.. _ek_ra6m5: RA6M5 Evaluation Kit #################### Overview ******** The Renesas RA6M5 group uses the high-performance Arm® Cortex®-M33 core with TrustZone®. The RA6M5 is suitable for IoT applications requiring Ethernet, future proof security, large embedded RAM, and low active power consumption down to 107uA/MHz running the CoreMark® algorithm from Flash. The key features of the EK-RA6M5 board are categorized in three groups as follow: **MCU Native Pin Access** - 200MHz Arm Cortex-M33 based RA6M5 MCU in 176 pins, LQFP package - Native pin access through 4 x 40-pin male headers - MCU current measurement points for precision current consumption measurement - Multiple clock sources - RA6M5 MCU oscillator and sub-clock oscillator crystals, providing precision 24.000 MHz and 32,768 Hz reference clock. Additional low precision clocks are avaialbe internal to the RA6M5 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/Analog) connectors - One SparkFun Qwiic connector - Two Digilent Pmod (SPI and UART) 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) - 32 Mb (256 Mb) External Quad-SPI Flash - 64 Mb (512 Mb) External Octo-SPI Flash - CAN (3-pin header) .. figure:: ek_ra6m5.webp :align: center :alt: RA6M5 Evaluation Kit EK-RA6M5 Board Functional Area Definitions (Credit: Renesas Electronics Corporation) Hardware ******** Detailed hardware feature for the RA6M5 MCU group can be found at `RA6M5 Group User's Manual Hardware`_ .. figure:: ra6m5_block_diagram.webp :width: 442px :align: center :alt: RA6M5 MCU group feature RA6M5 Block diagram (Credit: Renesas Electronics Corporation) Detailed hardware feature for the EK-RA6M5 MCU can be found at `EK-RA6M5 - User's Manual`_ Supported Features ================== The below features are currently supported on Zephyr OS for EK-RA6M5 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 | +-----------+------------+----------------------+ | SPI | on-chip | spi | +-----------+------------+----------------------+ | COUNTER | on-chip | counter | +-----------+------------+----------------------+ | USBHS | on-chip | udc | +-----------+------------+----------------------+ | ADC | on-chip | adc | +-----------+------------+----------------------+ | PWM | on-chip | pwm | +-----------+------------+----------------------+ Other hardware features are currently not supported by the port. Programming and Debugging ************************* Applications for the ``ek_ra6m5`` board target configuration can be built, flashed, and debugged in the usual way. See :ref:`build_an_application` and :ref:`application_run` for more details on building and running. Flashing ======== Program can be flashed to EK-RA6M5 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-RA6M5 - User's Manual`_ 3. Execute west command .. code-block:: console 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: R7FA6M5BH * Target Interface: SWD * Target Interface Speed: 4 MHz * Host Interface: USB * Program File: **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 ********** - `EK-RA6M5 Website`_ - `RA6M5 MCU group Website`_ .. _EK-RA6M5 Website: https://www.renesas.com/us/en/products/microcontrollers-microprocessors/ra-cortex-m-mcus/ek-ra6m5-evaluation-kit-ra6m5-mcu-group .. _RA6M5 MCU group Website: https://www.renesas.com/us/en/products/microcontrollers-microprocessors/ra-cortex-m-mcus/ra6m5-200mhz-arm-cortex-m33-trustzone-highest-integration-ethernet-and-can-fd .. _EK-RA6M5 - User's Manual: https://www.renesas.com/us/en/document/man/ek-ra6m5-v1-users-manual .. _RA6M5 Group User's Manual Hardware: https://www.renesas.com/us/en/document/man/ra6m5-group-users-manual-hardware .. _Segger Ozone Download: https://www.segger.com/downloads/jlink#Ozone