MPC5xxx知识库

讨论

MPC55xx MPC5554 MPC5566 MPC56xx MPC5602D MPC5604B MPC5604E MPC5606S MPC5604P MPC5607B MPC5646C MPC5634M MPC5642A MPC5644A MPC5643L MPC5668G MPC5674F MPC5675K MPC5676R MPC57xx MPC5744P MPC5777C MPC5777M MPC5746R MPC5748G MPC5746C MPC5775K S32R274 MPC5554 Codewarrior Classic Example MPC5554EVB PinToggleStationery CW210 Example MPC5554 eQADC+INTC Single Scan CW210 Go to the top of the page MPC5566 Codewarrior Classic Example MPC5566EVB PinToggleStationery CW210 Example MPC5566 Hardware vector mode CW210 Go to the top of the page MPC5602D GreenHills MULTI Example MPC5602D FMPLL GHS614 Go to the top of the page MPC5604B Codewarrior Classic Example MPC5604B PinToggleStationery CW210 Example MPC5604B LINFlex LIN Master-Slave communication demo CW210 Example MPC5604B Shadow Flash Reprogramming CW210 Example MPC5604B Flash Array Integrity Check CW210 - using SSD flash drivers Example MPC5604B Censorship CW210 Example MPC5604B ADC-Pot-ADCWatchDog-INTC-printf CW210 Example MPC5604B SWT Windowed mode CW210 Go to the top of the page MPC5604E Codewarrior Classic Example MPC5604E PinToggleStationery CW210 Go to the top of the page MPC5606S Codewarrior Classic Example MPC5606S-DEMO LM75B+TFT CW210 Example MPC5606S-DEMO HIH-5030+TFT CW210 Example MPC5606S-DEMO PCA8565+TFT CW210 Demo application MPC5606S-DEMO + LM75B + HIH-5030 + PCA8565 + GUI CW210 Example MPC5606S-STOP_mode_implementation CW210 Go to the top of the page MPC5604P Codewarrior Classic Example MPC5604P PinToggleStationery CW210 Example TRK-MPC5604P Initialization of SBC chip MC33905 and FlexCAN CW210 Example MPC5604P ADC setting for scan mode on TRK board CW210 Example MPC5604P FlexPWM Initialization on TRK board CW210 Go to the top of the page MPC5607B Codewarrior Classic Example MPC5607B PinToggleStationery CW210 Example MPC5606B SIUL External interrupt CW210 Example MPC5607B CAN sampler and STOP mode Example MPC5607B-DMA+LinFlex CW210 Example MPC5607B SRAM_keep_data_over_SW_reset CW210 Go to the top of the page MPC5646C Codewarrior Classic Example MPC5646C PinToggleStationery CW210 Example MPC5646C Standby Wakeup To SRAM CW210 Example MPC5646C eMIOS frequency measurement CW210 GreenHills MULTI Example MPC5646C PIT ISR GHS614 Go to the top of the page MPC5634M Codewarrior Classic Example XPC563MKIT PinToggleStationery CW210 Example TRK-MPC5634M Initialization of SBC chip MC33905 and FlexCAN CW29 Example MPC5634M_2b_RAM_ECC_error_injection CW210 Go to the top of the page MPC5642A Codewarrior Eclipse Example XPC5642AKIT PinToggleStationery CW10.6 Go to the top of the page MPC5644A S32 Design Studio Example MPC5644A BookE PinToggle - S32DS Power 2017.R1 Codewarrior Eclipse Example MPC5644A External SRAM - CodeWarrior for MCUs v10.5 Codewarrior Classic Example XPC564AKIT PinToggleStationery CW210 Example XPC564AKIT324S External SRAM test CW210 Example MPC5644A eQADC channel 146 conversion+calibration CW210 Example MPC5644A TSENS Temperature calculation CW210 Example MPC5644A Censorship CW210 GreenHills MULTI Example MPC5644A EMIOS shifted PWM GHS614 Go to the top of the page MPC5643L Codewarrior Classic Example XPC5643LKIT PinToggleStationery LSM CW210 Example XPC5643LKIT PinToggleStationery DPM CW210 Example MPC5643L Flash_program_simple CW210 Example MPC5643L TSENS Temperature_calculation CW210 Example MPC5643L-LVD_HVD_self_test+FCCU_F CW210 Example MPC5643L 1b_RAM_ECC_error_injection CW210 Example MPC5643L 2b RAM and 2b FLASH ECC error injection CW210 GreenHills MULTI Example MPC5643L eTimer DMA GHS614 Go to the top of the page MPC5668G Codewarrior Classic Example MPC5668G PinToggleStationery CW210 Go to the top of the page MPC5674F Codewarrior Classic Example XPC567XFKIT PinToggleStationery CW210 Example MPC5674F eQADC+eDMA Single_Scan CW210 Example MPC5674F eQADC+eDMA-Single+Differential+GAIN CW210 Example MPC5674F eQADC+eDMA Continuous_Scan CW210 Example MPC5674F eQADC-Streaming Mode CW210 Example MPC5674F eQADC_PMC_chnl_conv+calib CW210 Example MPC5674F_1b+2b_RAM_ECC_error_injection CW210 Example MPC5674F MPU Initialization CW210 Example MPC5674F TSENS-Temperature_calc CW210 Go to the top of the page MPC5675K Codewarrior Classic Example MPC5675K PinToggleStationery LSM CW210 Example MPC5675K PinToggleStationery DPM CW210 Example MPC5675K Data_flash_program_simple CW210 Example MPC5675K-2b_RAM+2b_FLASH_ECC_error_injection CW210 Example MPC5675K TSENS Temperature calculation CW210 Go to the top of the page MPC5676R Codewarrior Classic Example XPC567XRKIT PinToggleStationery CW210 Example MPC5676R DSPI MasterSlave DMA CW210 Example MPC5676R DSPI-ext_SPI_memory-S25FL129P CW210 Example MPC5676R-eQADC_PMC_chnl_conv+calib CW210 Example MPC5676R-eQADCA_STAC_timestamp_eTPUC CW210 Example MPC5676R-eQADC_DECFILTER_integrator_eTPU CW210 S32 Design Studio Example MPC5676R HardwareVectorMode Multicore S32DS_2017.R1 GreenHills MULTI Example MPC5676R BIST core1 GHS716 Example MPC5676R BIST Core0&1 GHS716 (multicore) Go to the top of the page MPC5744P S32 Design Studio Example MPC5744P PinToggleStationery S32DS_1.0 Example MPC5744P LINFlex UART with DMA S32DS_1.0 Example MPC5744P ETimerCountMode S32DS_1.0 Example MPC5744P HardwareVectoreMode S32DS_1.0 Example MPC5744P STM timer S32DS Power 2017.R1 Example MPC5744P eTimer ADC injected conversion S32DS_2.1 Example MPC5744P FlexPWM Init Capture test S32DS21 Example MPC5744P Flash_Overlay_SRAM S32DS Power.2.1 GreenHills MULTI Example MPC5744P FlexCAN simpleTXRX GHS614 Example MPC5744P eTimer frequency measurement GHS614 Example MPC5744P FlexPWM CTU ADC synchronization GHS614 Example MPC5744P FlexPWM SGEN synchronization GHS614 Example MPC5744P TSENS temperature calculation GHS614 Example MPC5744P LINFlex UART echo SW polling GHS614 Example MPC5744P FlexPWM init with DMA reload GHS614 Example MPC5744P FlexPWM CTU SGEN triggering GHS614 Example MPC5744P DMA multiple minor transfers GHS614 Example MPC5744P DMA GHS614 Example MPC5744P XBIC0 Error injection on XBAR_0 (Core access to SRAM) GHS614 Example MPC5744P XBIC_1 fault injection on DMA transfer GHS614 Example MPC5744P eTimer CTU ADC synchronization GHS614 Example MPC5744P PIT triggering interrupts GHS614 Example MPC5744P FCCU fault injection GHS614 Example MPC5744P ADC GHS614 Example MPC5744P CTU triggered by eTimer0 GSH614 Example MPC5744P LIN Master Slave test GHS614 Example MPC5744P 1b+2b_FLASH_ECC_error_by_UTEST_area_read GHS614 Example MPC5744P 1b+2b_RAM_ECC_error_injection GHS714 Example MPC5744P 1b+2b_PERRAM_ECC_error_injection GHS614 Example MPC5744P EDC_after_ECC_error_by_UTEST_area_read GHS714 Example MPC5744P_2b_DMEM_ECC_error_injection GHS714 Example MPC5744P 1b+2b_FlexCAN_ECC_error_injection GHS714 Example MPC5744P CGM GHS614 Example MPC5744P eTimer DMA frequency measurement GHS614 Example MPC5744P FlashArrayIntegrityCheck test SSD GHS614 Example MPC5744P SWT Short reset GHS614 Example MPC5744P SWT Long reset GHS614 Example MPC5744P FCCU alarm state GHS614 Example MPC5744P FCCU clear faults GHS614 Example MPC5744P ADC DMA GHS614 Example MPC5744P FlexPWM shifted PWM GHS616 Example MPC5744P PMC SW triggered self-test GHS614 Example MPC5744P PMC Single VD self-test GHS614 Example MPC5744P BIST On-line GHS614 Example MPC5744P EIM RAM ECC error injection GHS614 Example MPC5744P FlexCAN TX RXFIFO ISR GHS614 Example MPC5744P CMPU Initialization GHS614 Example MPC5744P FlexPWM_0&1 synchronization GHS716 Example MPC5744P ADC Self Test GHS716 Go to the top of the page MPC5777C S32 Design Studio Example MPC5777C Single ELF multi-core Pin Toggling - S32DS Power 2017.R1 Example MPC5777C DSPI master TX/RX DMA S32DS Power 2.1 Example_MPC5777C-External_SRAM-test-S32DS.Power.2017.R1 GreenHills MULTI Example MPC5777C-PinToggleStationery GHS714 Example MPC5777C-SIUL_External_IRQ GHS714 Example MPC5777C-1b+2b_RAM_ECC_error_injection GHS614 Example MPC5777C FCCU-FOSU-error-injection GHS714 Example MPC5777C TSENS Temperature calculation GHS614 Example MPC5777C eMIOS-eQADC Continuous external trigger mode GHS614 Example MPC5777C-SDADC_simple GHS614 Example MPC5777C-SDADC_eTPU_triggered GHS714 Example MPC5777C-eQADC_Simple GHS714 Example MPC5777C-eQADC_Simple+Calibration GHS714 Example MPC5777C-eQADC_Simple+Calibration_bandgap GHS714 Example MPC5777C eQADC_Simple+Calibration+Timestamp GHS714 Example MPC5777C-eQADC_A+B-Calibration GHS714 Example MPC5777C FlexCAN simpleTXRX SW poll GHS616 Example MPC5777C MCAN simpleTXRX GHS616 Example MPC5777C MCAN-FD simpleTX RX-ISR GHS616 Example MPC5777C FlexCAN simple TXRX ECC enabled GHS616 Example MPC5777C External SRAM_test GHS714 Example MPC5777C-eTPU_GPIO_test GHS714 Example MPC5777C eTPU_FPM_test GHS714 Example MPC5777C Progresive clock switching GHS716 Example MPC5777C eMIOS IGF test GHS614 Example MPC5777C-Clock_setting_change GHS714 Example MPC5777C-SRAM_keep_data_over_SW_reset GHS714 Go to the top of the page MPC5777M S32 Design Studio Example MPC5777M PinToggleStationery S32DS_1.0 Processor Expert RAppID Suite for MPC5777M and S32DS_1.1 Integration Multicore Example GreenHills MULTI Example-MPC5777M-CGM (clock configuration) GHS614 Example MPC5777M-DPM-PLL-200MHz GHS614 Example MPC5777M PIT ISR GHS614 Example MPC5777M LINFlex UART Echo SW polling GHS614 Example MPC5777M DSPI_SimpleTXRX S32DS_1.1 Example MPC5777M FCCU Fake fault injection GHS614 Example MPC5777M MCAN simple TX/RX GHS614 Example MPC5777M TSENS Temperature Calculation GHS616 Example MPC5777M FCCU alarm state GHS614 Go to the top of the page MPC5775K S32 Design Studio Example MPC5775K PinToggleStationery S32DS_1.0 Example MPC5775K-DMA_Transfer S32DS_1.0 Example MPC5775K UART_with_DMA S32DS_1.0 Example MPC5775K-UART_with_Interrupts S32DS_1.0 Example MPC5775K FlexCAN_with_interrupts_v1.1 S32DS_1.1 Example MPC5775K Semaphores S32DS_1.0 Example MPC5775K eTimer_PWM S32DS_1.0 Example MPC5775K ADC_example S32DS_1.0 Example MPC5775K IIC Communication with RTC PCA8565TS/1 S32DS_1.0 Example MPC5775K DSPI_with_interrupts S32DS_1.0 GreenHills MULTI Example MPC5775K CGM (clock configuration) GHS614 Example MPC5775K PIT ISR GHS614 Example MPC5775K Multicore GHS614 Go to the top of the page MPC5748G S32 Design Studio Example MPC5748G-FlexCAN_with_interrupts S32DS_1.0 Example MPC5748G Overlay SRAM Overlay Flash config S32DS Example MPC5748G FlexCAN RXFIFO SDK PA RTM200 S32DS.Power.2017.R1 Example MPC5748G PretendedNetworkingCAN S32DS_1.0 Example MPC5748G SIUL External Interrupt SDK PA BETA290 S32DS.Power.2017.R1 Example MPC5748G Low power modes S32DS_2017.R1 Example MPC5748G eMIOS BCTU ADC trigger S32DS2.1 Example MPC5748G FlexCAN TX/RX FreeRTOS S32DS2.1 Example MPC5748G FlexCAN FD TX/RX S32DS2.1 Example MPC5748G FlexCAN RXFIFO DMA SDK303 S32DS21 GreenHills MULTI Example MPC5748G PinToggleStationery GHS614 Example MPC5748G FlexCAN DMA ISR Example MPC5748G SMPU initialization GHS614 Example MPC5748G SMPU initialization + Process ID test GHS614 Example MPC5748G Flash RW SSD GHS614 Example MPC5748G Flash RW GHS614 Example MPC5748G PIT ISR GHS614 Example MPC5748G ADC driver GHS614 Example MPC5748G BCTU GHS614 Example MPC5748G + PCF8885 Touch sensing demo GHS614 Example MPC5748G CRC32 GHS614 Example MPC5748G Standby mode GHS614 Example MPC5748G Register Protection GHS614 Example MPC5748G FlexCAN FD simple TX/RX GHS614 Example MPC5748G DSPI extended mode GHS614 Example MPC5748G FMPLL Frequency Modulation GHS614 Example MPC5748G DPM Multicore GHS614 Example MPC5748G LINFlex LIN Master Slave test GHS616 Go to the top of the page MPC5746C GreenHills MULTI Example MPC5746C PIT ISR GHS614 Example MPC5746C eMIOS Shifted PWM GHS716 Example MPC5746C FMPLL modulation GHS716 Example MPC5746C FCCU EOUT GHS716 Go to the top of the page MPC5746R S32 Design Studio Example MPC5746R PinToggleStationery - S32DS Power 2017.R1 Example MPC5746R FlexCAN_with_interrupts S32DS_1.1 Example MPC5746R eTPU_original_set1_integration PWM_test S32DS.Power.2017.R1 Example MPC5746R DSPI simple TX RX S32DS Power 2017.R1 Example MPC5746R DSPI_serialization S32DS.Power.2.1 GreenHills MULTI Example MPC5746R CGM (clock configuration) GHS614 Example MPC5746R DPM (multicore) GHS614 Example MPC5746R Online BIST GHS614 Example MPC5746R PIT ISR GHS614 Example MPC5746R FCCU Alarm State GHS716 Example MPC5746R ADC Self-test GHS716 Standalone Debugger Script Example MPC5746R Off-line BIST Lauterbach script Go to the top of the page S32R274 S32 Design Studio Example S32R274 Multi-core shared memory S32DS_1.2 Example S32R274 FlexCAN_with_Interrupts S32DS_1.1 Example S32R274 Watchdog_example S32DS_1.1 GreenHills MULTI Example S32R274 CGM GHS716 Example S32R274 SWT_2 reset trigger GHS716 Example S32R274 PIT ISR Example S32R274 FCCU read faults GHS716 Go to the top of the page

MPC5xxx Documents Links to source codes for eTPU functions eQADC - avoiding unintended result swap External Bus Interface FAQs FlexCAN bit timing calculation Excel configurators MPC5xxx/S32Kxx: CAN / CAN FD bit timing calculation SW Drivers MPC5xxx I2C communication driver MPC55xx/56xx Documents e200 Core Training relevant to MPC55xx and MPC56xx device family Error Correcting Codes Implemented on MPC55xx and MPC56xx Excel configurators Excel MPC55xx/MPC56xx PLL Calculator MMU Assist Register CONFIGURATOR Debugger Scripts Example JTAG access – Addendum to application notes AN3283 and AN4365 MPC57xx Excel configurators Core MPU configurator MPC57xx - DCF records Debugger Scripts MPC57xx FCCU Utility scripts for Lauterbach debugger MPC5643L Documents MPC5643L PWM_ADC measurement concept GSH614 MPC5744P Documents MPC5744P_System_IO_Definition Using the Built-in Self-Test (BIST) on the MPC5744P Error Correcting Codes Implemented on MPC5744P MPC574xP - FCCU configuration guide Excel configurators Excel MPC5744P Clock Configurator MPC5744P DCF Configurator MPC5746R Documents MPC5746R STCU2 BIST configuration guide Excel configurators MPC5746R DCF Configurator MPC574xG/C Documents MPC5646C to MPC574xG Migration - Rev. 0, 09/2013 Draft only Excel configurators MPC5746C DCF Configurator MPC5748G DCF Configurator MPC5775K Excel configurators MPC5775K DCF Configurator MPC5777C Documents MPC5777C - Online BISTs Error Correction Codes Implemented on MPC5777C Excel configurators Excel MPC5777C clock configurator MPC5777C DCF Configurator MPC5777M Excel configurators MP5777M DCF Configurator S32R274 Excel configurators S32R274 DCF Configurator IDEs (CodeWarrior, S32 Design Studio) Documents How to program QSPI flash using CodeWarrior 10.x How to use CRCgen in CodeWarrior for MCU How to download separate elf/srec/hex file to microcontroller using S32 Design Studio How to use printf function in S32DS for Power Architecture using EWL library How to debug code using CodeWarrior 10.5 How to flash two .elf files using CodeWarrior 10.6 How to create FreeRTOS project in S32 Design Studio How to create new configuration in CodeWarrior for MCU For more HOWTOs related to S32 Design Studio, visit S32DS for Power - list of HOWTOs

This tool simplifies CAN bit timing calculation for CAN modules (FlexCAN, MCAN) available on MPC5xxx, S32Kxxx and LPCxxxx families. Enter input parameters into light green cells. Device and Transceiver are selected from pull-down menus. By selecting Transceiver, propagation delay parameter is also loaded, but can be simply overwritten by user value. Rest of parameters can be modified directly upon user needs. The tool lists possible setting together with register view. A recommended setting is highlighted. Three criteria are used for recommended values selection - desired sample point - highest fcpi accuracy - same prescalers for nominal and data phases, if CAN FD is calculated For sure other setting can be selected, if needed, by clicking on respective line in list. Note: Macros have to be enabled! BR, Petr

Revision 1 of the document is now officially published: http://cache.freescale.com/files/microcontrollers/doc/app_note/AN5200.pdf http://cache.freescale.com/files/microcontrollers/doc/app_note/AN5200SW.zip Related code examples can be found also here (equal to AN5200SW): Example 1 - MPC5634M_2b_RAM_ECC_error_injection CW210 Example 2 - MPC5674F_1b+2b_RAM_ECC_error_injection CW210 Example 3 - MPC5643L 1b_RAM_ECC_error_injection CW210 Example 4 - MPC5643L 2b RAM and 2b FLASH ECC error injection CW210 Example 5 - MPC5675K-2b_RAM+2b_FLASH_ECC_error_injection CW210

******************************************************************************** * Version: 1.0 * Date: Oct-22-2014 * Classification: General Business Information * Brief: This example demonstrate SWT functionality * On SWT timeout it sent signal to FCCU where is short * functional reset reaction on SWT timeout configured * FCCU then sent signal to RGM module which triggers short * functional reset. ******************************************************************************** * Test HW: MPC57xx * Maskset: 1N65H * Target : internal_FLASH * Fsys: 200 MHz PLL with 40 MHz crystal reference ******************************************************************************** Revision History: 1.0 Oct-22-2014 b21190(Vlna Peter) Initial Version 1.1 Mar-24-2015 b21190(Vlna Peter) Added SWT short reset *******************************************************************************/

******************************************************************************** * Detailed Description: * * LINFlex UART TXFIFO transmit using DMA * LINFlex UART mode with FIFO receive using DMA * * * EVB connection: * * Route LINFlexD_0 TXD/RXD (PB2/PB3) signals to the main board RS-232 transceiver * Daughtercard: * J17.11–12 ON .. Connect LINFlexD_0 TXD (PB2) to main board. * J17.8–9 ON .. Connect LINFlexD_0 RXD (PB3) to main board. * * Motherboard * J14 - SCI_RX ON * J13 - SCI_TX ON * J25 - SCI_PWR ON * * See results on PC terminal (baudrate 19200, Data bits 8, Stop bits 1, Parity none). * * ------------------------------------------------------------------------------ * Test HW: MPC57xx * Maskset: 1N65H * Target : internal_FLASH (debug mode, release mode without debugging information) * Fsys: 200 MHz PLL with 40 MHz crystal reference * Terminal: 19200, 8N1, None ********************************************************************************

******************************************************************************** * Detailed Description: * * Unlock, erase and program of flash mid block 0x00FB_8000 - 0x00FB_FFFF. * ------------------------------------------------------------------------------ * Test HW: X - PC5748G - MB (rev C) * MCU: PPC5748GMMN6A * Maskset: 1N81M * Fsys: 160 MHz * Debugger: Lauterbach Trace32 * * Target: Internal_FLASH * ********************************************************************************

******************************************************************************** * Detailed Description: * * * Initializes the MCU including the FlexCAN peripherals. * Configures the FlexCAN to transmit and receive a CAN message. * * In this config, CAN_0 transmits a message. CAN_1 receives the message. * CAN_0 MB8 is configured to send data. CAN_0 sends message each 1sec. * This interval is generated by PIT. * CAN_1 MB9 is configured to receive a message, SW polling is used. * * to connect FlexCAN0 module (MCU's PB0/PB1 pins) to the motherboard's transceiver * with J5 CAN DB9 connector you have to: * - connect J17 2-6 on daughter board * - connect J17 5-3 on daughter board * This should be done as default * To connect FlexCAN1 module (MCU's PA14/PA15 pins) to the motherboard's transceiver * with J6 CAN DB9 connector you have to: * - connect J37 2-3 on motherboard * - connect J38 2-3 on motherboard * * Connect CAN0-CANH on P15-1 to CAN1-CANH on P14-1 * Connect CAN0-CANL on P15-2 to CAN1-CANL on P14-2 * Terminate the CAN bus by connecting a 60 ohm resistor between CANH and CANL * ------------------------------------------------------------------------------ * Test HW: MPC57xx * Maskset: 1N65H * Target : internal_FLASH * Fsys: 200 MHz PLL with 40 MHz crystal reference * ********************************************************************************

This document describes MPC57xx DCF (device configuration record) in details. Before MPC57xx devices can be used by application they must pass a complex system reset sequence. During system reset sequence device initialization is done. Various self-test mechanism, configuration and trimming is executed during this time. In order to prepare correct device operation, it is necessary to configure device during reset phase. For this purpose, MPC57xx implements DCF records located in special one-time programable flash memory (UTEST). To easy the work with DCF records we have created a DCF records calculators for each MPC57xx ad S32R274 device. Links to calculators: MPC5746R: https://community.nxp.com/docs/DOC-334130 MPC5777C: https://community.nxp.com/docs/DOC-335523 MPC5744P: https://community.nxp.com/docs/DOC-341538 MPC5746C: https://community.nxp.com/docs/DOC-341539 MPC5748G: https://community.nxp.com/docs/DOC-341540 MPC5775K: https://community.nxp.com/docs/DOC-341541 MPC5777M: https://community.nxp.com/docs/DOC-341542 S32R274: https://community.nxp.com/docs/DOC-341633

******************************************************************************** * Detailed Description: * This example shows, how to initialize FlexCAN modules for simple transmission * and reception using RX interrupt. Both modules are configured for 100kbit/s * bit rate. CAN_0 module transmits message using MB0. CAN_1 module receives * message using interrupt via MB0. * * * ------------------------------------------------------------------------------ * Test HW: MPC5748G-324DS, MPC574XG - Motherboard * MCU: PPC5748GMMN6A 1N81M * Fsys: PLL0 160MHz * Debugger: Lauterbach Trace32 * PeMicro USB-ML-PPCNEXUS * Target: internal_FLASH (debug mode, release mode) * EVB connection: Connect jumpers J15 and J16 on motherboard * Connect P14 H to P15 H * Connect P14 L to P15 L * ********************************************************************************

******************************************************************************** * Detailed Description: * * * This example shows synchronization between FlexPWM, CTU and ADC modules. * The FlexPWM Submodule 0 is initialized to generate PWM signal, and rising edge * of PWM B0 signal is used to generate trigger signal for CTU module. The CTU module * sends two commands to ADCs. Single conversion mode is used, so ADC0 ch0 and ch1 * are sampled. The conversion result is used to modify PWM B0 rising egde position * and change delay between external trigger and ADC sequence triggering. * * ------------------------------------------------------------------------------ * Test HW: MPC57xx * Maskset: 1N65H * Target : internal_FLASH * Fsys: 200 MHz PLL with 40 MHz crystal reference * * EVB connection: * * P8.1 - A[0] .. GPIO output, used to see CTU-ADC ISR period * P9.1 - B[7] .. ADC0 AN[0] input * P9.2 - B[8] .. ADC0 AN[1] input * P16.4 - I[3] .. CTU0 EXT TRG output * P8.12 - A[11] .. FlexPWM A[0] output * P8.11 - A[10] .. FlexPWM B[0] output * * connect Trimmer J53.1 to P9.1 to change position of PWM B0 rising edge * connect Trimmer J53.1 to P9.2 to change CTU trigger delay from PWM B0 rising edge * * see CTU0 EXT TRG output signal (toggle on each trigger) on P16.4 with respect of PWM signals * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, initializes interrupts, blinking * one LED by Core0, second by Core1 (by interrupt), initializes and display * notice via UART terminal and then terminal ECHO. * * ------------------------------------------------------------------------------ * Test HW: MPC5777C-512DS Rev.A + MPC57xx MOTHER BOARD Rev.C * MCU: PPC5777CMM03 2N45H CTZZS1521A * Fsys: PLL1 = core_clk = 264MHz, PLL0 = 192MHz * Debugger: Lauterbach Trace32 * Target: internal_FLASH * Terminal: 19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: ETPUA30 (PortP P23-15) --> USER_LED_1 (P7-1) * ETPUA31 (PortP P23-14) --> USER_LED_2 (P7-2) * ********************************************************************************

******************************************************************************** * Detailed Description: * * Configures the FlexCANs to transmit and receive a CAN FD message with or without * bit rate switching for data phase. * Baudrate during arbitration phase is set to 500kbps, during data phase 2Mpbs. * * In this config, CAN_0 transmits a message. CAN_1 receives the message. * * EVB connection: * * CAN0-CANH on P15-1 to CAN1-CANH on P14-1 * CAN0-CANL on P15-2 to CAN1-CANL on P14-2 * * NOTE! Termination resistor (120Ohm) have to be placed on transceivers output * * ------------------------------------------------------------------------------ * Test HW: X-MPC574xG-324DS + X-MPC574XG-MB * Maskset: 1N81M * Target : FLASH * Fsys: 160 MHz PLL * ********************************************************************************

******************************************************************************** * Detailed Description: * Purpose of the example is to show how to generate Multi-bit or Single-bit * ECC error in internal SRAM (user must choose it in the option at the end of * main function). * Error Injection Module is used to generate a non-correctable (or single-bit) * ECC error in RAM. The bad data is accessed then, so the IVOR1 exception (or * ERM combined interrupt service routine) is generated and handled. * Example also offers useful macros for EIM and ERM modules. * The example displays notices in the terminal window (USBtoUART bridge J21) * (19200-8-no parity-1 stop bit-no flow control on eSCI_A). * No other external connection is required. * * ------------------------------------------------------------------------------ * Test HW: MPC5777C-512DS Rev.A + MPC57xx MOTHER BOARD Rev.C * MCU: PPC5777CMM03 2N45H CTZZS1521A * Fsys: PLL1 = core_clk = 264MHz, PLL0 = 192MHz * Debugger: Lauterbach Trace32 * Target: internal_FLASH * Terminal: 19200-8-no parity-1 stop bit-no flow control on eSCI_A * EVB connection: eSCI_A is USBtoUART bridge (connector J21) * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed * frequency * * * Mode transition to LPU_STOP is executed. CAN_0 is configured to wake up from * LPU_STOP to LPU_RUN using message with standard IDE = 0 as a wake up * preselected matching criteria. After wake up from LPU_STOP, user * LED1 is blinking. * * Modified files: mem.ld, sections.ld, startup.s, added file z2_restart.s * * * ------------------------------------------------------------------------------ * Test HW: MPC5748G-324DS, MPC574xG Motherboard * MCU: PPC5748GMMN6A 1N81M * Fsys: PLL0 160MHz * Debugger: Lauterbach Trace32 * PeMicro USB-ML-PPCNEXUS * Target: internal_FLASH (debug mode, release mode) * EVB connection: Default * * * ********************************************************************************

Detailed Description: Initializes the MCU including the FlexCAN peripherals. Configures the FlexCAN to transmit and receive a CAN message. In this config, CAN_0 transmits a message. CAN_1 receives the message. CAN_0 MB8 is configured to send data each 1sec.This interval is generated by PIT. CAN_1 RXFIFO is configured to receive a message and interrupt for MB5 is enabled. To connect FlexCAN0 module (MCU's PB0/PB1 pins) to the motherboard's transceiver with J5 CAN DB9 connector you have to: - connect J17 2-6 on daughter board - connect J17 5-3 on daughter board This should be done as default To connect FlexCAN1 module (MCU's PA14/PA15 pins) to the motherboard's transceiver with J6 CAN DB9 connector you have to: - connect J37 2-3 on motherboard - connect J38 2-3 on motherboard Connect CAN0-CANH on P15-1 to CAN1-CANH on P14-1 Connect CAN0-CANL on P15-2 to CAN1-CANL on P14-2 Terminate the CAN bus by connecting a 60 ohm resistor between CANH and CANL To see LED toggling connect P8.1 to USER LED (P7.x) ------------------------------------------------------------------------------ Test HW: MPC5744P EVB Maskset: 1N65H Target : RAM, internal_FLASH Fsys: 200 MHz PLL with 40 MHz crystal reference

******************************************************************************** * Detailed Description: * * Example gives possible implementation of input signal period/freq measurement. * eTimer channel capture 1 and 2 features are used. CAPT1/CAPT2 capture counter * value on rising/falling edge of input signal. The FIFO is set to 2 entries * and ICF2 is monitored. Free-running mode is used here. * * eTimer channel 0-1 are cascaded to achieve 1sec/1Hz measuring with 32bit counter. * EVB connection: * P8.2 - A[1] .. eTimer0 channel1 input signal * P8.1 - A[0] .. GPIO output, used to show measurement period * * Route LINFlexD_0 TXD/RXD (PB2/PB3) signals to the main board RS-232 transceiver * Daughtercard: * J17.11–12 ON .. Connect LINFlexD_0 TXD (PB2) to main board. * J17.8–9 ON .. Connect LINFlexD_0 RXD (PB3) to main board. * * Motherboard * J14 - SCI_RX ON * J13 - SCI_TX ON * J25 - SCI_PWR ON * * connect pulse signal to the P8.2. * See results on PC terminal (19200, 8N1, None). * Change freq/duty of input signal. * * ------------------------------------------------------------------------------ * Test HW: MPC57xx * Maskset: 1N65H * Target : internal_FLASH * Fsys: 200 MHz PLL with 40 MHz crystal reference * Terminal: 19200, 8N1, None ********************************************************************************