******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * setup clock for peripherals. * * This example shows, how to use ADC with ETimer to dim LED diode. Voltage on * the output of the trimmer is converted to digital value which is used to * control duty cycle of the PWM generated by ETimer. * * ------------------------------------------------------------------------------ * Test HW:         MPC5775K-356DS, MPC57xx Motherboard * MCU:             PPC5775KMMY3A 0N76P * Terminal: * Fsys:            PLL0 266MHz *                    Z4 Core 133MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, release mode) * EVB connection:  UserLED1 connected to P19.4, connected jumper j53 * * * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * setup clock for peripherals, * * LINFlex UART mode transmit and receive with interrupts * * * ------------------------------------------------------------------------------ * 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 * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, release mode) * EVB connection:  J14.2 to P12.6 Connect LINFlexD_0 RXD to main RS232 *                  J13.2 to P12.7 Connect LINFlexD_0 TXD to main RS232 * ********************************************************************************

MCU:MPC5606B External Crystal Oscillator: 9.6M System Core Frequency: 64MHz DSPI Baute rate: 1.14Mbps CPOL:0 CPHA:0 Receive\Transmit Interrupt:enable; attention:CONT   QQ:511437685

******************************************************************************** * Detailed Description: * Application initializes FCCU and Software watchdog. After SWT timeout expires, * microcontroller is reset. * * Macro LONG_RESET defines, which reset is performed. If LONG_RESET is 1, long * reset is performed, else short reset is performed. * * ------------------------------------------------------------------------------ * Test HW:         S32R274RRUEVB, MPC57xx Motherboard * MCU:             S32R274KAMMM 1N58R * Fsys:            PLL0 240MHz *                    Z4 Core 120MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          internal_FLASH (debug mode, debug_ram and release mode) * EVB connection: default * * ********************************************************************************

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

******************************************************************************** * 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 ********************************************************************************

WARNING 1: Use censorship feature very carefully, because an inappropriate usage can lead in making the device useless!!! Thoroughly read all instructions before use!!!   WARNING 2: Version of ICDPPCNEXUS debugger that is included with CodeWarrior 2.10 is not capable to enable debug on certain devices including MPC5644A. Workaround is either using of Codewarrior 10.6 or using of PKGPPCNEXUS debugger - can be downloaded from P&E Microcomputer Systems   WARNING 3: In case TRACE32 debugger is being used (Lauterbach), it is needed to have updated TRACE32 software. TRACE32 releases 02/2015 and 09/2016..02/2018 may not be able to access to censored device. LAUTERBACH DEVELOPMENT TOOLS   The example consists of 2 parts and document describes how to access censored device via JTAG with using of PeMicro or Lauterbach debugger:   1) MPC5644A-Censor_device-CW210: ******************************************************************************** * Detailed Description: * The example code re-programs content of shadow flash to enable censorship. * Succesful operation is confirmed by notices in terminal window on eSCI_A * (19200-8-no parity-1 stop bit-no flow control). * After power-on-reset the device is censored with private password * 0xFEED_FACE_CAFE_BEEF. Subsequently the access can be allowed by enabling * debug of censored device as decipted in attached pdf document. Shadow flash * re-programming code must be executed from internal RAM. * ------------------------------------------------------------------------------   2) MPC5644A-Uncensor_device-CW210: ******************************************************************************** * Detailed Description: * Supposing the device is censored by example MPC5644A-Censor_device-CW210 * Firstly it is needed to enabled debug of censored device as decipted in * attached pdf document. Programmed password is 0xFEED_FACE_CAFE_BEEF. * MPC5644A_run_from_ram.cmm script does it by command * SYStem.option.keycode 0xFEEDFACECAFEBEEF. * Then run this code to uncensor the device. Succesful operation is confirmed by * notices in terminal window on eSCI_A (19200-8-no parity-1 stop bit-no flow * control). After power-on-reset the device is uncensored and subsequent access * will be without password. Shadow flash re-programming code must be executed * from internal RAM. * ------------------------------------------------------------------------------

******************************************************************************** * Detailed Description: * The example uses serial flash memory S25FL129P (connected to DSPI_PCS1) * that is connected to DSPI_B module (PCS1). No Dual or Quad I/O has been used. * SW uses polling mechanism. * The example at first read device ID, performs bulk erase of S25FL129P and then * programs some sample data specified in main function. Check reading is then * performed. During that some notices are displayed on the terminal window. * ------------------------------------------------------------------------------ * Test HW:         XPC567XKIT516 - MPC567xADAT516 Rev.D, MPC567XEVBFXMB Rev.C * MCU:             PPC5676RDMVY1 3N23A * Terminal:        19200-8-no parity-1 stop bit-no flow control on eSCI_A * Fsys:            180MHz * Debugger:        Lauterbach Trace32 *                  PeMicro USB-ML-PPCNEXUS * Target:          RAM, internal_FLASH * EVB connection:  default ********************************************************************************

******************************************************************************** * 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 * ********************************************************************************

******************************************************************************** * Detailed Description: * Application performs basic initialization, setup PLL to maximum allowed freq., * initializes and display notice via UART terminal. It calculates temperature * using TSENS and printes it to the terminal window. * ------------------------------------------------------------------------------ * 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 frequency (48MHz) * Setup SIU, and demonstrate frequency modulation. * ------------------------------------------------------------------------------ * Test HW:        XPC560B 64LQFP, XPC56XX EVB MOTHEBOARD Rev.C * MCU:             SPC5602D * Cut:               1M18Y * Fsys:             48 MHz * Debugger:     Lauterbach Trace32 * Target:           internal_FLASH * EVB clkout pin : Port J7 - pin 0 * ********************************************************************************

******************************************************************************** * 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 * ********************************************************************************

******************************************************************************** * Detailed Description: * This example initializes SMPU_0 and SMPU_1 to cover all memory resources for * all masters. * Simple test is performed in this example: after initialization, SMPU_1 * configuration is changed to disable write access to last 4kB of RAM for * Process ID 1. Write acess is allowed for Process ID 0. * If this area is written by CPU while the Process ID is 1, exception will * occur due to access violation. * ------------------------------------------------------------------------------ * Test HW:         MPC574XG-324DS Rev.A + MPC574XG-MB Rev.C * MCU:             PPC5748GMMN6A 1N81M * Fsys:            160 MHz PLL * Debugger:        Lauterbach Trace32 * Target:          internal_FLASH * ********************************************************************************

******************************************************************************** * Detailed Description: * Example configure DRUN mode with PLL running at 160MHz. * It also contain basic PIT and INTC driver for interrupt demonstration. * On PIT timer timeout the PIT is triggering an interrupt which is served in PIT interrupt * service routine. * ------------------------------------------------------------------------------ * Test HW:     X - PC5748G - MB (rev C) * MCU:          PPC5748GMMN6A * Maskset:    1N81M * Fsys:          160 MHz * Debugger:    Lauterbach Trace32 *               * Target:         Internal_FLASH * ********************************************************************************

Detailed Description:                      This config tool simplifies DCF records calculation for MPC5777C device.                 Look at HowToUse sheet for simple guideline, then work with DCF sheet                 Notes: - Macros have to be enabled!       - Programming more than 104 DCF records on Cut1.0b will result in incorrect device operation (FCCU faults, SSCM[CER] bit set, etc)       BR, Petr

******************************************************************************** * Detailed Description: * This example implements ADC driver and demonstrated the usage of ADC in BCTU mode. * When PIT timer exceeds the trigger is sent to BCTU and BCTU triggers ADC_0 conversion. ******************************************************************************** * Test HW:  MPC57xx * Maskset:  1N81M * Target :  SRAM * Fsys:     160 MHz PLL * ******************************************************************************** Revision History: 1.0     Oct-29-2014     b21190(Vlna Peter)  Initial Version 1.1    Nov-20-2014    b21190(Vlna Peter)  Modified for Cut2.0 1.2    Nov-20-2014    b21190(Vlna Peter)  Added SWT_0 dissabling in startup 1.3    Mar-10-2016    b21190(Vlna Peter)  Fixed clock configuraion for PLL 1.4    Mar-10-2016    b21190(Vlna Peter)  Added ADC driver 1.5    Mar-16-2016    b21190(Vlna Peter)  Added BCTU and PIT drivers *******************************************************************************/

******************************************************************************** * Detailed Description: * Application performs basic initialization, initializes interrupts, blinking * one LED by core e200z4a, second by core e200z4b, third by core e200z2, * initializes and display notice via UART terminal and then terminal ECHO. * * ------------------------------------------------------------------------------ * Test HW:         MPC574XG-324DS Rev.A + MPC574XG-MB Rev.C * MCU:             PPC5748GMMN6A 1N81M * Fsys:            160 MHz PLL * Debugger:        Lauterbach Trace32 * Target:          internal_FLASH * Terminal:        19200-8-no parity-1 stop bit-no flow control on LINFlexD_2 * ********************************************************************************

******************************************************************************** * Detailed Description: * Initializes and calibrates eQADC module and cyclically converts choosen * channel, displaying it into terminal window. * User could connect EVB pot's wiper to pin header W (see below) to see valid * conversion result. * * ------------------------------------------------------------------------------ * 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:  For ADC: J53-1 (EVB pot's wiper) --> PS0  - ANA17 *                                                       PS1  - ANA18 *                                                       PS2  - ANA19 *                                                       PS3  - ANA20 * ********************************************************************************

Detailed Description: Demo application performs I2C communication with externally connected temperature sensor LM75B. Obtained values and processed and displayed on MPC5606S-DEMO-V2 board’s TFT panel. Application uses standard Graphics Libraries for MPC5606S for simple graphic output that is managed in mc_base.c module only. I2C communication is managed with using of own two layer driver where low-level driver consisting of I2C_0.c and I2C_0.h - these can be used for any device connected to I2C_0 module. Middle-level driver layer consist of I2C_LM75B.c and I2C_LM75B.h and it is specific to LM75B device. ------------------------------------------------------------------------------ Test HW:            MPC5606S-DEMO-V2 + LM75BD MCU:             PPC5606SEF OMLU 0M25V DD68391 XOTAC1003 Fsys:            64MHz Debugger:        Lauterbach Trace32 Target:          internal_FLASH Terminal:        none EVB connection:   For complete project you may see following link: Demo application MPC5606S-DEMO + LM75B + HIH-5030 + PCA8565 + GUI