NXP Semiconductors S32R274RRUEVB, S32R372RRSEVB Quick Start Manual

EXTERNAL USE

Ultra-Reliable MCUs for Industrial and Automotive Applications

S32RXXXEVBWeb Page

S32R274RRUEVB AND S32R372RRSEVB

QUICK START GUIDE (QSG)

EXTERNAL USE

1

Contents

• Quick Start Package Overview

• Step-by-Step Installation Instructions

• Hardware: S32R274RRUEVB Board

− Features

− S32R274RRUEVB Overview

− How to Read the Schematic

− MPC57xxMB Motherboard Overview

− S32R274RRUEVB to MPC57xxMB Pinout Settings

− Communication and Debug Interfaces

− Power Supply

• Software:

− Software Development Tools

− Pre-compiled Code Examples

− S32R Application Examples

• Documentation

• Radar Family Comparison

• Recommendations

EXTERNAL USE

2

Quick Start Package Overview

Name Description

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

S32R27/37 project (this document)

Software Installation Guide(SWIG) Detailed walk through on how to install and useS32 Design Studio 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 S32R family of MCU and S32R274RRUEVB board

Name Description

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

S32R274RRUEVB Quick Start Package Software examples and supporting documents for getting started with the S32R274RRUEVB
S32R274RRUEVB Schematics PDF schematic files for the S32R274RRUEVB board
S32R274RRUEVB PCB Design Package Gerber files and Bill of Material

Downloads:

Documents:

Board:

S32R274RRUEVB S32R27/37 evaluation board for 257 BGA package. Can run standalone or with Radar front-end

EXTERNAL USE

3

Step-by-Step Installation Instructions

1

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

2

Connect the Debugger

Connect the debugger (e.g. P&E USB Multilink) to the board.

3

Observe the Default Program reaction

The pre-loaded example project utilizes the S32R’s multiple cores

and the MPC57xxMB’s user I/O. Once the board is plugged in, the
S32R’s PLLs will be programmed to max frequency. The CLKOUT

pin will display the frequency of each PLL in a round-robin fashion
as each core takes turns controlling CLKOUT.

4

Learn More About the S32R274RRUEVB

Read release notes and documentation on the

S32R Product Page
S32RXXXEVB Product Page

In this quick start guide, you will learn how to set up the
S32R274RRUEVB board and run the default program.

EXTERNAL USE

4

S32R274RRUEVB Board : Features

• S32R27 has 2 x 240 MHz Power Architecture® e200Z7 computation cores

and 2 x 120 MHz e200z4 delayed lockstep safety cores

• S32Rx qualified to AEC-Q100 Grade 1 and ambient temperature of -40 to

+150 °C

• S32R274RRUEVB is compatible with MPC57xxMB motherboard for

expanded IO functionality

• Integrated JTAG interface for easy debugging

• Easy access to the MCU I/O header pins (with motherboard) for prototyping

• Nexus traceport

• Gb Ethernet port

• MIPI_CSI2 connector

• Flexible power supply options

• Individual ports for 5V, 3.3V, and 1.25V power rails

• 12V External power supply to power all rails via expansion to

MPC57xxMB

• Box includes:

− S32R274RRUEVB Board

• Downloads includes:

− Quick Start Package

− S32 Design Studio IDE

− Application notes

EXTERNAL USE

5

S32R274RRUEVB Board : Overview

The S32R274RRUEVB is

NXP’s evaluation board

for the S32R radar
processor. It is designed
to be paired with an
analog front end. NXP
supports the TEF810 and

MR3003 radar

transceivers, but third­party options are possible.

This EVB features
expansion headers to the
MPC57xxMB
motherboard, giving the

user access to additional

I/O. The motherboard
also includes UART, SCI,
CAN, and FlexRay ports
to meet any prototyping
needs.

NXP Microcontroller

S32R

JTAG

Ethernet Port

Digital-to-

Analog
Converter

LFAST
Interface

Cross­Triggering
Inputs

MIPI-CSI2

Connector

ADC Inputs

Power Supply

Micro-USB
UART

CAN PHY

Nexus

Trace Port

CAN PHY

Reset Button

EXTERNAL USE

6

MPC57xxMB Board : Overview

The MPC57xxMB is

NXP’s motherboard for

the MPC57xx product
family as well as
S32R274RRUEVB.

Once the

S32R274RRUEVB is

plugged in, it will have
access to all MPC57xxMB
I/O. Power can also be
provided by the
motherboard.

Daugther card

expansion port

On/off Switch

Ethernet Port

User
LEDs

I/O pins

Pot.

Power Supply

UART

CAN PHYs

LIN PHY

12V Power
Supply Input

User

Buttons

EXTERNAL USE

7

How to Read the Schematic

• Pin labels on the S32R274RRUEVB schematic map to the physical pad on the

257BGA package, not the port number. Use RM’s signal description table to find

the correct port

• Example: ETIMER2_ETC0 = PAD(K17) = PORT(PB[2])

EXTERNAL USE

8

S32R274RRUEVB+MPC57xxMB: Pinout 1 of 12

P8

FUNCTION PORT PIN PIN PORT FUNCTION

NC P9-1 P9-2 NC

eTimer2_ETC0

PB2 P9-3 P9-4 PB3

NC P9-5 P9-6 NC

CLK_OUT0

PB6 P9-7 P9-8 PB7

ADC0_AN_0

ADC0_AN_1

PB8 P9-9

P9-10

PB9

ADC0_AN_11

ADC0_AN_12

PB10 P9-11

P9-12

PB11

ADC0_AN_13

ADC0_AN_14

PB12 P9-13

P9-14

PB13

ADC1_AN_0

ADC1_AN_1

PB14 P9-15

P9-16

PB15

ADC1_AN_2

GND GND GND GND

FUNCTION PORT PIN PIN PORT FUNCTION

WGM_WG0

PA0 P8-1 P8-2 PA1

WGM_WG1

WGM_WG2_P

PA2 P8-3 P8-4 PA3

WGM_WG2_N

DSPI2_CS1

PA4 P8-5 P8-6 PA5

SIUL_EIRQ5

NC P8-7 P8-8 NC
NC P8-9

P8-10

PA9

DSPI2_CS0

PA10 P8-11

P8-12

PA11

DSPI2_SCK

DSPI2_SOUT

PA12 P8-13

P8-14

PA13

DSPI2_SIN

CAN1_TXD

PA14 P8-15

P8-16

PB1

CAN1_RXD

GND GND GND GND

P8

P9

P9

EXTERNAL USE

9

S32R274RRUEVB+MPC57xxMB: Pinout 2 of 12

P10

FUNCTION PORT PIN PIN PORT FUNCTION

FLEX_TXD_A_PD0

PD0 (DNP)

P11-1

P11-2

NC

NC P11-3

P11-4

NC

NC P11-5

P11-6

PD5 (DNP)

RGMII_RX_D0

PD6 (DNP)

P11-7

P11-8NCTP20 (EVB test

pt)

WGM_WG3_P

PD8 P11-9

P11-10

NC

DNC P11-11

P11-12

NC

CTU0_EXT_TRIG

PD14 P11-13

P11-14

NC

LIN1_TXD

PD11 P11-15

P11-16

PF15

LIN1_RXD

GND GND GND GND

FUNCTION PORT PIN PIN PORT FUNCTION

ADC1_AN_3

PC0 P10-1

P10-2

PC1

ADC0_AN_2

ADC0_AN_3

PC2 P10-3

P10-4

NC

TP17

PC4 P10-5

P10-6

PC5

TP15

TP18

PC6 P10-7

P10-8

PC7

TP16

MB_CAN0_RXD

PA15 (DNP) P10-9

P10-10

PB0 (DNP)

MB_CAN0_TXD

NC P10-11

P10-12

NC

NC P10-13

P10-14

PC15 (DNP)

RGMII_TX_EN

NC P10-15

P10-16

NC

GND GND GND GND

P10

P11

P11

Note: “DNP” stands for “Do not populate”, meaning pin is disconnected by default. You must

solder a resistor across the appropriate resistor slot on S32R274RRUEVB to enable the
function.