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MPC5xxx Knowledge Base

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******************************************************************************** * Detailed Description: * Initializes eQADC module, performs calibration and converts channel 0 and * displays results into terminal window by interrupt service routine. Analog * input AN[0] requires external connection to converted voltage (potentiometer). * ------------------------------------------------------------------------------ * Test HW:        MPC5554EVB * MCU:            MPC5554MVR132 * Fsys:           132/112/80/12 MHz * Debugger:       Lauterbach Trace32 *                 PeMicro USB-ML-PPCNEXUS * Target:         RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: USER_DEV pin RV2(i.e. pin8) -> pin B7 on I/O header ring *                 (potentiometer RV2 to analog input AN[0])   * ********************************************************************************
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******************************************************************************** * Detailed Description: * Purpose of the example is to show how to generate Multi bit ECC error in * internal SRAM or FLASH (user must choose it in the option at the end of main * function) and how to handle this error with respect to constraints given by * MPC5643L architecture (ECSM/RGM/FCCU relation and ECC error handling through * reset). The example is only possible to run in internal_FLASH target. Power- * -on-reset is required after downloading the code into MCU's flash. The example * displays notices in the terminal window (setting specified below). No other * external connection is required. * ------------------------------------------------------------------------------ * Test HW:         xPC564xLKIT, PPC5643L Cut3 silicon * Target :         internal_FLASH * Fsys:            120 MHz PLL0 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Terminal:        19200-8-no parity-1 stop bit-no flow control via LINFlex0 * EVB connection:  default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, third LED by software * loop, initializes and display notice via UART terminal and then terminal ECHO. * Second core is started and second LED blinking is being performed by it. * The example configures the device for maximum performance (OPTIMIZATIONS_ON) * by initialization of instruction cache and enabling of branch prediction. * Example suppose MCU is configured for DPM (Decoupled-parallel mode). * Its intention is to offer advanced startup code additional to CW stationery. * * ------------------------------------------------------------------------------ * Test HW:         xPC564xLKIT, PPC5643L Cut3 silicon * Target :         internal_FLASH, RAM * Fsys:            120 MHz PLL0 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Terminal:        19200-8-no parity-1 stop bit-no flow control via LINFlex0 * EVB connection:  default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, second LED by software * loop, initializes and display notice via UART terminal and then terminal ECHO. * * ------------------------------------------------------------------------------ * Test HW:        XPC563MKIT * MCU:            PPC5633MMLQ80 * Fsys:           80/60/40/12 MHz * Debugger:       Lauterbach Trace32 *                 PeMicro USB-ML-PPCNEXUS * Target:         RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Example show simple flash programming routine. During runtime it changes * content of field of constants 'test' (thus located in internal flash). * Also it shows how to relocate code into RAM a data into FLASH (used linker * command file is MPC5643L_my_sections.lcf and MPC5643L_DEBUG_my_sections.lcf). * * Note: For complex tasks use SSD driver (Freescale site for particular device, * Software&Tools/Run-Time Software/Middleware-Device Drivers * * ------------------------------------------------------------------------------ * Test HW:         xPC564xLKIT, PPC5643L Cut3 silicon * Target :         internal_FLASH, RAM * Fsys:            120 MHz PLL0 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Terminal:        19200-8-no parity-1 stop bit-no flow control via LINFlex0 * EVB connection:  default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Initializes eQADC module, performs calibration and converts channel 146 * (voltage level of VDD) to check core voltage level and displays it into * terminal window. No external connection required excluding terminal via eSCI. * * ------------------------------------------------------------------------------ * Test HW:        XPC564AKIT208S and XPC564AKIT324S * MCU:            SPC5644AMMG1,0M14X and SPC5644AMVZ1,0M14X * Fsys:           150/132/120/12 MHz * Debugger:       Lauterbach Trace32 *                 PeMicro USB-ML-PPCNEXUS * Target:         RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Enable external interrupt on pin PA[3]. * If falling edge is detected, interrupt is triggered and LED1 on PE[4] is * toggled. * * Connect external signal to PA[3] or connect push button by wire. * * ------------------------------------------------------------------------------ * Test HW:  TRK-MPC5606B, SPC5606B 0N32E * Target :  internal_FLASH, RAM * Fsys:     64 MHz PLL with 8 MHz crystal reference * ********************************************************************************
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External Bus Interface FAQs related to MPC55xx and MPC56xx MCUs Preliminary version
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******************************************************************************** * Detailed Description: * Example demostrates MCU behaviour when single bit RAM ECC error occurs by * intentional ECC error injection. * * ------------------------------------------------------------------------------ * Test HW:         xPC564xLKIT, PPC5643L Cut3 silicon * Target :         internal_FLASH * Fsys:            120 MHz PLL0 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Terminal:        19200-8-no parity-1 stop bit-no flow control via LINFlex0 * EVB connection:  default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes and display notice via UART terminal and then terminal ECHO. It * calculates temperature using TSENS0 and TSENS1 and prints it to the terminal. * * ------------------------------------------------------------------------------ * Test HW:         xPC564xLKIT, PPC5643L Cut3 silicon * Target :         internal_FLASH, RAM * Fsys:            120 MHz PLL0 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Terminal:        19200-8-no parity-1 stop bit-no flow control via LINFlex0 * EVB connection:  default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, second LED by software * loop, initializes and display notice via UART terminal and then terminal ECHO. * The example configures the device for maximum performance (OPTIMIZATIONS_ON) * by initialization of instruction cache and enabling of branch prediction. * Example suppose MCU is configured for LSM (Lock-step mode). * Its intention is to offer advanced startup code additional to CW stationery. * * ------------------------------------------------------------------------------ * Test HW:         xPC564xLKIT, PPC5643L Cut3 silicon * Target :         internal_FLASH, RAM * Fsys:            120 MHz PLL0 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Terminal:        19200-8-no parity-1 stop bit-no flow control via LINFlex0 * EVB connection:  default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, second LED by software * loop, initializes and display notice via UART terminal and then terminal ECHO. * The example configures the device for maximum performance (OPTIMIZATIONS_ON). * * ------------------------------------------------------------------------------ * Test HW:        MPC5554EVB * MCU:            MPC5554MVR132 * Fsys:           132/112/80/12 MHz * Debugger:       Lauterbach Trace32 *                 PeMicro USB-ML-PPCNEXUS * Target:         RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: TPU_PORT_37 -> USER_LED_8 *                 TPU_PORT_38 -> USER_LED_7 (to see blinking LEDs)   * ********************************************************************************
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This example enters the MCU into STANDBY0 low power mode and wakes up to backup SRAM. The WKPU6 (PE[0]pin) is used to wake up the MCU.   Regards, Petr   ******************************************************************************** * Detailed Description: * * On the EVB use KEY2 to enter Standby. * Use KEY1 to wake up from Standby to a code in backup SRAM. * * In RUN mode the LED1 blinks very fast, second core toggels LED3 * In STANDBY all LEDs are off. * The wakeup code blinks LED1 and LED2 slowly. * * The macro WKP_CORE is used to select which core is used after MCU wakes up. * When z4 core is selected, it is also necessary to set the MMU otherwise exception * is generated when uncovered memory area is accessed. * This is not needed for z0 core due to lack of the MMU.  * * * ------------------------------------------------------------------------------ * Test HW:  XPC56xxMB2 + XPC564xB/C, SPC5646C 0N32E silicon * Target :  internal_FLASH * Fsys:     120 MHz PLL0 ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, second LED by software * loop, initializes and display notice via UART terminal and then terminal ECHO. * The example configures the device for maximum performance (OPTIMIZATIONS_ON). * IT INITIALIZES EBI FOR EXTERNAL SRAM CONNECTED TO XPC564AKIT324S AND TEST IT. * * ------------------------------------------------------------------------------ * Test HW:        XPC564AKIT324S * MCU:            SPC5644AMVZ1 0M14X QAK1235G * Fsys:           150/132/120/12 MHz * Debugger:       Lauterbach Trace32 * Target:         RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: default * ********************************************************************************
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******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, second LED by software * loop, initializes and display notice via UART terminal and then terminal ECHO. * The example configures the device for maximum performance (OPTIMIZATIONS_ON). * For XPC564AKIT324S it initializes EBI for mounted external SRAM. * Its intention is to offer advanced startup code additional to CW stationery. * ------------------------------------------------------------------------------ * Test HW:        XPC564AKIT208S and XPC564AKIT324S * MCU:            SPC5644AMMG1,0M14X and SPC5644AMVZ1,0M14X * Fsys:           150/132/120/12 MHz * Debugger:       Lauterbach Trace32 *                 PeMicro USB-ML-PPCNEXUS * Target:         RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: default * ********************************************************************************   NOTE: It cannot be used with MPC5642A device, only with MPC5644A and MPC5643A !   For MPC5642A device, use following project instead of attached one: Example XPC5642AKIT PinToggleStationery CW10.6
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******************************************************************************** * Detailed Description: * This example shows how to configure Wake up unit and CAN sampler. * Once the device is woken up from STOP mode by falling edge on CAN0RX pin, * the CAN sampler starts to sample this pin in given period. * FlexCAN module is not initialized and used in this example because the CAN * sampler is independent of FlexCAN. * ------------------------------------------------------------------------------ * Test HW:  XPC56xxMB2 + XPC560B 176LQFP, PPC5607B * Target :  internal_FLASH, RAM * Fsys:     64 MHz PLL * ********************************************************************************
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******************************************************************************** * Detailed Description: * * ------------------------------------------------------------------------------ * Test HW:  TRK-MPC5604P, SPC5604P * Maskset:  0M36W * Target :  RAM * Terminal: no * Fsys:     64 MHz PLL with 8 MHz crystal reference in RUN0. IRC in DRUN * * 1. you have to use an external power supply to the board (SBC power)   2. The SBC chip must be initialized (via SPI interface) to turn on the CAN transceiver.   3. For ease of use, install the VSUP shunt on (jumper J5). This it to put 9 V on the SBC's DBG pin - refer to the SBC Data Sheet for more details about the DBG pin of the SBC chip.   4. This code initializes the MCU, then sends commands to the SBC chip over the SPI bus to turn on the CAN transceiver, then the FlexCAN_0 module transmits a message out of the board.   I/O configuration for the TRK-MPC5604P CAN example:   MCU_PB0 -> SBC_TXD  (MPC5604P CAN0TX PCR[16] ALT1 function) MCU_PB1 <- SBC_RXD  (MPC5604P CAN0RX PCR[17] input function)   SPI bus between the MCU and SBC:   MCU_PC4 -> SBC_!CS    (MPC5604P DSPI_0 CS0  ALT1 function PCR[36]) MCU_PC5 -> SBC_CLK    (MPC5604P DSPI_0 SCK  ALT1 function PCR[37]) MCU_PC6 -> SBC_MOSI   (MPC5604P DSPI_0 SOUT ALT1 function PCR[38]) MCU_PC7 <- SBC_MISO   (MPC5604P DSPI_0 SIN  input function PCR[39])  * ********************************************************************************
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This simple example shows usage of the FlexPWM module on the TRK board. If a PWM output is connected to the LED you can see its dimming.   Regards, Petr   ******************************************************************************** * Detailed Description: * * This example shows usage of FlexPWM module. * The Submodule0 is set to generate independent PWMA and PWMB signals and vary * its duty cycles. The PWMX is also enabled as output and is set for fixed 50% * duty. *   * You can remove LED_EN jumpers and connect FlexPWM A an B outputs to LEDs to see * its dimming. * * ------------------------------------------------------------------------------ * Test HW: TRK-MPC5604P * Maskset:  0M36W * Target : internal_RAM * Terminal: no * Fsys:     64 MHz with 8 MHz XOSC reference * Debugger: IDCPPCNEXUS * * TRK board connection: * * P4.10 - D[9]  .. FlexPWM X[0] output * P1.11 - A[10] .. FlexPWM B[0] output * P1.12 - A[11] .. FlexPWM A[0] output * *   ********************************************************************************
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This simple example shows the ADC setting for the scan mode and usage of Trimmer on TRK-MPC5604P board. Use Trimmer to dim the LED1.   Regards, Petr     ******************************************************************************** * Detailed Description: * * ADC testing and usage of Trimmer on TRK board * * ------------------------------------------------------------------------------ * Test HW:  TRK-MPC5604P * Maskset:  0M36W * Target :  internal_RAM * Terminal: no * Fsys:     64 MHz with 8 MHz XOSC reference * EVB connection: * * Use Trimmer to dim the LED1 * * NOTE! Be sure the ADC is powered, J21 5V jumper ON * ********************************************************************************
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This is the first lab for the 2D-ACE (DCU) tutorial
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