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P&E Microcomputer Systems XPC560S EVB User Manual

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Summary of Contents for P&E Microcomputer Systems XPC560S EVB

  • Page 2 Purchase Agreement P&E Microcomputer Systems, Inc. reserves the right to make changes without further notice to any products herein to improve reliability, function, or design. P&E Microcomputer Systems, Inc. does not assume any liability arising out of the application or use of any product or circuit described herein. This software and accompanying documentation are protected by United States Copyright law and also by International Treaty provisions.

  • Page 3: Table Of Contents

    Boot Configuration..................39 Power Configuration..................40 System Clock Configuration ................. 46 General Configuration .................. 48 xPC560SADPT208S HARDWARE & JUMPER SETTINGS......50 Boot Configuration..................50 Power Configuration..................51 System Clock Configuration ................. 57 General Configuration .................. 59 xPC560S EVB User Manual...
  • Page 4 DEBUGGING/PROGRAMMING THE xPC560S EVB ........61 Hardware Solutions At A Glance ..............61 Working With P&E’s USB-ML-PPCNEXUS ..........62 Working With P&E’s Cyclone MAX ...............63 xPC560S EVB User Manual...

  • Page 5: Overview

    OVERVIEW The xPC560S EVB is an evaluation system supporting Freescale MPC560xS microprocessors. The complete system consists of an xPC56XXMB Motherboard and an xPC560SADPT Mini-Module which plugs into the motherboard. Different Mini-Modules are available for evaluating devices with different footprints in the MPC560xS family of microprocessors. The evaluation system allows full access to the CPU, all of the CPU’s I/O signals,...

  • Page 6: Package Contents

    The xPC560SADPT176S Mini-Module supports the following devices: • MPC5606SEMLU (176LQFP) The xPC560SADPT208S Mini-Module supports the following devices: • MPC5606SEMMG (208BGA) Recommended Materials • Freescale MPC5606S reference manual and datasheet • xPC56XXMB schematic • xPC560SADPT100S schematic • xPC560SADPT144S schematic • xPC560SADPT208S schematic xPC560S EVB User Manual...

  • Page 7: Handling Precautions

    Handling Precautions Please take care to handle the package contents in a manner such as to prevent electrostatic discharge. xPC560S EVB User Manual...

  • Page 8: Hardware Features

    HARDWARE FEATURES The xPC560S EVB is an evaluation system for Freescale’s MPC560xS microprocessors. A 38-pin Mictor Nexus port and/or a 14-pin JTAG port are provided on the Mini-Module to allow usage of an external PowerPC Nexus interface such as P&E USB-ML-PPCNEXUS cable and Cyclone MAX automated programmer.

  • Page 9: Xpc560Sadpt Mini-Module Board Features

    Figure 2-1: xPC56XXMB Top Component Placement xPC560SADPT Mini-Module Board Features • Can be used as a stand-alone board by providing external 5V power supply input • ON/OFF Power Switch w/ LED indicator • Reset button with filter and LED indicator xPC560S EVB User Manual...
  • Page 10 MPC560xS in 208BGA footprint • Debug ports: 38-pin Mictor Nexus port and/or 14-pin JTAG port • Direct clock input through SMA connector (footprint only) • Jumpers for boot configuration Figure 2-2: xPC560SADPT144S Top Component Placement xPC560S EVB User Manual...
  • Page 11 Figure 2-3: xPC560SADPT176S Top Component Placement xPC560S EVB User Manual...

  • Page 12: Pin Numbering For Jumpers

    Jumpers for both the xPC56XXMB motherboard and the xPC560S Mini- Modules have a rounded corner to indicate the position of pin 1. See examples below for the numbering convention used in this manual for jumper settings. xPC560S EVB User Manual...
  • Page 13 Figure 2-5: Pin Numbering xPC560S EVB User Manual...

  • Page 14: Xpc56Xxmb Hardware & Jumper Settings

    The xPC56XXMB obtains its power from the 12VDC Center Positive input barrel connector. The following jumpers are used to configure the power supply output: J3 – VSA Tracking Regulator Configuration Jumper Setting Effect The ST L9758 tracking regulator VSA tracks the input  voltage at its TRACK_REF pin. Off (default) The ST L9758 tracking regulator VSA tracks 5V J4 – VPROG Regulators Control Jumper  Position Effect Setting  regulator output is programmed to 1V Off   regulator output is programmed to 1.5V (default)  regulator output is programmed to 2.6V STBY Off   regulator output is programmed to 3.3V STBY (default) xPC560S EVB User Manual...
  • Page 15  regulator output is programmed to 2.6V Off   regulator output is programmed to 3.3V (default) J5 – Regulators Enable & Standby Jumper  Position Effect Setting The power regulator is always on Off  The power regulator is in standby if jumpers  (default) 5+6 are also in the “off” position VSB, VSC, and VSD tracking regulators are  disabled Off  VSB, VSC, and VSD tracking regulators are  (default) enabled On  The power regulator is always on (default) The power regulator is in standby if jumpers  1+2 are also in the “off” position  and V  regulators are disabled CORE Off   and V  regulators are enabled CORE (default) xPC560S EVB User Manual...
  • Page 16 J36 – VIO Peripherals Logic Level Jumper Setting Effect Onboard peripherals are configured for 3.3V logic 2+3 (default) Onboard peripherals are configured for 5V logic J37 – VBat low voltage detection Jumper Setting Effect Low battery detection is enabled Off (default) Low battery detection is disabled Figure 3-1: Power Supply circuitry schematic xPC560S EVB User Manual...

  • Page 17: Leds

    LED to any processor I/O pin, if desired. Please note that although the schematics indicate that the processor I/O pins are eMIOSx, those are not the I/O pins for the xPC560S EVB. The table below has the correct pins listed.

  • Page 18: Buttons

    I/O pin, if desired. Please note that although the schematics indicate that the processor I/O pins are eMIOSx, those are not the I/O pins for the xPC560S EVB. The table below has the correct pins listed.

  • Page 19: Lin

    Effect I/O pins connected to the buttons are pulled up to  1+2 (default) logic high I/O pins connected to the buttons are pulled down to  logic low Figure 3-3: Buttons circuitry schematic There are footprints for two LIN connections on the xPC56XXMB. By default, one LIN circuit is assembled (LIN1) and the other circuit is left unpopulated xPC560S EVB User Manual...
  • Page 20 (LIN2). J6 – LIN1 pin2 configuration Jumper Setting Effect Pin 2 of the LIN1 connector is connected to 12V Off (default) Pin 2 of the LIN1 connector is not connected to 12V J22 – LIN1 enable Jumper Setting Effect On (default) Enables the LIN1 transceiver Disables the LIN1 transceiver J23 – LIN1 master selection Jumper Setting Effect On  LIN1 is configured as a master node Off (default) LIN1 is configured as a slave node J24 – LIN1 pin1 configuration Jumper Setting Effect xPC560S EVB User Manual...
  • Page 21 MPC560xS processor. Jumper Setting Effect The LIN1 TxD pin is connected to the “PB3” pin on  the MPC560xS processor. This should be set if  enabling LIN1. The SCI TxD pin is connected to the “PB3” pin on the  MPC560xS processor. J28 – LIN1/SCI RxD selection Controls whether the RxD pin on LIN1 or SCI is connected to the default I/O pin on the MPC560xS processor. Jumper Setting Effect The LIN1 RxD pin is connected to the “PB2” pin on  the MPC560xS processor. This should be set if  enabling LIN1. The SCI RxD pin is connected to the “PB2” pin on  the MPC560xS processor. xPC560S EVB User Manual...
  • Page 22 Figure 3-4: LIN1 Schematic J31 – LIN2 pin2 configuration Jumper Setting Effect Pin 2 of the LIN2 connector is connected to 12V Off (default) Pin 2 of the LIN2 connector is not connected to 12V J19 – LIN2 enable Jumper Setting Effect Enables the LIN2 transceiver Off (default) Disables the LIN2 transceiver xPC560S EVB User Manual...
  • Page 23 LIN2 is configured as a slave node J21 – LIN2 pin1 configuration Jumper Setting Effect On  Pin 1 of the LIN2 connector is connected to 12V Off (default) Pin 1 of the LIN2 connector is not connected to 12V J29 – LIN2/SCI TxD selection Controls whether the TxD pin on LIN2 or SCI is connected to the default I/O pin on the MPC560xS processor. Jumper Setting Effect The LIN2 TxD pin is connected to the “PI6” pin on the  MPC560xS processor. This should be set if enabling  LIN2. The SCI TxD pin is connected to the “PI6” pin on the  MPC560xS processor. xPC560S EVB User Manual...
  • Page 24 J30 – LIN2/SCI RxD selection Controls whether the RxD pin on LIN2 or SCI is connected to the default I/O pin on the MPC560xS processor. Jumper Setting Effect The LIN2 RxD pin is connected to the “PI7” pin on  the MPC560xS processor. This should be set if  enabling LIN2. The SCI RxD pin is connected to the “PI7” pin on the  MPC560xS processor. Figure 3-5: LIN2 schematic xPC560S EVB User Manual...
  • Page 25 Jumper Setting Effect On (default) Enables SCI transmit Disables SCI transmit J17 – SCI RxD Enable Jumper Setting Effect On (default) Enables SCI receive Disables SCI receive J27 – LIN1/SCI TxD selection Controls whether the TxD pin on LIN1 or SCI is connected to the default I/O pin on the MPC560xS processor. Jumper Setting Effect The LIN1 TxD pin is connected to the “PB3” pin on the  MPC560xS processor. xPC560S EVB User Manual...
  • Page 26 The SCI TxD pin is connected to the “PB3” pin on the  MPC560xS processor. This should be set if enabling  SCI. J28 – LIN1/SCI RxD selection Controls whether the RxD pin on LIN1 or SCI is connected to the default I/O pin on the MPC560xS processor. Jumper Setting Effect The LIN1 RxD pin is connected to the “PB2” pin on the  MPC560xS processor. The SCI RxD pin is connected to the “PB2” pin on the  MPC560xS processor. This should be set if enabling SCI. Figure 3-6: SCI schematic xPC560S EVB User Manual...

  • Page 27: Can

    Effect Enables CAN transmission Off (default) Disables CAN transmission J15 – CAN (H) TxD/RxD Enable Controls which I/O pins on the MPC560xS processor are connected to the TxD and RxD pins on CAN (H). Jumper Setting Effect The RxD pin of the CAN (H) interface is connected to  1+3 (default) the “PB1” pin of the MPC560xS processor. The RxD pin of the CAN (H) interface is connected to  the “PB10” pin of the MPC560xS processor. The TxD pin of the CAN (H) interface is connected to  2+4 (default) the “PB0” pin of the MPC560xS processor. The TxD pin of the CAN (H) interface is connected to  the “PB11” pin of the MPC560xS processor. xPC560S EVB User Manual...
  • Page 28 Effect Enables CAN transmission Off (default) Disables CAN transmission J11 – CAN (L) TxD/RxD Enable Controls which I/O pins on the MPC560xS processor are connected to the TxD and RxD pins on CAN (L). Jumper Setting Effect The RxD pin of the CAN (L) interface is connected to  the “PB1” pin of the MPC560xS processor. The RxD pin of the CAN (L) interface is connected to  3+5 (default) the “PB10” pin of the MPC560xS processor. The TxD pin of the CAN (L) interface is connected to  the “PB0” pin of the MPC560xS processor. The TxD pin of the CAN (L) interface is connected to  4+6 (default) the “PB11” pin of the MPC560xS processor. xPC560S EVB User Manual...

  • Page 29: Potentiometer

    Figure 3-7: High Speed CAN schematic Figure 3-8: Low Speed CAN schematic Potentiometer A potentiometer is available on the xPC56XXMB to allow an analog voltage input. J18 – POT Enable Jumper Setting Effect xPC560S EVB User Manual...
  • Page 30 The potentiometer wiper terminal is connected to  On (default) the “PB0” pin on the MPC560xS processor. The potentiometer wiper terminal is left  disconnected. Figure 3-9: Potentiometer schematic xPC560S EVB User Manual...

  • Page 31: Pin Mapping

    Pin Mapping The following is the xPC560S EVB pin assignment for the Pin Array headers: Figure 3-10: Pin Mapping xPC560S EVB User Manual...

  • Page 32: Xpc560Sadpt144S Hardware & Jumper Settings

    If J7 is configured for serial boot mode, this jumper selects between UART or CAN. If J7 is configured for internal boot mode, this jumper has no effect. Jumper Setting Effect The MPC560xS processor uses the CAN interface for  1+2  serial boot mode The MPC560xS processor uses the UART interface for  2+3 (default) serial boot mode xPC560S EVB User Manual...

  • Page 33: Power Configuration

    3.3V), and all appropriate jumpers must be configured to use that power supply. The following jumpers affect the power supply pins of the MPC560xS processor: J4 – VIO Voltage Selection Controls whether certain I/O pins are powered using 5V or 3.3V. In particular, xPC560S EVB User Manual...
  • Page 34 Allows 5V to be selected for the various power pins on the MPC560xS processor. Jumper Setting Effect 5V is available to power the various power supply  On (default) pins on the MPC560xS processor 5V cannot be used to power any of the various  power supply pins on the MPC560xS processor J15 – 1.2V Core Voltage Enable Controls whether power is provided to the “VDD 1V2” pins on the MPC560xS processor. Jumper Setting Effect MPC560xS “VDD 1V2” pins are connected to 1.2V  On (default) power xPC560S EVB User Manual...
  • Page 35 1+2 (default) Debug port(s) are configured for 5V logic Debug port(s) are configured for 3.3V logic J18 – 3.3V MCU Power Enable Allows 3.3V to be selected for the various power pins on the MPC560xS processor. Jumper Setting Effect 3.3V is available to power the various power supply  On (default) pins on the MPC560xS processor 3.3V cannot be used to power any of the various  power supply pins on the MPC560xS processor J22 – VDDE_A Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_B” and “VDD_IO_C” xPC560S EVB User Manual...
  • Page 36 MPC560xS “VDD_IO_B” and “VDD_IO_C” pins are  powered by 3.3V (J18 must be ON) J16 – VDDR Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_A” power pin. Jumper Setting Effect MPC560xS “VDD_IO_A” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_A” is powered by 3.3V (J18  must be ON) J25 – VDDE_E Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_D” power pin. Jumper Setting Effect MPC560xS “VDD_IO_D” is powered by 5V (J14 must  1+2 (default) be ON) xPC560S EVB User Manual...
  • Page 37 J21 – VDDMC Voltage Selection Sets the voltage level on the MPC560xS “VDD_SMD_C” power pin. Jumper Setting Effect MPC560xS “VDD_SMD_C” is powered by 5V (J14  1+2 (default) must be ON) MPC560xS “VDD_SMD_C” is powered by 3.3V (J18  must be ON) J20 – VDDMB Voltage Selection Sets the voltage level on the MPC560xS “VDD_SMD_B” power pin. Jumper Setting Effect MPC560xS “VDD_SMD_B” is powered by 5V (J14  1+2 (default) must be ON) MPC560xS “VDD_SMD_B” is powered by 3.3V (J18  must be ON) xPC560S EVB User Manual...
  • Page 38 MPC560xS “VDD_SMD_A” is powered by 3.3V (J18  must be ON) J24 – VDDE_C Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_F” power pin. Jumper Setting Effect MPC560xS “VDD_IO_F” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_F” is powered by 3.3V (J18 must  be ON) J23 – VDDE_B Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_E” power pin. Jumper Setting Effect MPC560xS “VDD_IO_E” is powered by 5V (J14 must  1+2 (default) be ON) xPC560S EVB User Manual...

  • Page 39: System Clock Configuration

    The xPC560S Mini-Modules support the usage of crystal clock sources as well as external clock sources. J10 – Crystal clock source enable Both of the jumpers below need to be installed to enable the crystal clock source. Jumper Setting Effect The MPC560xS “EXTAL” signal is connected to the  1+2 (default) crystal clock source on the xPC560S Mini‐Module The MPC560xS “XTAL” signal is connected to the  3+4 (default) crystal clock source on the xPC560S Mini‐Module xPC560S EVB User Manual...
  • Page 40 J11 – External clock source enable The xPC560S Mini-Module contains a footprint for an SMA connector, which can be used to provide an external clock source to the system. Jumper Setting Effect The MPC560xS “EXTAL” signal is connected to the  SMA connector on the xPC560S Mini‐Module The SMA connector on the xPC560S Mini‐Module is  Off (default) disconnected from the processor xPC560S EVB User Manual...

  • Page 41: General Configuration

    Figure 4-2: System Clock schematic General Configuration J13 – Reset Enable A RESET push button on the xPC560S Mini-Module can be used to reset the processor. Jumper Setting Effect xPC560S EVB User Manual...
  • Page 42 The RESET button on the xPC560S Mini‐Module is  On (default) enabled The RESET button on the xPC560S Mini‐Module is  disabled J28 – Reset Pullup The RESET signal of the MPC560xS processor can be pulled up to a logic high voltage. Jumper Setting Effect The RESET signal on the MPC560xS processor is pulled  up to 5V The RESET signal on the MPC560xS processor is pulled  up to 3.3V Figure 4-3: Reset circuitry schematic xPC560S EVB User Manual...

  • Page 43: Xpc560Sadpt176S Hardware & Jumper Settings

    If J7 is configured for serial boot mode, this jumper selects between UART or CAN. If J7 is configured for internal boot mode, this jumper has no effect. Jumper Setting Effect The MPC560xS processor uses the CAN interface for  1+2  serial boot mode The MPC560xS processor uses the UART interface  2+3 (default) for serial boot mode xPC560S EVB User Manual...

  • Page 44: Power Configuration

    3.3V), and all appropriate jumpers must be configured to use that power supply. The following jumpers affect the power supply pins of the MPC560xS processor: J4 – VIO Voltage Selection Controls whether certain I/O pins are powered using 5V or 3.3V. In particular, xPC560S EVB User Manual...
  • Page 45 Allows 5V to be selected for the various power pins on the MPC560xS processor. Jumper Setting Effect 5V is available to power the various power supply  On (default) pins on the MPC560xS processor 5V cannot be used to power any of the various power  supply pins on the MPC560xS processor J15 – 1.2V Core Voltage Enable Controls whether power is provided to the “VDD 1V2” pins on the MPC560xS processor. Jumper Setting Effect MPC560xS “VDD 1V2” pins are connected to 1.2V  On (default) power xPC560S EVB User Manual...
  • Page 46 1+2 (default) Debug port(s) are configured for 5V logic Debug port(s) are configured for 3.3V logic J18 – 3.3V MCU Power Enable Allows 3.3V to be selected for the various power pins on the MPC560xS processor. Jumper Setting Effect 3.3V is available to power the various power supply  On (default) pins on the MPC560xS processor 3.3V cannot be used to power any of the various  power supply pins on the MPC560xS processor J22 – VDDE_A Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_B”, “VDD_IO_C”, and xPC560S EVB User Manual...
  • Page 47 MPC560xS “VDD_IO_B”, “VDD_IO_C”, and  1+2 (default) “VDD_IO_G” pins are powered by 5V (J14 must be  MPC560xS “VDD_IO_B”, “VDD_IO_C”, and  “VDD_IO_G” pins are powered by 3.3V (J18 must be  J16 – VDDR Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_A” power pin. Jumper Setting Effect MPC560xS “VDD_IO_A” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_A” is powered by 3.3V (J18  must be ON) J25 – VDDE_E Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_D” power pin. Jumper Setting Effect xPC560S EVB User Manual...
  • Page 48 J21 – VDDMC Voltage Selection Sets the voltage level on the MPC560xS “VDD_SMD_C” power pin. Jumper Setting Effect MPC560xS “VDD_SMD_C” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_SMD_C” is powered by 3.3V (J18  must be ON) J20 – VDDMB Voltage Selection Sets the voltage level on the MPC560xS “VDD_SMD_B” power pin. Jumper Setting Effect MPC560xS “VDD_SMD_B” is powered by 5V (J14  1+2 (default) must be ON) MPC560xS “VDD_SMD_B” is powered by 3.3V (J18  must be ON) xPC560S EVB User Manual...
  • Page 49 MPC560xS “VDD_SMD_A” is powered by 3.3V (J18  must be ON) J24 – VDDE_C Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_F” power pin. Jumper Setting Effect MPC560xS “VDD_IO_F” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_F” is powered by 3.3V (J18 must  be ON) J23 – VDDE_B Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_A” and “VDD_IO_E” power pins. Jumper Setting Effect xPC560S EVB User Manual...

  • Page 50: System Clock Configuration

    The xPC560S Mini-Modules support the usage of crystal clock sources as well as external clock sources. J10 – Crystal clock source enable Both of the jumpers below need to be installed to enable the crystal clock source. Jumper Setting Effect The MPC560xS “EXTAL” signal is connected to the  1+2 (default) crystal clock source on the xPC560S Mini‐Module xPC560S EVB User Manual...
  • Page 51 The MPC560xS “XTAL” signal is connected to the  3+4 (default) crystal clock source on the xPC560S Mini‐Module J11 – External clock source enable The xPC560S Mini-Module contains a footprint for an SMA connector, which can be used to provide an external clock source to the system. Jumper Setting Effect The MPC560xS “EXTAL” signal is connected to the  SMA connector on the xPC560S Mini‐Module The SMA connector on the xPC560S Mini‐Module is  Off (default) disconnected from the processor xPC560S EVB User Manual...

  • Page 52: General Configuration

    Figure 5-2: System Clock schematic General Configuration J13 – Reset Enable A RESET push button on the xPC560S Mini-Module can be used to reset the processor. Jumper Setting Effect xPC560S EVB User Manual...
  • Page 53 The RESET button on the xPC560S Mini‐Module is  On (default) enabled The RESET button on the xPC560S Mini‐Module is  disabled J27 – Reset Pullup The RESET signal of the MPC560xS processor can be pulled up to a logic high voltage. Jumper Setting Effect The RESET signal on the MPC560xS processor is  pulled up to 5V The RESET signal on the MPC560xS processor is  pulled up to 3.3V Figure 5-3: Reset circuitry schematic xPC560S EVB User Manual...

  • Page 54: Xpc560Sadpt208S Hardware & Jumper Settings

    If J7 is configured for serial boot mode, this jumper selects between UART or CAN. If J7 is configured for internal boot mode, this jumper has no effect. Jumper Setting Effect The MPC560xS processor uses the CAN interface for  1+2  serial boot mode The MPC560xS processor uses the UART interface  2+3 (default) for serial boot mode xPC560S EVB User Manual...

  • Page 55: Power Configuration

    The following jumpers affect the power supply pins of the MPC560xS processor: J4 – VIO Voltage Selection Controls whether certain I/O pins are powered using 5V or 3.3V. In particular, this controls the voltage of the reset circuit and the logic high voltage for the xPC560S EVB User Manual...
  • Page 56 Allows 5V to be selected for the various power pins on the MPC560xS processor. Jumper Setting Effect 5V is available to power the various power supply  On (default) pins on the MPC560xS processor 5V cannot be used to power any of the various  power supply pins on the MPC560xS processor J15 – 1.2V Core Voltage Enable Controls whether power is provided to the “VDD 1V2” pins on the MPC560xS processor. Jumper Setting Effect MPC560xS “VDD 1V2” pins are connected to 1.2V  On (default) power MPC560xS “VDD 1V2” pins are left disconnected xPC560S EVB User Manual...
  • Page 57 Allows 3.3V to be selected for the various power pins on the MPC560xS processor. Jumper Setting Effect 3.3V is available to power the various power supply  On (default) pins on the MPC560xS processor 3.3V cannot be used to power any of the various  power supply pins on the MPC560xS processor J22 – VDDE_A Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_B”, “VDD_IO_C”, and “VDD_IO_G” power pins. Jumper Setting Effect xPC560S EVB User Manual...
  • Page 58 J16 – VDDR Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_A” power pin. Jumper Setting Effect MPC560xS “VDD_IO_A” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_A” is powered by 3.3V (J18  must be ON) J26 – VDDE_E Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_D” power pin. Jumper Setting Effect MPC560xS “VDD_IO_D” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_D” is powered by 3.3V (J18  must be ON) xPC560S EVB User Manual...
  • Page 59 MPC560xS “VDD_SMD_C” is powered by 5V (J14  1+2 (default) must be ON) MPC560xS “VDD_SMD_C” is powered by 3.3V (J18  must be ON) J20 – VDDMB Voltage Selection Sets the voltage level on the MPC560xS “VDD_SMD_B” power pin. Jumper Setting Effect MPC560xS “VDD_SMD_B” is powered by 5V (J14  1+2 (default) must be ON) MPC560xS “VDD_SMD_B” is powered by 3.3V (J18  must be ON) J19 – VDDMA Voltage Selection Sets the voltage level on the MPC560xS “VDD_SMD_A” power pin. Jumper Setting Effect xPC560S EVB User Manual...
  • Page 60 Sets the voltage level on the MPC560xS “VDD_IO_F” power pin. Jumper Setting Effect MPC560xS “VDD_IO_F” is powered by 5V (J14 must  1+2 (default) be ON) MPC560xS “VDD_IO_F” is powered by 3.3V (J18 must  be ON) J23 – VDDE_B Voltage Selection Sets the voltage level on the MPC560xS “VDD_IO_A” and “VDD_IO_E” power pins. Jumper Setting Effect MPC560xS “VDD_IO_A” and “VDD_IO_E” are  1+2 (default) powered by 5V (J14 must be ON) MPC560xS “VDD_IO_A” and “VDD_IO_E” are  powered by 3.3V (J18 must be ON) xPC560S EVB User Manual...

  • Page 61: System Clock Configuration

    J10 – Crystal clock source enable Both of the jumpers below need to be installed to enable the crystal clock source. Jumper Setting Effect The MPC560xS “OSCIN” signal is connected to the  1+2 (default) crystal clock source on the xPC560S Mini‐Module The MPC560xS “OSCOUT” signal is connected to the  3+4 (default) crystal clock source on the xPC560S Mini‐Module J11 – External clock source enable The xPC560S Mini-Module contains a footprint for an SMA connector, which xPC560S EVB User Manual...
  • Page 62 Jumper Setting Effect The MPC560xS “EXTAL” signal is connected to the  SMA connector on the xPC560S Mini‐Module The SMA connector on the xPC560S Mini‐Module is  Off (default) disconnected from the processor Figure 6-2: System Clock schematic xPC560S EVB User Manual...

  • Page 63: General Configuration

    A RESET push button on the xPC560S Mini-Module can be used to reset the processor. Jumper Setting Effect The RESET button on the xPC560S Mini‐Module is  On (default) enabled The RESET button on the xPC560S Mini‐Module is  disabled J28 – Reset Pullup The RESET signal of the MPC560xS processor can be pulled up to a logic high voltage. Jumper Setting Effect The RESET signal on the MPC560xS processor is pulled  up to 5V The RESET signal on the MPC560xS processor is pulled  up to 3.3V xPC560S EVB User Manual...
  • Page 64 Figure 6-3: Reset circuitry schematic xPC560S EVB User Manual...

  • Page 65: Debugging/Programming The Xpc560S Evb

    DEBUGGING/PROGRAMMING THE xPC560S EVB P&E provides hardware and software tools for debugging and programming the xPC560S EVB system. P&E’s USB-ML-PPCNEXUS and Cyclone MAX offer two effective hardware solutions, depending on your needs. The USB-ML-PPCNEXUS is a development tool that will enable you to debug your code and program it onto your target.

  • Page 66: Working With P&E's Usb-Ml-Ppcnexus

    FLASH memory devices. The USB-ML-PPCNEXUS enables you to debug, program, and test your code on your board. 7.2.2 Software The USB-ML-PPCNEXUS Interface works with Codewarrior as well as P&E’s xPC560S EVB User Manual...

  • Page 67: Working With P&E's Cyclone Max

    When connected to a PC for programming or loading it can communicate via the ethernet, USB, or serial interfaces. 7.3.2 Software The Cyclone MAX comes with intuitive configuration software and interactive xPC560S EVB User Manual...
  • Page 68 P&E’s Cyclone MAX is also available bundled with additional software as part of various Development Packages. In addition to the Cyclone MAX, these Development Packages include in-circuit debugging software, flash programming software, a Windows IDE, and register file editor. xPC560S EVB User Manual...

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