; defined to connect PHYTEC display adapter boards, or custom adapters PHYTEC Extension Board Power-on reset Real-time clock.

  • Page 10: Preface

    As a member of PHYTEC's phyCORE product family the phyCORE-MPC5676/57xx is one of a series of PHYTEC System on Modules (SOMs) that can be populated with different controllers and, hence, offers various functions and configurations. PHYTEC supports a variety of 8-/16- and 32-bit controllers in two ways:...
  • Page 11 Caution! PHYTEC products lacking protective enclosures are subject to damage by ESD and, hence, may only be unpacked, handled or operated in environments in which sufficient precautionary measures have been taken in respect to ESD-dangers. It is also necessary that only appropriately trained personnel (such as electricians, technicians and engineers) handle and/or operate these products.
  • Page 12 Product Change Management and information in this manual on parts populated on the SOM / SBC When buying a PHYTEC SOM / SBC, you will, in addition to our HW and SW offerings, receive a free obsolescence maintenance service for the HW we provide.

  • Page 13: Introduction

    Pin Description Introduction The phyCORE-MPC5676/57xx belongs to PHYTEC’s phyCORE System on Module family. The phyCORE SOMs represent the continuous development of PHYTEC System on Module technology. Like its mini-, micro- and nanoMODUL predecessors, the phyCORE boards integrate all core elements of a microcontroller system on a subminiature board and are designed in a manner that ensures their easy expansion and embedding in peripheral hardware developments.

  • Page 14: Internal Features Of The Mpc5676R

    • FPGA configuration memory programmable via JTAG • SPI-RTC battery-buffered • Watchdog • Industrial temperature range (-40 °C to +85 °C) • Free I/Os from CPU and 101 I/Os FPGA (Bank14/15/34) available on phyCORE- connector  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 15: Block Diagram

    Pin Description Block Diagram Figure 1: Block Diagram of the phyCORE-MPC5676/57xx  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 16: Phycore-Mpc5676/57Xx Component Placement

    ® phyCORE - MPC5676/57xx [KSP-0180-0] phyCORE-MPC5676/57xx Component Placement C100 C118 C119 C140 C123 C139 C161 C175 C176 C166 C150 C108 C128 C112 C111 C113 C172 C171 R103 Figure 2: phyCORE-MPC5676/57xx Component Placement (top view)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 17: Figure 3: Phycore-Mpc5676/57Xx Component Placement (Top View)

    Pin Description C120 C122 R101 C137 C135 C152 C143 C144 C145 C134 C155 C151 C136 C162 C160 C141 C117 Figure 3: phyCORE-MPC5676/57xx Component Placement (top view)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 18: Minimum Requirements To Operate The Phycore-Mpc5676/57Xx

    In addition, proper implementation of the phyCORE-MPC5676/57xx module into a target application also requires connecting all GND pins neighboring signals that are being used in the application circuitry. section 4 Please refer to for more information.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 19: Pin Description

    (ST) and a functional grouping of the signals. The signal type includes also information about the signal. A description of Table 1 the signal types can be found in  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 20: Figure 4: Pinout Of The Phycore-Connector (Top View)

    In order to utilize a specific pin's alternative function the corresponding registers must be configured within the appropriate driver of the BSP. To support all features of the phyCORE-MPC5676/57xx Carrier Board a few changes have been made in the BSP delivered with the module.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 21: Table 3: Pinout Of The Phycore-Connector X1, Row A

    GPIO457 GPIO457 X1A34 GPIO459 GPIO459 X1A35 EQADC_ANB23 eQADC B analog input 23 X1A36 EQADC_ANB21 eQADC B analog input 21 X1A37 AGND Analog Ground 0 V Table 3: Pinout of the phyCORE-Connector X1, Row A  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 22 X1A71 EQADC_AN9 eQADC analog input 9 X1A72 AGND Analog Ground 0 V X1A73 EQADC_AN7 eQADC analog input 7 X1A74 EQADC_AN5 eQADC analog input 5 Table 3: Pinout of the phyCORE-Connector X1, Row A (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 23: Table 4: Pinout Of The Phycore-Connector X1, Row B

    DGND Ground 0 V X1B15 ETPUB19 eTPU B channel 19 (GPIO166) X1B16 ETPUB17 eTPU B channel 17 (GPIO164) X1B17 ETPUB15 eTPU B channel 15 (GPIO162) Table 4: Pinout of the phyCORE-Connector X1, Row B  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 24 EQADC_ANB0 eQADC B analog input 0 X1B51 EQADC_AN38 eQADC analog input 38(GPIO460 with optional R62) X1B52 EQADC_AN36 eQADC analog input 36(GPIO461 with optional R63) Table 4: Pinout of the phyCORE-Connector X1, Row B (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 25 A channel 17 (GPIO131) X1B88 ETPUA15 eTPU A channel 15 (GPIO129) X1B89 DGND Ground 0 V X1B90 ETPUA13 eTPU A channel 13 (GPIO127) Table 4: Pinout of the phyCORE-Connector X1, Row B (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 26: Table 5: Pinout Of The Phycore-Connector X2, Row A

    X2A34 EMIOS23 eMIOS channel 23 (GPIO202) X2A35 ETH_SPEED ETH output signal for SPEED-LED X2A36 EQADC_ETRIG1 I/O eQADC trigger input (GPIO101) X2A37 DGND Ground 0 V Table 5: Pinout of the phyCORE-Connector X2, Row A  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 27 JTAG TAP controller enable X2A71 NEX_TDO JTAG test data output X2A72 DGND Ground 0 V X2A73 NEX_TCK JTAG test clock input X2A74 NEX_/MSEO0 Nexus message start/end out Table 5: Pinout of the phyCORE-Connector X2, Row A (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 28: Table 6: Pinout Of The Phycore-Connector X2, Row B

    Receive of eSCI channel A (GPIO90) X2B15 SCIA_RX refer to J23 X2B16 SCIA_TX Transmit of eSCI channel A (GPIO89) X2B17 CANA_RX FlexCAN A receive line (GPIO84) Table 6: Pinout of the phyCORE-Connector X2, Row B  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 29 SPIB_CS0 DSPI B chip select 0 (GPIO105) X2B51 SPIB_CS1 DSPI B chip select 1 (GPIO106) X2B52 SPIB_CS3_SINC O DSPI B chip select 3 (GPIO108) Table 6: Pinout of the phyCORE-Connector X2, Row B (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 30 X2B87 FR_A_TX_EN FlexRay A transfer enable (GPIO250) X2B88 DGND Ground 0 V X2B89 FR_A_TX FlexRay A transfer (GPIO248) X2B90 FR_A_RX FlexRay A receive (GPIO249) Table 6: Pinout of the phyCORE-Connector X2, Row B (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 31: Table 7: Pinout Of The Fpga Connector X3, Row A

    FPGA user I/O Pin 21N BANK 15 X3A35 F_B15_IO23P FPGA user I/O Pin 23P BANK 15 X3A36 F_B15_IO23N FPGA user I/O Pin 23N BANK 15 X3A37 DGND Ground 0 V Table 7: Pinout of the FPGA Connector X3, Row A  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 32 X3A72 DGND Ground 0 V X3A73 F_B14_IO23P FPGA user I/O Pin 23P BANK 14 X3A74 F_B14_IO23N FPGA user I/O Pin 23N BANK 14 Table 7: Pinout of the FPGA Connector X3, Row A (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 33: Table 8: Pinout Of The Fpga Connector X3, Row B

    FPGA user I/O Pin 14N BANK 15 X3B27 F_B15_IO16P FPGA user I/O Pin 16P BANK 15 X3B28 F_B15_IO16N FPGA user I/O Pin 16NBANK 15 Table 8: Pinout of the FPGA Connector X3, Row B  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 34 FPGA user I/O Pin 12N BANK 14 X3B62 F_B14_IO14P FPGA user I/O Pin 14P BANK 14 X3B63 F_B14_IO14N FPGA user I/O Pin 14N BANK 14 Table 8: Pinout of the FPGA Connector X3, Row B (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 35 X3B78 F_B34_IO8N FPGA user I/O Pin 8N BANK 34 X3B79 DGND Ground 0 V X3B80 F_B34_IO10P FPGA user I/O Pin 10P BANK 34 Table 8: Pinout of the FPGA Connector X3, Row B (continued)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 36: Jumpers

    Carefully heat neighboring connections in pairs. After a few alternations, components can be removed with the solder-iron tip. Alternatively, a hot air gun can be used to heat and loosen the bonds.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 37: Figure 6: Jumper Locations (Top View)

    Jumpers Figure 6: Jumper Locations (top view)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 38 (0 Ohms, 10k Ohms, etc…). The jumpers are either 0805 package or 0402 package with a 1/8 W or better power rating. The jumpers (J = solder jumper) have the following functions:  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 39: Table 9: Jumper Settings

    0 Ω (0402) closed EQADC_VRLA and EQADC_VRLB(J4) connected with AGND open EQADC_VRLA and EQADC_VRLB(J4) of MPC must be connected extern from via phyCORE-Connector Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 40 Connects GPIO452 of MPC 0 Ω (0402) to F_PROGRAMM_B of FPGA closed GPIO452 connected to FPGAs F_PROGRAMM_B open GPIO452 not connected to FPGAs F_PROGRAMM_B Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 41 A9: 32 MBit memory devices at U102/U103 2+3 A11: 8 MBit memory devices at U102/U103 2+4 A10: 16 MBit memory devices at U102/U103 Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 42 1+2 Pull-UP connected to BOOTCFG1 of MPC 2+3 Pull-DOWN connected to BOOTCFG1 of MPC open BOOTCFG1 must be pulled High or Low via phyCORE connector X1B5 for MPC Bootmode Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 43 2+3 Pull-DONW connected to PUDC_B (int. pull-UP enabled) J27,J28, J29 FPGA Configuration mode selection. 4.7k Ω (0402) 1+2,2+3,2+3 FPGA Master SPI configuration Mode Configuration is loaded from SPI-Flash U19 Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 44 3.3V IO Supply Voltage for BANK15 of FPGA 2+3 1.5V IO Supply Voltage for BANK15 of FPGA 1.5V must then be supplied via FPGA connector X3B8 Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 45 Connects VCC_5V or VCC_3V3 VDDEH1 of MPC 0 Ω (0402) VCC_3V3 connected to VDDEH1 of MPC 2+3 VCC_5V connected to VDDEH1 of MPC Table 9: Jumper Settings Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 46: Power Requirements

    For maximum EMI performance all GND pins should be connected to a solid ground plane. The load of the supplies depends on the external periphery attached to the phyCORE module.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 47: Voltage Supervisor And Reset

    /RESET is a bi-directional (open-collector) signal that can be connected to more then one source. For instance, /RESET is also connected to the JTAG/OnCE connector of the phyCORE module. /RESET has a 10kOhm pull-up resistor.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 48: System Configuration And Booting

    BOOTCFG0 and BOOTCFG1 and the resulting boot configuration of the MPC5676R. BOOTCFG0 BOOTCFG1 Bootsource pinX1B4 pinX1B5 Boot from internal flash memory FlexCAN / eSCI boot Table 10: Boot Modes of the phyCORE-MPC5676/57xx  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 49: System Memory

    32-bit data bus with. The device at U100 connects to the low data bus while device U101 connects to the high data bus. Type Size per device Manufacturer Device Code Manufacturer Code S29AL016J 2 MByte Spansion 22C4 Table 11: Choice of Standard Flash Memory Devices and Manufacturers  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 50: Synchronous Burst Sram(U102,U103)

    512k x 32/36-bit U5-6 1M x 32/36-bit 8 MByte 1M x 32/36-bit U5-6 Table 12: Memory Options for the Synchronous Burst SRAM The SRAM is controlled by /CS1 with 32-bit bus width (address/Data muxed mode).  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 51: Spi Eeprom (U6)

    In order to connect MPC SPI Signals to the SPI-Flash U19 via the multiplexer U14 GPIO455 must be programmed high. See the manufacturer’s data sheet for interfacing and operation. Defaults are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 52: Fpga System Logic Device U18

    X3 (45 free I/Os BANK14 + free 50 I/Os BANK15 + free 6 I/Os BANK34 = 101 I/Os). Furthermore, the FPGA JTAG Signals and control Pins for the FPGA configuration are Table 7 Table 8 available at X3. Refer to for the pinout of X3.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 53: Serial Interfaces

    RS232 serial data receive signal X2B16 SCIA_TX serial transmit signal SCIA X2B15 SCIA_RX serial data receive signal SCIA X2A15 SCIB_TX serial transmit signal SCIB X2A14 SCIB_RX serial data receive signal SCIB Table 14: Location of the UART Signals  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 54: 8.2 Can Interface

    SPI interfaces that are available on the phyCORE-connector. Note: The phyCORE-MPC5676/57xx uses the SPI Interface SPID on board for the following devices: • SPI EEPROM U6 (SPID_/CS1) • SPI-RTC U7 (SPID_/CS0) • SPI-Flash (FPGA config. Flash ) (SPID_/CS2)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 55: Lan9221I Ethernet Controller

    If you are using the applicable carrier board for the phyCORE-MPC5676/57xx (part number KSP-0180-B0), the external circuitry mentioned above is already integrated on the board Section 14.3.7 (refer to Caution! Please see the datasheet of the Ethernet Controller when designing the Ethernet transformer circuitry.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 56: Addressing The Ethernet Controller

    In order to guarantee that the MAC address is unique, all addresses are managed in a central location. PHYTEC has acquired a pool of MAC addresses. The MAC address of the phyCORE-MPC5676/57xx is located on the bar code sticker attached to the module. This number is a 12-digit HEX value.

  • Page 57: Real-Time Clock M41T93 (U7)

    General Purpose I/O Real-Time Clock M41T93 (U7) On the phyCORE-MPC5676/57xx the Real-Time Clock M41T93 is populated at U7 Communication between MPC and RTC is done via SPID Interface and /CS0 from MPC  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 58: Jtag/Once/Nexus Debufg Interface

    In order to connect a true Nexus port, an external 38-pin connector must be located on the customer application board. The PHYTEC phyCORE-MPC5676/57x Development Board (part number KSP-0180-B0) features such Nexus connector at X10 and can be used as an example.

  • Page 59: Technical Specifications

    10 mm thick, with a maximum component height of 3.0 mm on the bottom (connector) side of the PCB and approximately 5.0 mm on the top (microcontroller) side. The board itself is approximately 1.5 mm thick.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 60 95% r.F. not condensed VCC 3.3 V +/- 5% Operating voltage: VCC 5 V +/- 5% Power consumption: These specifications describe the standard configuration of the phyCORE-MPC5676/57xx as of the printing of this manual.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 61 160 pins (2 rows of 80 pins each) Samtec part number (lead free) REF-178709-03 PHYTEC part number (lead free) VM245 Please refer to the corresponding data sheets and mechanical specifications provided by www.samtec.com Samtec (  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 62: Hints For Integrating And Handling The Phycore-Mpc5676/57Xx

    GND pins to a solid ground plane. But at least all GND pins neighboring signals which are being used in the application circuitry should be connected to GND.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 63: The Phycore- Mpc5676R On The Phycore Carrier Board

    PHYTEC System on Module (SOM) modules. phyCORE Carrier Boards are designed for evaluation, testing and prototyping of PHYTEC System on Module in laboratory environments prior to their use in customer designed applications.

  • Page 64: 14.2 Overview Of The Phycore Carrier Board Peripherals

    The following figures highlight the location of each peripheral for easy identification. X2A2 X2A1 X2B2 X2B1 X1A2 BOOTCFG1 X1A1 X1B2 X1B1 Figure 9: phyCORE Carrier Board Overview of Connectors, LEDs and Buttons (top view)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 65: Connectors And Pin Header

    Manual/Data Sheets. As damage from improper connections varies according to use and application, it is the user‘s responsibility to take appropriate safety measures to ensure that the module connections are protected from overloading through connected peripherals.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 66: Switches

    LEDs. Their function is listed in the table below: Color Description user LEDs connected to MPC GPIO179 user LEDs connected to MPC GPIO180 user LEDs connected to MPC GPIO181 user LEDs connected to MPC GPIO182 Table 20: phyCORE Carrier Board LEDs Descriptions  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 67: Analog Input Potentiometer

    Overheating the board can cause the solder pads to loosen, rendering the board inoperable. Carefully heat neighboring connections in pairs. After a few alternations, components can be removed with the solder-iron tip. Alternatively, a hot air gun can be used to heat and loosen the bonds.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 68: Figure 11: Phycore Carrier Board Jumper Locations (Top View)

    ® phyCORE - MPC5676/57xx [KSP-0180-0] X2A2 X2A1 X2B2 X2B1 X1A2 BOOTCFG1 X1A1 X1B2 X1B1 Figure 11: phyCORE Carrier Board Jumper Locations (top view)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 69: Table 21: Phycore Carrier Board Jumper Descriptions

    ENGCLK from MPC is connected to X10_6 2+3 CLKOUT from MPC is connected to X10_6 Table 21: phyCORE Carrier Board Jumper Descriptions Note: Detailed descriptions of the assembled connectors, jumpers and switches can be found in the following chapters.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 70: 14.3 Functional Components On The Phycore Carrier Board

    Samtec connectors guarantee optimal connection and proper insertion of the phyCORE- MPC5676R. Please make sure that the phyCORE-MPC5676/57xx is fully plugged into the matting connectors of the carrier board. Otherwise individual signals may have a bad, or no contact.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 71: Power (X8, X9)

    X8 (+5 V @3A), or connector X9 (+5V input current @3A). The phyCORE MPC5676/57xx and periphery components are supplied with 5V from X8 or X9 and 3.3V. The 3.3 are generated from an switching regulator U3 on the carrier board.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 72: Wall Adapter Input (X8)

    An adapter with a minimum supply of 3A is recommended. -- + Polarity: Center Hole +5 VDC 2.5 mm 5.0 mm ≥ 3000 mA Figure 14: Power Connector corresponding to Wall Adapter Input X12  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 73: First Serial Interface At Socket P2A

    Second Serial Interface at Socket P2B Socket P2B is the top socket of the double DB-9 connector at P2. Pin 2 TXDB Pin 3 RXDB Pin 5 GND Figure 16: Pin Assignment of P2B as Second RS-232 (Front View)  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 74: First Can Interface At Plug P1A

    The carrier board is populated with the CAN transceiver for FlexCAN B: Pin 6 GND Pin 2 CANLB Pin 7 CANHB Pin 3 GND Figure 18: Pin Assignment of the DB-9 Plug P1B (CAN Transceiver on carrier Board, Front View).  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 75: Ethernet Connectivity (X28)

    User LED connected to MPC GPIO180 (see JP1, Table 21 User LED connected to MPC GPIO181 (see JP1, Table 21 User LED connected to MPC GPIO182 (see JP1, Table 22: User Programmable LEDs on the Carrier Board  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 76: Boot Mode Selection (Bootcfg1)

    DIP Switch BOOTCFG0 BOOTCFG1 Bootsource pinX1B4 pinX1B5 1=ON;2=ON Boot from internal flash memory 1=ON;2=OFF FlexCAN / eSCI boot Table 23: phyCORE Carrier Board DIP Switch S3 Descriptions 10: Default settings are in bold blue text  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 77: System Reset Button (Reset1)

    System Reset Button (RESET1) The phyCORE Carrier Board is equipped with a system reset button RESET1. Pressing this button will toggle the /RESET pin (X2A8) of the phyCORE microcontroller LOW, causing the controller to reset.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 78: Fpga_Jtag Connector

    (e.g. P&E Wiggler). Signal JTAG/OnCE Signal Number Connector Number NEX_TDI DGND NEX_TDO DGND NEX_TCK DGND /RESET NEX_TMS VCC_3V3 DGND NEX_/RDY NEX_JCOMP Table 25: Pin Assignment of the Reduced JTAG/OnCE/Nexus Pin Header X7  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 79: 14.3.14 Full Jtag/Once/Nexus Pin Header Connector X10

    NEX_/EVTI NEX_TDO VCC_3V3 NEX_MDO10 NEX_/RDY NEX_TCK NEX_MDO7 NEX_TMS NEX_MDO6 NEX_TDI NEX_MDO5 NEX_JCOMP NEX_MDO4 NEX_MDO11 NEX_MDO3 Vendor NEX_MDO2 NEX_MDO1 NEX_MDO0 NEX_/EVTO NEX_MCKO NEX_/MSEO1 NEX_/MSEO0 Table 26: Pin Assignment of the Full JTAG/OnCE/Nexus Pin Header X10  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 80: 14.3.15 Phycore-Mpc5676/57Xx Expansion Connector

    14.3.16 Please refer to section for the Pin Assignment of the Expansion connectors X2A2 X2A1 X2B2 X2B1 X3 X4 X1A2 X1A1 BOOTCFG1 X1B2 X1B1 Figure 19: Expansion Connector location on the Development Board KSP-0150-B0  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 81: Schematic Of Carrier Board Ksp-0180-Bx

    ® The phyCORE - MPC5676/57xx on the phyCORE Carrier Board 14.3.16 Schematic of Carrier Board KSP-0180-Bx This section shows the schematic of the Development Board KSP-0150-B0.  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 82: Figure 20: Page 2/5 Of Ksp-0150-B0 Schematic

    ® phyCORE - MPC5676/57xx [KSP-0180-0] Figure 20: page 2/5 of KSP-0150-B0 schematic  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 83: Figure 21: Page 3/5 Of Ksp-0150-B0 Schematic

    ® The phyCORE - MPC5676/57xx on the phyCORE Carrier Board Figure 21: page 3/5 of KSP-0150-B0 schematic  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 84: Figure 22: Page 4/5 Of Ksp-0150-B0 Schematic

    ® phyCORE - MPC5676/57xx [KSP-0180-0] Figure 22: page 4/5 of KSP-0150-B0 schematic  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 85: Figure 23: Page 5/5 Of Ksp-0150-B0 Schematic

    ® The phyCORE - MPC5676/57xx on the phyCORE Carrier Board Figure 23: page 5/5 of KSP-0150-B0 schematic  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 86: Revision History

    First draft, Preliminary documentation. L-807e_0 Describes the phyCORE-MPC5676/57xx with phyCORE Carrier Board. 06.05.19 L-807e.A1 Pin Description Tables Updated Table 3 Table 5 21.08.2020 L-807e.A2 Updated to include optional GPIO settings; Section 1.6.1 Section 1.6.2 Added  PHYTEC Messtechnik GmbH 2020 L-807e.A2...

  • Page 87: Index

    FPGA System Logic Device ...... 50 J5 ............ 37 Full JTAG/OnCE/NEXUS Connector X10 ..77 J6 ............ 38 J7 ............ 38 J8 ............ 38 GND Connection ........60 J9 ............ 38 JTAG ..........56 JTAG/OnCE Connector ......56  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 88 X9 ..........69 U17 ........... 51 phyCORE-Connector ......17 U19 ........... 49 Physical Dimensions ......57 U6 ............ 49 Pin Description ........17 UART ..........51 Pinout X1 ......19, 20, 21, 22, 23  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 89 Index VBAT ..........45 X3 ............ 77 Voltage Supervisor ....... 45 X7 ............ 76 X8 ............ 56 Weight ..........58  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 90 ® phyCORE - MPC5676/57xx [KSP-0180-0]  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 91 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 Messtechnik GmbH Postfach 100403 D-55135 Mainz, Germany Fax : +49 (6131) 9221-33  PHYTEC Messtechnik GmbH 2020 L-807e.A2...
  • Page 92 ® phyCORE - MPC5676/57xx [KSP-0180-0] Published by  PHYTEC Messtechnik GmbH 2020 Ordering No. L-807e.A2 Printed in Germany...

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