Overview
Description
The MCK-RA6T2 is a development kit that enables easy evaluation of motor control using permanent magnet synchronous motors (brushless DC motors). With this product and the sample code and QE for Motor that can be downloaded from the website, you can start evaluating motor control using the RA6T2 right away.
This product has two versions: Version 1 (P/N: RTK0EMA270S00020BJ) and Version 2 (P/N: RTK0EMA270S00021BJ).
- MCB-RA6T2 Version 1 supports only single power factor correction (PFC) control for the high voltage inverter board, while Version 2 supports single PFC control and interleaved PFC control.
- MCK-RA6T2 Version 1 (includes MCB-RA6T2 Version 1) will be discontinued. Please consider using the successor product, MCK-RA6T2 Version 2 (includes MCB-RA6T2 Version 2).
Please note that Version 1 and Version 2 are not sample code compatible. Therefore, sample code is provided for both Version 1 and Version 2. The supported boards are listed in the application notes included with the sample code. Please be sure to use the sample code corresponding to the board version.
Features
- Equipped with the RA6T2 as the motor control MCU
- Inverter board for 3-phase brushless DC (BLDC) motor (48V/10A rating)
- On-board debugger for flash programming of RA6T2
- Supports 1-shunt/3-shunt current sensing
- Overcurrent detection
- Supports high-voltage inverter board
- Supports the motor control development support tool "Renesas Motor Workbench"
- Motor control evaluation and debugging can be performed safely with the communication board isolating the PC and the CPU board electrically
- Supports Hall sensors, encoders, and inductive position sensors
Applications
Design & Development
Videos & Training
Motor failure can be costly, and traditional detection methods often require adding external sensors, increasing system complexity and cost. Renesas introduces a new approach that combines AI and signal processing to detect motor anomalies at startup without the need for additional sensors.
Using the RA6T2 Motor Control Kit, this video demonstrates how this innovative solution helps detect potential failures early, offering a cost-effective and efficient motor monitoring strategy.
Additional Videos
News & Blog Posts
Blog Post Jul 24, 2025 |
Blog Post Jun 14, 2024 |
Blog Post Mar 22, 2023 |
Blog Post Oct 20, 2022 |
Blog Post Dec 9, 2021 |
Support
Support Communities
- MCK-RA6T2 Motor Controller
Hi all, I am using the MCK-RA6T2 kit with FSP and e2 Studio for controlling a BLDC motor. I would like to find out how I can control the motor through the Motor Current Controller module rather than through Motor Sensorless Vector Control module. I want to achieve full ...
May 26, 2022 - MCK-RA6T2 MOTOR RPM
Hi I am using MCK-RA6T2 kit. The motor come along with the kit is capable to run a maximum RPM of 5500(Rated Speed is 4000, Max rated speed is 5500). But the maximum RPM found by the QE for motor tuner application is 2400. Is there any specific ...
Jan 15, 2026 - AI on MCK-RA6T2
Hi As of some project needs i want create an edge-AI on MCK-RA6T2. I am new to edge-AI. So could you please explain how to do it with e2 studio and reality AI plugging on e2studio. 1) i have an embedded AI model. i need to run ...
Feb 4, 2026
Knowledge Base
- A detailed explanation of the RA6T2 16-bit ADC mixed sampling mode application
... Conversion Method to Hybrid Mode and Scan Mode to Background Continuous Scan (Hybrid Conversion Method Only) This test was conducted using the official Renesas model MCK-RA6T2, please refer to the MCK-RA6T2 User's Manual (renesas.com) for details. The experiment was designed based on 4 ADC channels and ...
Feb 28, 2024 - RA6T2: How to use the GPT Complementary PWM mode
... becomes High in down count compare match. Step 1: Create a Renesas RA C/C++ Flat Project with the No RTOS selection based on MCK-RA6T2. Once the project is created, open the FSP Configuration perspective. From the toolbar of e2studio, select File > New > RA C/C++ Project ...
Jan 7, 2024
Support Communities
Knowledge Base
