******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * setup clock for peripherals, setup access right for Masters and Peripherals * on AIPS_0 * * DMA transfers block of data from variable TransmitBuffer to the variable * ReceiveBuffer. Both variables are placed in SRAM. * * ICache and DCache are both disabled in startup file using CACHE_ENABLE macro. * You can change the value of the macro at the following path: * project Properties/C/C++ General/Paths and Symbols/Symbols * If you change the value to 1, ICahce and DCache will be enabled in startup. * * * ------------------------------------------------------------------------------ * Test HW:         MPC5775K-356DS, MPC57xx Motherboard * MCU:             PPC5775KMMY3A 0N38M * Fsys:            PLL0 266MHz *                    Z4 Core 133MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, release mode) * EVB connection:  default * ********************************************************************************

******************************************************************************** * Detailed Description: * * PIT channel 0 is used to generate 1sec interrupt where PA0 pin is toggled. * * ------------------------------------------------------------------------------ * Test HW:  MPC5777M, MPC57xx Motherboard + MPC5777M_512DS minimodule * Maskset:  0N78H * Target :  RAM, internal_FLASH * Fsys:     600 MHz PLL1 with 40 MHz crystal reference *               core2 at 200MHz generated from PPL1 * Terminal: None ********************************************************************************

******************************************************************************** * Detailed Description: * In case user want GHS to initialize all cores it is necessary to define * preprocessor symbol: init_cores * However in this example the cores are initialized from function: Core_Boot(); * This example demonstrates how to initialize clock module and activate core0, core1 and core0 locksteped core. * ------------------------------------------------------------------------------ * Test HW:  MPC57xx EVB * Maskset:  0N78H * Target :  internal_FLASH * Fsys:     200 MHz PLL * ******************************************************************************** Revision History: 1.0     Feb-08-2016     b21190(Vlna Peter)  Initial Version 1.1    Feb-09-2016     b21190(Vlna Peter)  Added Core_Boot() function *******************************************************************************/

******************************************************************************** * Detailed Description: * Inject and handles HVD and LVD faults. Application also configures FCCU_F pins * to see possible faults externally - normally these two pins toggles antiphase, * in case error these pins toggles inphase. If you step the code not allowing * alarm interrupt to be handled on time, device goes to safe mode and FCCU_F * pins toggles in phase. * ------------------------------------------------------------------------------ * 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:  FCCU_F0 and FCCU_F1 connected to the scope - pay attention to *                  J16 and J18 jumpers on mini-module (FCCU_F0 and FCCU_F1). * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * start both Z7 cores, interrupts initialization, blinking three LED by interrupts, * initializes and display notice via UART terminal and then terminal ECHO. * Each core serves one interrupt and one LED. * * The example configures the device for maximum performance by initialization of * instruction/data cache and enabling of branch prediction for each core * (startup.s files). * * ------------------------------------------------------------------------------ * Test HW:         MPC5775K-356DS, MPC57xx Motherboard * MCU:             PPC5775KMMY3A 0N38M * Terminal:        19200-8-no parity-1 stop bit-no flow control on LINFlexD_0 * Fsys:            PLL0 266MHz *                    Z4 Core 133MHz *                    Both Z7 Cores 266MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, release mode) * EVB connection:  USER LED1 connected to P19.0, LED2 connected to P19.5 *                  LED3 connected to P19.8 *                  For correct UART functionality connect: *                  J14.2 to P12.6 *                  J13.2 to P12.7 * ********************************************************************************

******************************************************************************** * Detailed Description: * This example demostrates how to configure CGM )clock generation module) * and supply by clock all main peripherals. * * ------------------------------------------------------------------------------ * Test HW:  Test HW:  MPC57xx Motherboard + MPC5777M_512DS minimodule, MPC5777M, * Maskset:  0N75H * Target :  internal_FLASH * Fsys:     200 MHz PLL * ******************************************************************************** Revision History: 1.0     Nov-04-2014     b21190(Vlna Peter)  Initial Version 1.1     Feb-04-2016     b21190(Vlna Peter)  Fixed Clock configuration *******************************************************************************

This document describes the configuration, restrictions, principles and correct usage of FCCU module implemented on MPC5744P device. This document is preliminary release.

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, * initializes and display notice via UART terminal and then terminal ECHO. * * * ------------------------------------------------------------------------------ * Test HW:         MPC5604EEVB64 * MCU:             PPC5604EEMLH 0N10D * Terminal:        19200-8-no parity-1 stop bit-no flow control on LINFLEX_0 * Fsys:            40 MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          RAM, internal_FLASH * EVB connection:  JP17 connected to J38.7 (ADC CONN), jumpers J7,J8 position *                  2-3 fit SCI tx and rx connected * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL1 to maximum allowed freq. PLL1 is system frequency, * PLL0 in initialized to 50MHz * initializes peripherals clock (MOTC_CLK is set to 5MHz) * initializes ETimer to count mode providing delay * initializes interrupts, blinking one LED by ETimer interrupt, * * * * Test HW:         X-MPC5744PE257DC, MPC57xx motherboard * MCU:             PPC5744PFMMM8 1N65H * Fsys:            200 MHz * Debugger:    Lauterbach Trace32 *                      PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, release mode) * EVB connection:  User LED 1 connected to A0 (P8.0), * * * ------------------------------------------------------------------------------

List of examples published by NXP technical support: MPC5 software example list * List of documents and tools published by NXP technical support: MPC5 document & tool list * * All of the source code placed in spaces above is for example use only. NXP does not accept liability for use of this code in the user’s application.

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, * initializes and display notice via UART terminal and then terminal ECHO. * * You can choose TRK or Minimodule version using USED_BOARD macro * * ------------------------------------------------------------------------------ * Test HW:         XPC560P 100LQFP, XPC56XX EVB MOTHEBOARD Rev.B, TRK-MPC5604P Rev.B * MCU:             PPC5604PEFMLL 0M36W * Terminal:        19200-8-no parity-1 stop bit-no flow control on LINFLEX_0 * Fsys:            64/40 MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          RAM, internal_FLASH * EVB connection:  Jumper J8 1st position fit LED1 connected to PE4, jumpers J22,23 position 2-3 fit SCI tx and rx connected * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, * initializes and display notice via UART terminal and then terminals ECHO. * * * Test HW:        X-MPC5744PE257DC, MPC57xx motherboard * MCU:              PPC5744PFMMM8 1N65H * Terminal:        19200-8-no parity-1 stop bit-no flow control on LINFlexD_0 * Fsys:             200 MHz * Debugger:      Lauterbach Trace32 *                       PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, release mode) * EVB connection:  User LED 1 connected to A0 (P8.0), * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, starts second core * initializes and display notice via UART terminal and then terminals ECHO. * * * Test HW:              MPC5688EVB * MCU:                   SPC5668GMMG 0N61C * Terminal:              19200-8-no parity-1 stop bit-no flow control on eSCI_A * Fsys:                   116 MHz * Debugger:             Lauterbach Trace32 *                             PeMicro USB-ML-PPCNEXUS * Target:                  RAM, internal_FLASH * EVB connection:   User LED 4 connected to pin P28-10 * *

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, * initializes and display notice via UART terminal and then terminal ECHO. * ------------------------------------------------------------------------------ * Test HW:        XPC5604B 100LQFP, XPC56XX EVB MOTHEBOARD Rev.C * MCU:             PPC5604BE MLL 1M27V * Fsys:             64/48 MHz * Debugger:      Lauterbach Trace32 *                      PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH, (not enough memory for RAM target) * Terminal:       19200-8-no parity-1 stop bit-no flow control on LINFLEX_0 * EVB connection: default * ********************************************************************************

******************************************************************************** * Detailed Description: * Example show simple flash programming routine. During runtime it changes * content of field of constants 'test' (located in internal data flash). * Also it shows how to relocate data into FLASH (used linker command file * is MPC5675K_my_sections.lcf and MPC5675K_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:        MPC5675KEVB * MCU:            PPC5675KFMMSJ in Lock-Step mode * Fsys:           180/150 MHz CORE_CLK * 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 ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes interrupts, blinking one LED by interrupt, * initializes and display notice via UART terminal and then terminal ECHO. * ------------------------------------------------------------------------------ * Test HW:        XPC5607B 176LQFP, XPC56XX EVB MOTHEBOARD Rev.C * MCU:             PPC5607BMLUAM03Y * Fsys:             64/48 MHz * Debugger:      Lauterbach Trace32 *                      PeMicro USB-ML-PPCNEXUS * Target:           RAM, internal_FLASH * Terminal:       19200-8-no parity-1 stop bit-no flow control on LINFLEX_0 * EVB connection: default * ********************************************************************************

******************************************************************************** * 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: * This example shows how to use eDMA for transfering 32-bit data multiple time using minor loop from internal flash to SRAM memory as well as how to configure AIPS (peripheral bridge) to grant eDMA access to peripherals. * * For closer details on how eDMA works I suggest you to check reference manual as this module is quite complex. * This example sets system clock for 200MHz running from PLL0 module. * The constant stored in internal flash is transfered via eDMA to SRAM memory. * Initialization functions are AIPS_0_Init for peripheral bridge and DMA_0_Init. * * ------------------------------------------------------------------------------ * Test HW:  MPC57xx Motherboard + MPC5744PE257DC minimodule, MPC5744P, * silicon mask set 0N15P * Target :  internal_FLASH* ********************************************************************************

******************************************************************************** * Detailed Description: * * CAN0 module is configured to transmit one message with ID 0x555 to CAN1 * module. CAN1 module is configured to use DMA to receive the message. * Once the DMA module reads the received frame, interrupt is triggered. * Follow application note AN4830 regarding the CAN settings. * http://www.freescale.com/files/microcontrollers/doc/app_note/AN4830.pdf * http://www.freescale.com/files/microcontrollers/doc/app_note/AN4830SW.zip * The example from AN4830 is modified to use DMA and RXFIFO on CAN1 module. * * ------------------------------------------------------------------------------ * Test HW:  MPC57xx * Maskset:  1N81M * Target :  SRAM * Fsys:     160 MHz PLL * ********************************************************************************

******************************************************************************** * 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) * ********************************************************************************