RA8M1 Evaluation Kit

Overview

The EK-RA8M1 is an Evaluation Kit for Renesas RA8M1 MCU Group which is the first 32-bits MCUs based on new Arm Cortex-M85. The kit offer multiple external interface and peripherals set optimized on board allows user to seamlessly evaluate the features of the RA8M1 MCU and develop embedded system application in various field.

The key features of the EK-RA8M1 board are categorized in three groups as follow:

MCU Native Pin Access

  • 480MHz Arm Cortex-M85 based RA8M1 MCU in 224 pins, BGA package

  • Native pin acces througgh 2 x 50-pin, and 2 x 40-pin male headers

  • MCU current measurement points for precision current consumption measurement

  • Multiple clock sources - RA8M1 MCU oscillator and sub-clock oscillator crystals, providing precision 20.000MHz and 32,768 Hz refeence clocks. Additional low precision clocks are avaialbe internal to the RA8M1 MCU

System Control and Ecosystem Access

  • USB Full Speed Host and Device (micro-AB connector)

  • Four 5V input sources

    • USB (Debug, Full Speed, High Speed)

    • External power supply (using surface mount clamp test points and power input vias)

  • Three Debug modes

    • Debug on-board (SWD)

    • Debug in (ETM, SWD and JTAG)

    • Debug out (SWD)

  • User LEDs and buttons

    • Three User LEDs (red, blue, green)

    • Power LED (white) indicating availability of regulated power

    • Debug LED (yellow) indicating the debug connection

    • Two User buttons

    • One Reset button

  • Five most popular ecosystems expansions

    • Two Seeed Grove system (I2C/I3C) connectors

    • One SparkFun Qwiic connector

    • Two Digilent Pmod (SPI, UART and I2C/I3C) connectors

    • Arduino (Uno R3) connector

    • MikroElektronika mikroBUS connector

  • MCU boot configuration jumper

Special Feature Access

  • Ethernet (RJ45 RMII interface)

  • USB High Speed Host and Device (micro-AB connector)

  • 512 Mb (64 MB) External Octo-SPI Flash (present in the MCU Native Pin Access area of the EK-RA8M1 board)

  • CAN FD (3-pin header)

RA8M1 Evaluation Kit

EK-RA8M1 Board Functional Area Definitions (Credit: Renesas Electronics Corporation)

Hardware

Detail Hardware feature for the RA8M1 MCU group can be found at RA8M1 Group User’s Manual Hardware

RA8M1 MCU group feature

RA8M1 Block diagram (Credit: Renesas Electronics Corporation)

Detail Hardware feature for the EK-RA8M1 MCU can be found at EK-RA8M1 - User’s Manual

Supported Features

The below features are currently supported on Zephyr OS for EK-RA8M1 board:

Interface

Controller

Driver/Component

GPIO

on-chip

gpio

MPU

on-chip

arch/arm

NVIC

on-chip

arch/arm

UART

on-chip

serial

CLOCK

on-chip

clock control

I2C

on-chip

i2c

ENTROPY

on-chip

entropy

SPI

on-chip

spi

FLASH

on-chip

flash

PWM

on-chip

pwm

COUNTER

on-chip

counter

CAN

on-chip

canfd

USBHS

on-chip

udc

ETHERNET

on-chip

ethernet

ADC

on-chip

adc

Note: For using Ethernet module on EK-RA8M1, remove jumper J61 to enable Ethernet B

Other hardware features are currently not supported by the port.

Programming and Debugging

Applications for the ek_ra8m1 board configuration can be built, flashed, and debugged in the usual way. See Building an Application and Run an Application for more details on building and running.

Note: Only support from SDK v0.16.6 in which GCC for Cortex Arm-M85 was available. To build for EK-RA8M1 user need to get and install GNU Arm Embedded toolchain from https://github.com/zephyrproject-rtos/sdk-ng/releases/tag/v0.16.6

Flashing

Program can be flashed to EK-RA8M1 via the on-board SEGGER J-Link debugger. SEGGER J-link’s drivers are avaialbe at https://www.segger.com/downloads/jlink/

To flash the program to board

  1. Connect to J-Link OB via USB port to host PC

  2. Make sure J-Link OB jumper is in default configuration as describe in EK-RA8M1 - User’s Manual

  3. Execute west command

    west flash -r jlink
    

Debugging

You can use Segger Ozone (Segger Ozone Download) for a visual debug interface

Once downloaded and installed, open Segger Ozone and configure the debug project like so:

  • Target Device: R7FA8M1AH

  • Target Interface: SWD

  • Target Interface Speed: 4 MHz

  • Host Interface: USB

  • Program File: <path/to/your/build/zephyr.elf>

Note: It’s verified that we can debug OK on Segger Ozone v3.30d so please use this or later version of Segger Ozone

References