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NXP Semiconductors S32R274RRUEVB Quick Start Manual
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NXP Semiconductors S32R274RRUEVB Quick Start Manual

NXP Semiconductors S32R274RRUEVB Quick Start Manual

Ultra-reliable mcus for industrial and automotive applications
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S32R274RRUEVB AND S32R372RRSEVB
QUICK START GUIDE (QSG)
Ultra-Reliable MCUs for Industrial and Automotive Applications
S32RXXXEVB
Web Page
EXTERNAL USE

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Summary of Contents for NXP Semiconductors S32R274RRUEVB

  • Page 1 S32R274RRUEVB AND S32R372RRSEVB QUICK START GUIDE (QSG) Ultra-Reliable MCUs for Industrial and Automotive Applications S32RXXXEVB Web Page EXTERNAL USE...
  • Page 2 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 −...
  • Page 3 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...
  • Page 4 Step-by-Step Installation Instructions In this quick start guide, you will learn how to set up the Install Software and Tools S32R274RRUEVB board and run the default program. Install S32 Design Studio IDE for Power Architecture. S32 Design Studio for Power...
  • Page 5 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 •...
  • Page 6 S32R274RRUEVB Board : Overview NXP Microcontroller S32R The S32R274RRUEVB is NXP’s evaluation board for the S32R radar Reset Button Power Supply processor. It is designed to be paired with an Cross- analog front end. NXP ADC Inputs Triggering supports the TEF810 and...
  • Page 7 NXP’s motherboard for the MPC57xx product User family as well as S32R274RRUEVB. Buttons Once the User S32R274RRUEVB is LEDs plugged in, it will have I/O pins access to all MPC57xxMB Daugther card I/O. Power can also be Pot. expansion port provided by the motherboard.
  • Page 8 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])
  • Page 9 S32R274RRUEVB+MPC57xxMB: Pinout 1 of 12 FUNCTION PORT PORT FUNCTION WGM_WG0 P8-1 P8-2 WGM_WG1 WGM_WG2_P P8-3 P8-4 WGM_WG2_N DSPI2_CS1 P8-5 P8-6 SIUL_EIRQ5 P8-7 P8-8 P8-9 P8-10 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...
  • Page 10 PD14 P11-13 P11-14 LIN1_TXD PD11 P11-15 P11-16 PF15 LIN1_RXD 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 EXTERNAL USE function.
  • Page 11 P13-12 P13-13 P13-14 TP21 (EVB test pt) P13-15 P13-16 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 EXTERNAL USE function.
  • Page 12 P15-11 P15-12 P15-13 P15-14 PH13 (DNP) RGMII_RX_CLK P15-15 P15-16 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 EXTERNAL USE function.
  • Page 13 TP23 (EVB test pt) P17-9 P17-10 P17-11 P17-12 P17-13 P17-14 P17-15 P17-16 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 EXTERNAL USE function.
  • Page 14 TP26 (EVB test pt) P19-15 P19-16 TP27 (EVB test pt) 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 EXTERNAL USE function.
  • Page 15 P21-8 P21-9 P21-10 P21-11 P21-12 P21-13 P21-14 P21-15 P21-16 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 EXTERNAL USE function.
  • Page 16 P23-8 P23-9 P23-10 P23-11 P23-12 P23-13 P23-14 P23-15 P23-16 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 EXTERNAL USE function.
  • Page 17 P25-8 P25-9 P25-10 P25-11 P25-12 P25-13 P25-14 P25-15 P25-16 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 EXTERNAL USE function.
  • Page 18 P28-8 P28-9 P28-10 P28-11 P28-12 P28-13 P28-14 P28-15 P28-16 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 EXTERNAL USE function.
  • Page 19 P30-8 P30-9 P30-10 P30-11 P30-12 P30-13 P30-14 P30-15 P30-16 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 EXTERNAL USE function.
  • Page 20 P32-8 P32-9 P32-10 P32-11 P32-12 P32-13 P32-14 P32-15 P32-16 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 EXTERNAL USE function.
  • Page 21 S32R274RRUEVB: Communication Interfaces 1 of 2 UART1 DESCRIPTION PORT UART1 LIN1_RXD PF15 LIN1_TXD PD11 CAN_0 DESCRIPTION NAME Port PA15 & PB0 CANH J37-01 CANL J37-02 CAN0 J37-03 CAN_2 DESCRIPTION NAME Port PI5 & PI6 CANH J42-01 CANL J42-02 CAN2 J42-03...
  • Page 22 S32R274RRUEVB: Communication Interfaces 2 of 2 MIPI-CSI2 DESCRIPTION PORT ETIMER2_ETC3 PC12 SD_0_ADCN* SDADC0 Neg. Inp. Ethernet SD_0_ADCP* SDADC0 Pos. Inp. DESCRIPTION PORT CTE_RFS PE13 RGMII_TXCLK PG11 DSPI2_SOUT PA12 RGMII_TX_D0 DSPI2_SIN PA13 RGMII_TX_D1 DSPI2_CS0 PA10 RGMII_TX_D2 DSPI2_SCK PA11 RGMII_TX_D3 PG10 SIUL_EIRQ5...
  • Page 23 S32R274RRUEVB: Programing Interface JTAG DESCRIPTION Support for USB Multilink Interface JTAG EXTERNAL USE...
  • Page 24 The S32R274RRUEVB supports two power options. You can directly power the MCU power rails via the power terminals on J1 of S32R274RRUEVB; or you can plug it into a MPC57xxMB and power both motherboard and daughter card with a 12V power supply.
  • Page 25 Package Level Pinout Diagram – S32R274 (257 BGA) EXTERNAL USE...
  • Page 26 Software Development Tools • S32 Design Studio IDE for Power Architecture • IDE & Compilers − Free S32 Design Studio IDE with GCC compiler − GHS MULTI Integrated Development Environment − Cosmic IDE − iSystems winIDEA IDE − Sourcery CodeBench Development Tools •...
  • Page 27 Pre-Compiled Code Examples List of code examples: Hello World • Pre-compiled example projects are Hello World + PLL Hello World + PLL + Interrupts available in S32DS as well as in the Quick Start Package eTimer Frequency Measurement • Example projects also includes the eTimer Count projects from Application Note, AN4830:...
  • Page 28 S32R Application Examples (coming soon!) List of code examples: • S32R Application Demos are advanced S32R Dolphin Demo code examples that demonstrate radar S32R Standalone Demo applications with the S32R S32R RADAR Demo • S32R works alongside an analog radar transceiver to create advanced radar functions such as radar detection NOTE: Run these examples with S32DS for...
  • Page 29 Documentation and Reference Material • Documentation Links − S32R274 Datasheet − S32R274 Factsheet • Application Notes − S32R Radar Signal Compression − S32R27/37 Hardware Design Guide − Clock Monitor Unit Guide − e200 Core Memory Protection Unit Guide • Reference Manuals −...
  • Page 30 Radar Family – Product Feature Differences • S32R274 is the successor to the MPC5775K radar processor • Selected features below FEATURES Flash* Security Transceiver Interface PROM S32R274 2.0MB 1.5MB Emulate 1 x 4-lane MIPI-CSI2 MPC5775K 4.0MB 1.5MB Emulate 1 x PDI *Differences in memory are all in the Large Flash Block EXTERNAL USE...
  • Page 31 PLL before executing application code. • Keep S32 Design Studio IDE and OpenSDA firmware Up-to-date for best results • Post Technical Questions on NXP community for MPC5xxx. • Useful Links: − S32R Webpage − S32R274RRUEVB Webpage − nxp.com/s32ds − nxp.com/community EXTERNAL USE...

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