SPC5746BBK1AMKU2 - NXP SEMICONDUCTORS

EXTERNAL USE

Ultra-Reliable MCUs for Industrial and Automotive Applications

www.nxp.com/DEVKIT-MPC5748G

DEVKIT-MPC5748G

QUICK START GUIDE (QSG)

EXTERNAL USE
1
Contents
•Quick Start Package Overview
•Step-by-Step Installation Instructions
•Hardware: DEVKIT-MPC5748G Board
−Features
−Overview
−Pinout, Jumper and Peripherals Settings
•Software:
−Software Development Tools
−Pre-compiled Code Examples
•Documentation
•MPC574xG/C/B/D Family : Phantom Feature Differences
•OpenSDA
•Recommendations

EXTERNAL USE

Quick Start Package Overview

Name Description

Quick Start Guide(QSG) Detailed description on availability of Hardware, Software and Documents to quick start with

MPC5748G project (this document)

Software Integration Guide(SWIG) Detailed walk through on how to install and use S32 Design Studio IDE for Power Architecture

Application Notes Detailed documents covering topics from ‘how to design hardware’ to ‘how to write software’

Fact Sheets, Reference Manuals and Data Sheets Detailed manuals for MPC5748G family of MCU and DEVKIT-MPC5748G board

Name Description

Integrated Development Environment (IDE) Eclipse based S32DS IDE with free GCC compiler and Debugger support

DEVKIT-MPC5748G Quick Start Package All in one package: Software examples and supporting documents for getting started

DEVKIT-MPC5748G Schematics PDF schematic files for the DEVKIT-MPC5748G board

DEVKIT-MPC5748G PCB Design Package Gerber files and Bill of Material

Downloads:

Documents:

Board:

DEVKIT-MPC5748G Low cost EVB with MPC5748G(176 LQFP-EP) Auto quality MCU on board

EXTERNAL USE

Step-by-Step Installation Instructions

Install Software and Tools

Install S32 Design Studio IDE for Power Architecture.

S32 Design Studio for Power

See Software Installation Guide (SWIG) for detailed procedure

Connect the USB Cable

Connect one end of the USB cable to the PC and the other end to

the micro-B connector on the DEVKIT-MPC5748G board. Allow the

PC to automatically configure the USB drivers.

Observe the Default Program reaction

The pre-loaded example project utilizes the DEVKIT-MPC5748G

user push button (SW2) and the user LEDs. Once the board is

plugged in, LEDs will blink in default pattern. Press push button to

switch between the two different patterns. Use Potentiometer to

change blinking speed. (Clock is configured to PLL running at 160

MHz)

Learn More About the DEVKIT-MPC5748G

Read release notes and documentation on the

nxp.com/DEVKIT-MPC5748G

nxp.com/MPC5748G

In this quick start guide, you will learn how to set up the

DEVKIT-MPC5748G board and run the default program.

J11

3 1 Jumper Setting:

2-3: USB powered

5V Supply, through

OpenSDA interface

EXTERNAL USE

DEVKIT-MPC5748G Board : Features

•MPC5748G has 2 x 160 MHz Power Architecture® e200Z4 Dual issue

cores and 1 x 80 MHz Power Architecture® e200Z2 Single issue core

•MPC5748G qualified to AEC-Q100 Grade 1 and ambient temperature of -

40 to +125 °C

•Arduino™ UNO R3 footprint-compatible with expansion “shield” support

•Integrated Open-standard Serial and Debug Adapter (OpenSDA) with

support for several industry-standard debug interfaces as well as JTAG

connector

•Easy access to the MCU I/O header pins for prototyping

•On-chip connectivity for Ethernet, FlexRay, USB, CAN, LIN, UART/SCI and

SPI

•Potentiometer for precise voltage and analog measurement

•8 user LED

•2 user push-button switches

•Flexible power supply options

•micro-B USB

•12V External power supply

•Similar hardware across ARM®, S12 and Power Architecture®architecture

based MCUs

•DEVKIT-COMM shield boards for extended 4 CAN and 6 LIN ports

•Box includes:

−DEVKIT-MPC5748G Board

−USB Cable

•Downloads includes:

−Quick Start Package

−S32 Design Studio IDE

−Application notes

EXTERNAL USE

DEVKIT-MPC5748G Board : Overview

The DEVKIT-MPC5748G

is an ultra-low-cost

development platform for

MPC5748G

Microcontrollers.

Features include easy

access to all MCU I/Os, a

standard-based form

factor compatible with the

Arduino™ pin layout,

providing a broad range of

expansion board options,

and a USB serial port

interface for connection to

the IDE. The board has

option to be powered via

USB or an external power

supply.

NXP Microcontroller

MPC5748G (176 LQFP-EP)

JTAG

MPC5748G

JTAG

OpenSDA MCU

User LEDs

LIN Bus

CAN Bus

Ethernet

FlexRay

USB

Potentiometer

User Switch 2

User Switch 4

12V External

Power Supply

OpenSDA

micro-USB

J13 J14 J12

J3 J2 J4

OpenSDA

MCU

Reset Button

OpenSDA MCU

Boot Entry Button

EXTERNAL USE

DEVKIT-MPC5748G Board : Pinout 1 of 3

Arduino Compatibility

The internal rows of the I/O headers on

the DEVKIT-MPC5748G are arranged to

fulfill Arduino™ shields compatibility .

J2 FUNCTION PORT PIN PIN PORT FUNCTION

PB15 J2-15 J2-16 PE13

Timer

PB14 J2-13 J2-14 PF15

Timer

PB13 J2-11 J2-12 PE11

PB12 J2-09 J2-10 PE10

Timer

PB11 J2-07 J2-08 PE9

PB10 J2-05 J2-06 PE8

LIN4TX(UART)

PA5 J2-03 J2-04 PE7

LIN4RX

(UART) PA6 J2-01 J2-02 PE6

FUNCTION PORT PIN PIN PORT FUNCTION

SCL1

PI1 J3-19 J3-20 PG9

SDA1

PI0 J3-17 J3-18 PG8

NC J3-15 J3-16 PG7

GND J3-13 J3-14 PG6

SCLK_4

PF2 J3-11 J3-12 PI7

SIN_4

PF1 J3-09 J3-10 PI6

SOUT_4

PF0 J3-07 J3-08 PA15

SS_4

PF3 J3-05 J3-06 PA14

Timer

PA2 J3-03 J3-04 PA13

PA1 J3-01 J3-02 PA12

EXTERNAL USE

DEVKIT-MPC5748G Board : Pinout 1 of 3

Arduino Compatibility

The internal rows of the I/O headers on

the DEVKIT-MPC5748G are arranged to

fulfill Arduino™ shields compatibility .

J13

J14

FUNCTION PORT PIN PIN PORT FUNCTION

PF11 J13-02

J13

VIN

12V

PF10 J13-04

J13

PER_HVA

PF6 J13-06

J13

RESET

MPC5748G Reset

PF4 J13-08

J13

3V3_SR

3.3V

PF5 J13-10 J13-9 5V0_SR

PF7 J13-12

J13

GND

PF8 J13-14

J13

GND

PF9 J13-16

J13

VIN

12V

FUNCTION PORT PIN PIN PORT FUNCTION

PB4 J14-02

J14

PG13

ADC1_S[1]

PB5 J14-04

J14

PG12

ADC1_S[2]

PB6 J14-06

J14

PI8

ADC0_S[16]

PB7 J14-08

J14

PI11

ADC0_S[19]

PD0 J14-10 J14-9 PI12

ADC0_S[20]

PD1 J14-12

J14

PI13

ADC0_S[21]

PD2 J14-14

J14

PI14

ADC0_S[22]

PD3 J14-16

J14

PI15

ADC0_S[23]

J13

J14

EXTERNAL USE

DEVKIT-MPC5748G Board : Pinout 3 of 3

Arduino Compatibility

The internal rows of the I/O headers on

the DEVKIT-MPC5748G are arranged to

fulfill Arduino™ shields compatibility .

J12 J4

FUNCTION PORT PIN PIN PORT FUNCTION

PF12 J4-19 J4-20 PE5

PF13 J4-17 J4-18 PE4

PC6 J4-15 J4-16 PE0

PC7 J4-13 J4-14 PE1

PI2 J4-11 J4-12 GND

PI3 J4-09 J4-10

PER_HVA

PH3 J4-07 J4-08 PC11

PH4 J4-05 J4-06 PC10

PG3 J4-03 J4-04 PG5

PG2 J4-01 J4-02 PG4

FUNCTION PORT PIN PIN PORT FUNCTION

PD12 J12-2 J12-1 PD15

PD10 J12-4 J12-3 PD14

PD9 J12-6 J12-5 PD13

PD8 J12-8 J12-7 PH8

PER_HVA

J12-10 J12-9 PH7

GND J12-12

J12

PH6

PD7 J12-14

J12

PJ3

PD6 J12-16

J12

PJ2

PD5 J12-18

J12

PJ1

PD4 J12-20

J12

PJ0

J12

EXTERNAL USE

DEVKIT-MPC5748G Board : Jumper Settings

J11

There is only one jumper: J11

It is to select Power source:

1-2: Default External 12 V Supply

2-3: USB powered 5V Supply,

through OpenSDA interface

3 1

Note: For high power/current consuming applications (like

using external shield boards) use “External 12 V Supply” only

EXTERNAL USE

DEVKIT-MPC5748G Board : Communication Interfaces 1 of 2

LIN

CAN

FlexRay

LIN_0

DESCRIPTION

NAME

GND

Connect to

12V

VBAT

Port PB2

& PB3

LIN

CAN_0

DESCRIPTION NAME PIN

Port PB0 & PB1

CANH

CANL

GND

FlexRay_A

DESCRIPTION

NAME PIN

FRA

-DATA-A P2_1

FRA

-DATA-B P2_2

FlexRay_A

DESCRIPTION

PORT

FR_A_TX

PC5

FR_A_TX_EN

PE2

FR_A_RX

PE3

Note: LIN Physical Interface require 12V supply on pin P3-03

EXTERNAL USE

DEVKIT-MPC5748G Board : Communication Interfaces 2 of 2

Ethernet USB ETHERNET_0

DESCRIPTION PORT

RMII_0_TXD[0]

PH1

RMII_0_TXD[1]

PH0

RMII_0_TX_EN

PH2

RMII_0_RXD[0]

PA9

RMII_0_RXD[1]

PA8

RMII_0_RX_ER

PA11

RMII_0_RX_DV

PF15

RMII_0_MDC

PG0

RMII_0_MDIO

PF14

RMII_0_TX_CLK (Reference clock)

PG1

USB_1

DESCRIPTION PORT

ULPI1_D7

PH12

ULPI1_D6

PH11

ULPI1_D5

PG11

ULPI1_D4

PG10

ULPI1_D3

PE15

ULPI1_D2

PE14

ULPI1_D1

PG15

ULPI1_D0

PG14

ULPI1_STP

PI4

ULPI1_NXT

PI5

ULPI1_DIR

PC3

ULPI1_CLK

PC2

UART

UART_2 –LinFlex_2

OpenSDA micro-USB

DESCRIPTION

PORT

TX PC8

RX PC9

EXTERNAL USE

DEVKIT-MPC5748G Board : User Peripherals

User

Switch 2 DESCRIPTION PIN PORT

Potentiometer (ADC0 CH9)

RV1/POT

PB4

User Switch 2

SW2

PE12

User Switch

SW4

PA3

User LEDs

DS4

PA10

DS5

PA7

DS6

PH13

DS7

PC4

DS8

PH5

DS9

PJ4

DS10

PA0

DS11

PA4

Reset Button

SW1

User

Switch 4

Potentiometer

User

LEDs

Reset

Button

EXTERNAL USE

DEVKIT-MPC5748G Board : Programing Interface

OpenSDA Interface

DESCRIPTION PIN

OpenSDA MCU Boot Entry

SW3

OpenSDA micro USB:

board JTAG connection via

open source

OSBDM circuit using the

MC9S08JM60

Microcontroller

OpenSDA JTAG

JTAG to update firmware in

OpenSDA MCU

OpenSDA JTAG

JTAG

OpenSDA MCU

OpenSDA micro USB

OpenSDA MCU

Boot Entry Button

JTAG

DESCRIPTION PIN

Support for USB Multilink

Interface

EXTERNAL USE

Software Development Tools

•IDE & Compilers

−Free S32 Design Studio IDE for Power Architecture with GCC compiler

−GHS MULTI Integrated Development Environment

−Cosmic IDE

−iSystems winIDEA IDE

−SourceryTM CodeBench Development Tools

•Debuggers

−Free OpenSDA debugger on board and supported by S32DS IDE

−P&E USB Multilink

−iSystems iC6000

−Lauterbach TRACE32 JTAG Debugger

EXTERNAL USE

Pre-Compiled Code Examples

•Pre-compiled example projects are

available in S32DS as well as on

nxp.com/DEVKIT-MPC5748G for quick

start

•Example projects also includes the

projects from Application Note, AN4830:

Qorivva Recipes for MPC574xG

List of code examples:

1. Hello

2. Hello+pll

3. Hello+pll+interrupts

4. eDMA+ PBridge

5. Semaphores

6. Register Protection

7. Low Power: STOP mode

8. Analog-to-digital

Converter

9. Timed I/O (eMIOS)

10. CAN

11. CAN+DMA

12. LIN

13. UART

14. SPI

15. SPI+DMA

16. I2C

17. Ethernet

18. Body Cross Trigger

Unit (BCTU)

19. System Memory

Protection Unit

(SMPU)

20. Flash

EXTERNAL USE

Documentation

General Documents

•MPC5748G Microcontroller Data Sheet

•MPC5748G Microcontroller Reference Manual

•MPC5748G Microcontroller Fact Sheet

•DEVKIT-MPC5748G Board Fact Sheet

•Software Integration Guide (SWIG)

Application Notes

•AN4830: Qorivva Recipes for MPC574xG

•AN5220: MPC5748G Hardware Design Guidelines

•AN5114: Migrating between MPC5748G and MPC5746C

•AN4868: EEPROM Emulation with NXP MPC55xx, MPC56xx, and MPC57xx Microcontrollers

•AN4805: A Practical Approach to Hardware Semaphores

EXTERNAL USE

MPC574xG/C/B/D Family : Phantom Feature Differences

Flash/RAM Package

100MAPBGA

(11x11mm, 1mm) 176LQFP-EP

(24x24mm, 0.5mm)

256MAPBGA

(17x17mm, 1mm)

324MAPBGA

(19x19mm, 1mm)

6M/768k

6M/768k SPC5748G

SPC5748C SPC5748G

SPC5748C

4M/768k

4M/512k SPC5747G

SPC5747C SPC5747G

SPC5747C

3M/768k SPC5746G SPC5746G SPC5746G

3M/384k (512k optional)

3M/384k (512k optional) SPC5746C

SPC5746B SPC5746C

SPC5746B PPC5746C

2M/256k

2M/256k SPC5745C

SPC5745B SPC5745C

SPC5745B

1.5M/192k

1.5M/192k SPC5744C

SPC5744B SPC5744C

SPC5744B

Color

Coding:

Triple Core, Ethernet,

FlexRay,

USB, SDHC,

(optional HSM, 2nd Ethernet + switch)

Dual Core, Ethernet,

FlexRay

(all: optional

HSM, 5747C/5748C: 2nd

Ethernet + switch)

Single Core,

FlexRay, Ethernet (optional

HSM)

Debug device for

SPC5745B/C and

SPC5746B/C

- not for production

EXTERNAL USE

OpenSDA 1 of 2

•OpenSDA is an open-standard serial and debug adapter

•It bridges serial and debug communications between a USB host and an embedded target processor

•DEVKIT-MPC5748G comes with the OpenSDA Application preinstalled

•Follow these instructions to run the OpenSDA Bootloader and update or change the installed OpenSDA Application

Enter OpenSDA Bootloader Mode

1. Unplug the OpenSDA USB cable if attached

2. Press and hold the Reset button (SW3)

3. Plug in a USB cable between a USB host and the OpenSDA USB

connector (labeled “SDA”)

4. Release the Reset button

A removable drive should now be visible in the host file system with a

volume label of BOOTLOADER. You are now in OpenSDA Bootloader

mode.

IMPORTANT NOTE: Follow the “Load an OpenSDA

Application” instructions to update the application on your MC9S08JM60 to

the latest version. It is likely that the version provided in this package is

newer than what was preprogrammed on your MC9S08JM60.

Load an OpenSDA Application

1. While in OpenSDA Bootloader mode, double-click SDA_INFO.HTML in the

BOOTLOADER drive. A web browser will open the OpenSDA homepage

containing the name and version of the installed Application. This

information can also be read as text directly from SDA_INFO.HTML

2. Locate the OpenSDA Applications folder

3. Copy & paste or drag & drop the Application to the BOOTLOADER drive

4. Unplug the USB cable and plug it in again. The new OpenSDA Application

should now be running and check the latest version by repeating Step-1

Use the same procedure to load other OpenSDA Applications.

EXTERNAL USE

OpenSDA 2 of 2

Using the Virtual Serial Port

1. Determine the symbolic name assigned to the DEVKIT-MPC5748G virtual serial port. On Windows platform open Device Manager and look for the COM

port named “OpenSDA-CDC Serial Port”.

2. Open the serial terminal emulation program of your choice. Examples for Windows platform include Tera Term, PuTTY, or HyperTerminal.

3. Program one of the “code examples” using S32 Design Studio IDE.

4. Configure the terminal emulation program. Most embedded examples use 8 data bits, no parity bits, and one stop bit (8-N-1). Match the baud rate to the

selected serial test application and open the port.

5. Press and release the Reset button (SW1) at anytime to restart the example application. Resetting the embedded application will not affect the

connection of the virtual serial port to the terminal program.

NOTE: Refer to the OpenSDA User’s Guide for a description of a known Windows issue when disconnecting a virtual serial port while the COM port is in

use.

EXTERNAL USE

Recommendations

•For high power/current consuming applications (like using external shield boards) use “External 12 V Supply” only.

•External 12 V Supply Specifications

−Fully regulated Switching Power Supply

−Input Voltage: 100-240V AC 50/60Hz

−Output: 12V 1A/2A DC

−Plug size: 5.5mm x 2.1 mm, Center Positive

•By default “New Project” in S32 Design Studio IDE makes application to run at 16 MHz Internal RC (IRC) oscillator. For faster performance, configure PLL to desired

frequency and switch clock source to PLL before executing application code.

•For faster debugging, debug from RAM, because this cuts down the lengthy Flash erase operation cycles. Follow the Software Integration Guide (SWIG) for details.

•Keep S32 Design Studio IDE and OpenSDA firmware Up-to-date for best results.

•Post Technical Questions on NXP community for MPC5xxx.

•Useful Links:

−nxp.com/mpc5748g

−nxp.com/devkit-mpc5748g

−nxp.com/s32ds

−nxp.com/community