Overview
Description
The Evaluation System for BLDC Motor provided by Renesas is a low-voltage permanent magnet synchronous motor (brushless DC motor) solution that allows anyone to easily evaluate the motor. After purchase, you can download the software from the website and start evaluating immediately.
Features
- Permanent magnet synchronous motor (brushless DC motor)
- Three-shunt current detection function
- Supports Motor Control Development Support Tool Renesas Motor Workbench
- Overcurrent protection function
- With optional CPU cards (sold separately), various motor control MCUs can be evaluated.
- This product is a successor product of "24V Motor Control Evaluation System for RX23T"
- Compatible with higher voltage and current than conventional kits (48V / 5A)
- Compatible with existing CPU cards
- Since the sample programs released in Evaluation System for BLDC Motor and 24V Motor Control Evaluation System for RX23T are different, please use the appropriate kit according to the control method you are considering. 24V Motor Control Evaluation System for RX23T will be integrated into the Evaluation System for BLDC Motor in the future.
- Included items
- 48V inverter board
- Permanent magnet synchronous motor
- Cables
- This solution kit does not include a CPU card. Please purchase the desired CPU card before use.
Applications
Documentation
Featured Documentation
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| Type | Title | Date |
| Manual - Development Tools | PDF 1007 KB 日本語 | |
| Manual - Hardware |
PDF
2.11 MB
日本語
AI-generated Summary:
The document explains how to implement vector control for permanent magnet synchronous motors (PMSM) with encoders, focusing on controlling three motors using the RX72T microcontroller. It details the use of Renesas Motor Workbench libraries and Smart Configurator tools to develop motor control software. The system integrates a 48-V 5-A inverter board and specific motors, with software examples provided for CS+ and e2studio IDEs. Hardware and software configurations, control algorithms, interrupt handling, and system protection features are covered. The document also includes development environment setup, motor hardware specifications, and support tool usage for efficient motor control development.
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| Manual - Hardware |
PDF
2.01 MB
日本語
AI-generated Summary:
Sensorless vector control software enables efficient control of permanent magnet synchronous motors (PMSMs) using the RX72T microcontroller. It supports controlling up to four motors simultaneously through a 48-V 5-A inverter board and RX72T CPU board. The software integrates with Renesas Motor Workbench and Smart Configurator tools, facilitating motor control development with sensorless algorithms. The system includes detailed hardware configurations, software modules, and control flow processes to optimize motor startup, modulation, and protection functions. It supports development environments such as CS+ and e2 studio with specific toolchain versions. The package includes source code files, configuration files, and evaluation board support for practical implementation and testing.
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| Application Note |
PDF
3.17 MB
日本語
AI-generated Summary:
The software sample program enables sensorless vector control of permanent magnet synchronous motors using Renesas RX family microcontrollers. It supports both 2-shunt and 1-shunt current detection methods and integrates with Renesas Motor Workbench for motor control development and monitoring. The software targets multiple RX MCUs and provides reference implementations for motor control, including interrupt-driven control and MCU function allocation. The evaluation system includes hardware and software environments for testing and development, supporting various RX MCU models and inverter boards. The document details software configuration, control algorithms, and test results to facilitate motor control application development.
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| Application Note |
PDF
2.65 MB
日本語
AI-generated Summary:
Sensorless vector control software drives dual permanent magnetic synchronous motors using the RA series microcontroller. The software supports motor control development with Renesas Motor Workbench, enabling internal data monitoring and user interface interaction. The system employs two motors, Motor 1 and Motor 2, controlled via inverter boards and configured with either an extender board or direct connections. Hardware includes RA6T1 CPU cards, 48V inverter boards, and TG-55L-KA motors. The software uses e2studio with FSP and GCC ARM toolchains. Key functions include motor start/stop, A/D conversion, modulation methods (SPWM and SVPWM), state transitions, startup methods, system protection, and interrupt handling. Detailed hardware configurations and control flowcharts facilitate development and evaluation.
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| Application Note |
PDF
1.36 MB
日本語
AI-generated Summary:
The sample program implements inertia estimation and return origin functions for position control of permanent magnet synchronous motors using Renesas RX microcontrollers. It supports vector control with encoder or induction sensors, enabling precise servo control. The software operates on RX72M, RX72T, RX66T, and RX24T MCUs, utilizing hardware like inverter boards and sensors such as AMT102-V encoders and TAS2143 magnet sensors. The development environment includes CS+, CC-RX, and e2studio IDEs. The hardware configuration integrates PWM outputs, A/D converters, and various input/output interfaces for motor control, error handling, and user interaction. The document also details user interface components like variable resistors, switches, and LEDs for operation and status indication.
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| Application Note | Vector Control of BLDC Motor with Resolver (For Evaluation System for BLDC Motor) Rev.1.01
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| Application Note |
PDF
1.51 MB
日本語
AI-generated Summary:
Sensorless vector control software drives permanent magnetic synchronous motors using the RA6T1 microcontroller. It supports motor start/stop, A/D conversion, modulation, state transitions, startup methods, and system protection. The hardware includes a 24V DC power supply, inverter circuit, phase current detection, and user interfaces such as variable resistors, switches, and LEDs. The software integrates with Renesas Motor Workbench for development and debugging. The system uses a 48V inverter board and RA6T1 CPU card, with detailed hardware and software configurations provided. The package includes source code, control flowcharts, and evaluation environment setup.
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| Application Note |
PDF
1.70 MB
日本語
AI-generated Summary:
Sensorless vector control software drives permanent magnetic synchronous motors (PMSM) using the RA6T1 microcontroller with 1-shunt current detection. The system integrates hardware and software configurations, including motor start/stop, A/D conversion, modulation, state transitions, and system protection. It utilizes Renesas Motor Workbench for development support and requires specific hardware modifications such as removing resistors and connecting designated points. The software follows an algorithm for sensorless control and supports detailed interrupt processes and evaluation environments.
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| Application Note |
PDF
1.69 MB
日本語
AI-generated Summary:
Vector control software drives permanent magnetic synchronous motors (PMSM) using an AB incremental encoder and the RA6T1 microcontroller. It supports motor start/stop, speed measurement, modulation, and system protection functions. Hardware includes a 48V inverter board, variable resistor for speed command, switches for start/stop and error reset, and LEDs for status indication. The software integrates with Renesas Motor Workbench for development, debugging, and tuning. The system uses multiple interrupt processes for precise control and protection. Development environment includes e2studio, FSP, and GCC ARM Embedded toolchain. The package includes hardware schematics, software modules, and detailed control flowcharts.
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| Application Note |
PDF
1.68 MB
日本語
AI-generated Summary:
The document explains the use of Renesas microcontrollers to drive permanent magnet synchronous motors using 120-degree conducting control. It covers software samples compatible with Smart Configurator and motor control components, supporting evaluation systems for BLDC motors. The software runs on RX24U, RX24T, RX23T, and RX13T MCUs, with development environments including CS+ and e2studio IDEs. Hardware specifications detail MCU cards, inverter boards, and sensors, including hall sensors for motor control. The document includes hardware configuration diagrams and outlines motor control algorithms, software structure, and test results for performance evaluation.
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| Application Note |
PDF
2.20 MB
日本語
AI-generated Summary:
Vector control of permanent magnet synchronous motors integrates magnet and inductive sensors using Renesas microcontrollers. The software supports digital, analog, and SPI-output magnet sensors, switchable via software, and enables motor control with inductive sensors. Compatible MCUs include RX72M, RX72T, RX66T, RX24T, RX24U, RX23T, and RX13T, with some sensor output limitations on RX13T and RX23T. The software works with Renesas Motor Workbench for monitoring and control, facilitating evaluation and development of motor control systems. Development environments include specific MCU and inverter boards, magnet and inductive sensors, and IDEs such as CS+ and e2studio with Smart Configurator support.
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| Other | PDF 435 KB | |
| Other | PDF 272 KB | |
| Application Note | Vector Control for Permanent Magnet Synchronous Motor with Encoder (For Evaluation System for BLDC Motor, Structure update version) Rev.1.00
AI-generated Summary:
Vector control software drives permanent magnet synchronous motors with encoders using Renesas microcontrollers. It integrates with the Motor Solution Kit and supports Renesas Motor Workbench for monitoring and UI control. The software utilizes multifunction timer pulse units and 12-bit A/D converters for precise motor control. Compatible MCUs include RX72M, RX72T, RX66T, RX24T, RX24U, RX23T, and RX13T. The development environment includes CS+ and e2studio IDEs with RX smart configurator and CC-RX toolchain. Hardware setup involves inverter boards and AMT102-V encoders. The package provides sample programs for vector control, motor control modules, and detailed software architecture for efficient motor operation.
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| Application Note |
PDF
1.50 MB
日本語
AI-generated Summary:
The document explains the implementation of 120-degree conducting control for permanent magnetic synchronous motors (PMSM) using hall sensors with the RA6T1 microcontroller. It details the hardware setup, including inverter boards and motor interfaces, and software structure for motor control. The control software manages motor start/stop, speed and voltage control, state transitions, and system protection. It also introduces the Renesas Motor Workbench tool for development support and debugging. The hardware includes user interfaces such as variable resistors, switches, and LEDs for operation and error indication. The development environment specifies hardware and software versions used for evaluation.
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| Application Note |
PDF
1.52 MB
日本語
AI-generated Summary:
The document explains the implementation of sensorless 120-degree conducting control for permanent magnetic synchronous motors using the RA6T1 microcontroller. It details hardware configurations, including inverter and CPU boards, user interfaces, and peripheral functions. The software structure covers motor start/stop, speed and voltage control, state transitions, and protection functions. It also introduces the Renesas Motor Workbench tool for motor control development and debugging. The development environment includes specific hardware and software versions. The document provides flowcharts and detailed module configurations to support system evaluation and operation.
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| Application Note | Vector Control for Permanent Magnet Synchronous Motor with Magnet sensor and inductive sensor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10
AI-generated Summary:
The document explains vector control implementation for permanent magnet synchronous motors using magnet and inductive sensors with RX24T microcontroller functions. It details the use of Renesas Motor Workbench and Smart Configurator tools for motor control development, including driver configuration for timers and A/D converters. The system supports digital and analog magnetic sensors and inductive sensors for precise motor control. Hardware and software configurations, control program descriptions, and test results for position and speed control are provided. The document also references relevant manuals and software tools for comprehensive development support.
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| Application Note |
PDF
1.73 MB
日本語
AI-generated Summary:
Sensorless vector control software enables dual permanent magnet synchronous motors (PMSMs) operation using RX66T microcontroller. It supports two timer-based versions—MTU and GPT—with identical specifications except for the timer used. The system includes hardware configurations with or without an extender board, requiring specific modifications and cabling. Software development uses Renesas Motor Workbench libraries and supports IDEs CS+ and e2studio. The software targets evaluation systems for BLDC motors, providing motor start/stop, A/D conversion, modulation, and protection functions. Detailed hardware and software configurations, interrupt priorities, and control flowcharts are included to facilitate motor control development and evaluation.
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| Application Note |
PDF
1.83 MB
日本語
AI-generated Summary:
Vector control for permanent magnet synchronous motors (PMSM) with encoder utilizes RX13T microcontroller functions and Renesas Motor Workbench libraries to develop motor control software. It covers hardware and software configurations, including multi-function timer pulse units, 12-bit A/D converters, and PWM outputs. The system supports motor start/stop, speed measurement, modulation, and protection functions. Development environments include CS+ and e2studio IDEs, with hardware such as RX13T CPU Card and a 48V 5A inverter board. User interfaces include variable resistors, switches, LEDs, and encoder inputs. The document provides detailed control flowcharts, interrupt handling, and software module configurations for efficient motor control implementation.
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| Application Note | RX13T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.10
AI-generated Summary:
Sensorless vector control software for permanent magnet synchronous motors (PMSM) using the RX13T microcontroller implements motor control without position sensors. It utilizes Renesas Motor Workbench libraries and Smart Configurator tools for configuring multi-function timers and 12-bit A/D converters. The system supports hardware including a 48V 5A inverter board and RX13T CPU card, with interfaces for motor speed input, start/stop control, error reset, and LED indicators. The software runs on IDEs CS+ and e2 studio, providing functions like motor startup, modulation, state transitions, and system protection. Hardware configuration includes phase current detection, overcurrent protection, and PWM outputs for motor phases. This solution facilitates sensorless control development for BLDC motors with detailed hardware and software integration.
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| Application Note | RX23T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.10
AI-generated Summary:
Sensorless vector control software for permanent magnet synchronous motors (PMSM) using the RX23T microcontroller enables motor control without position sensors. It utilizes Renesas Motor Workbench libraries and Smart Configurator tools to configure multi-function timers and 12-bit A/D converters. The system supports motor start/stop, speed input via variable resistor, error handling, and PWM output for motor phases. Hardware includes RX23T MCU, inverter board, and user interfaces such as switches and LEDs. Software development uses CS+ and e2 studio IDEs with specific toolchain versions. The software is provided as reference and requires thorough evaluation before use. Reference manuals and user guides support development and implementation.
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| Application Note |
PDF
2.00 MB
日本語
AI-generated Summary:
The document explains vector control implementation for permanent magnet synchronous motors (PMSM) using RX23T microcontroller with encoder feedback. It covers sample programs, hardware and software configurations, and integration with Renesas Motor Workbench and Smart Configurator tools. The system supports motor start/stop, speed measurement, modulation, and protection functions. Hardware interfaces include PWM outputs, A/D converters, encoder inputs, and user controls like switches and LEDs. The software uses multi-function timer pulse units and 12-bit A/D converters for precise motor control. The document also details interrupt handling and control flow for real-time motor operation.
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| Application Note | RX24T/RX24U Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.10
AI-generated Summary:
Sensorless vector control software for permanent magnet synchronous motors (PMSM) using RX24T/RX24U microcontrollers enables motor control without position sensors. It utilizes Renesas Motor Workbench libraries and Smart Configurator tools for configuring multi-function timer pulse units and 12-bit A/D converters. The software supports motor start/stop, A/D conversion, modulation, state transitions, startup methods, and system protection. Hardware includes RX24T/RX24U CPU cards, a 48V 5A inverter board, and user interfaces such as variable resistors and switches. Development environments include CS+ and e2 studio IDEs with specific toolchain versions. The system supports evaluation of sensorless vector control algorithms for BLDC motors with detailed hardware and software configurations.
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| Application Note |
PDF
2.14 MB
日本語
AI-generated Summary:
The document explains sample programs for vector control of permanent magnet synchronous motors (PMSM) with encoders using RX24T/RX24U microcontrollers. It details the use of Renesas Motor Workbench and Smart Configurator tools for motor control development, including driver configuration for timers and A/D converters. The system supports hardware interfaces such as variable resistors, switches, LEDs, and PWM outputs, enabling motor start/stop, error handling, and position/speed control. Software components cover motor control algorithms, interrupts, and protection functions. The document also provides hardware and software environment specifications and references related manuals and tools.
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| Application Note | RX66T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.10
AI-generated Summary:
Sensorless vector control software for permanent magnet synchronous motors (PMSM) uses the RX66T microcontroller, leveraging the Renesas Motor Workbench library and Smart Configurator tool for motor control development. The system integrates multi-function timer pulse units and 12-bit A/D converters to manage motor operations without sensors. Hardware includes RX66T MCU, inverter board, and motor interfaces with user controls such as variable resistors and switches for speed, start/stop, and error reset. Software supports CS+ and e2studio IDEs. The document details hardware configuration, software structure, control algorithms, and development tools, enabling efficient sensorless motor control implementation.
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| Application Note |
PDF
1.80 MB
日本語
AI-generated Summary:
The document explains sample programs for vector control of permanent magnet synchronous motors (PMSM) with encoders, using RX66T microcontroller functions. It details the use of Renesas Motor Workbench and Smart Configurator tools for motor control development, including driver configuration for timers and A/D converters. The system integrates hardware components such as inverter circuits, PWM outputs, and encoder inputs, with user interfaces like switches and LEDs for motor operation and error handling. Software covers motor start/stop, speed measurement, modulation, and protection functions. Development environments include CS+ and e2 studio IDEs. The document references related manuals and provides a comprehensive overview of hardware and software configurations for PMSM vector control.
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| Application Note | RX72T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.10
AI-generated Summary:
Sensorless vector control software for permanent magnet synchronous motors (PMSM) uses the RX72T microcontroller and Renesas Motor Workbench library. It configures hardware peripherals such as multi-function timer pulse units and 12-bit A/D converters via Smart Configurator. The system supports motor start/stop, speed command input, error reset, and over-current detection with interfaces including variable resistors, switches, LEDs, and PWM outputs. Hardware includes RX72T MCU, inverter board, and compatible motors. Software development environments supported are CS+ and e2 studio with specified toolchain versions. The document details hardware configuration, software structure, control algorithms, and development tools for sensorless vector control implementation.
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| Application Note |
PDF
1.83 MB
日本語
AI-generated Summary:
The document explains sample programs for vector control of permanent magnet synchronous motors (PMSM) with encoders using RX72T microcontroller functions. It covers the use of Renesas Motor Workbench libraries and Smart Configurator tools for motor control development, including driver configuration for timers and A/D converters. The system integrates hardware such as inverter boards, encoders, and user interfaces like switches and LEDs. Software details include control algorithms, interrupt handling, and system protection. The document supports development environments CS+ and e2 studio and references multiple manuals for hardware and software configuration.
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| Application Note |
PDF
1.60 MB
日本語
AI-generated Summary:
The document explains the implementation of sensorless 120-degree conducting control for permanent magnetic synchronous motors using the RX13T microcontroller. It details hardware and software configurations, including motor start/stop, speed and voltage control, and system protection functions. The control method uses sensorless algorithms for efficient motor operation. It also covers the use of Renesas Motor Workbench for motor control development and debugging. Hardware interfaces include analog inputs for speed commands and phase current/voltage measurements, PWM outputs for inverter control, and user interfaces such as switches and LEDs. The document provides sample programs compatible with CS+ and e2 studio IDEs and references related manuals for further technical details.
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| Manual - Development Tools | PDF 1.11 MB | |
| Application Note |
PDF
1.03 MB
日本語
AI-generated Summary:
The document explains sensorless vector control implementation for permanent magnet synchronous motors using the RX23T microcontroller. It details the hardware and software development environments, including specific microcontroller models, evaluation boards, and toolchain versions. The hardware configuration covers input/output ports, sensors, and motor control signals. User interfaces such as variable resistors, switches, and LEDs are described, along with their functions for motor speed control, start/stop commands, error reset, and system reset.
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| Application Note |
PDF
1.04 MB
日本語
AI-generated Summary:
The document explains how to implement sensorless vector control for permanent magnet synchronous motors using RX24T/RX24U microcontrollers. It details the hardware and software development environments, including specific microcontroller models, evaluation boards, and toolchain versions. The system overview covers hardware configuration, including input/output ports, inverter circuits, and user interfaces such as switches, LEDs, and variable resistors for speed control. It also specifies port functions for voltage, current measurement, PWM outputs, and error detection.
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| Application Note | PDF 2.01 MB 日本語 | |
| Application Note |
PDF
1.79 MB
日本語
AI-generated Summary:
The document explains the implementation of sensorless 120-degree conducting control for permanent magnetic synchronous motors using the RX23T microcontroller. It details the hardware and software configurations, including user interfaces, peripheral functions, and control algorithms for motor start/stop, speed, and voltage control via PWM. The system uses sample programs compatible with CS+ and e2 studio IDEs and supports development with the Renesas Motor Workbench tool. Hardware includes a 48V 5A inverter board and RX23T CPU card, with interfaces for speed input, start/stop commands, error reset, and status LEDs. The document also provides flowcharts and variable lists for control software and outlines system protection functions.
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| Application Note |
PDF
1.77 MB
日本語
AI-generated Summary:
The document explains the implementation of 120-degree conducting control for permanent magnetic synchronous motors (PMSM) using hall sensors with the RX24T microcontroller. It details hardware and software configurations, including motor start/stop, speed and voltage control, and system protection. The document also covers the use of Renesas Motor Workbench for motor control development and provides sample programs compatible with CS+ and e2 studio IDEs. Hardware interfaces, such as variable resistors, switches, LEDs, and hall sensor inputs, are specified along with port assignments. The system supports a 48V 5A inverter board and TG-55L motor, offering a comprehensive guide for PMSM control using hall sensors.
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| Application Note |
PDF
1.66 MB
日本語
AI-generated Summary:
The sensorless 120-degree conducting control method drives permanent magnetic synchronous motors (PMSM) using the RX24T microcontroller and Renesas Motor Workbench. It covers hardware configuration, including motor control signals, phase voltage and current detection, and user interfaces such as variable resistance for speed command and switches for start/stop and error reset. The software structure includes modules for motor start/stop, A/D conversion, speed and voltage control via PWM, state transitions, and protection functions. Sample programs support development with CS+ and e2 studio IDEs, targeting evaluation systems for BLDC motors. Hardware specifications detail port functions and interfaces for motor control and monitoring.
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| Application Note |
PDF
910 KB
日本語
AI-generated Summary:
Sensorless vector control software for permanent magnet synchronous motors (PMSM) uses the RX13T microcontroller and Renesas Motor Workbench libraries to enable motor control without position sensors. The system utilizes a 24V inverter board and RX13T CPU card, interfacing with hardware components such as variable resistors for speed input, toggle switches for motor start/stop and error reset, and LEDs for status indication. The control algorithm relies on sensorless vector control techniques, with PWM outputs managing the motor phases. Hardware includes A/D converters for bus voltage and phase current measurements, and overcurrent detection for safety. This setup supports efficient motor control development and evaluation.
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| Application Note |
PDF
811 KB
日本語
AI-generated Summary:
The document explains how to implement sensorless vector control for permanent magnet synchronous motors using the RX72T microcontroller. It details the hardware and software development environments, including specific microcontroller models, evaluation boards, and toolchain versions. The system overview covers hardware configuration with input/output ports, sensors, and inverter circuits. User interfaces include variable resistors for speed control, toggle switches for motor start/stop and error reset, and LEDs indicating motor status and errors.
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| Application Note |
PDF
815 KB
日本語
AI-generated Summary:
The document explains the implementation of sensorless vector control for permanent magnet synchronous motors using the RX66T microcontroller. It details the hardware and software development environments, including the use of Renesas Motor Workbench and specific tools and versions. The hardware configuration includes the RX66T MCU, a 24V inverter board, and the TG-55L motor. User interfaces such as variable resistors, toggle switches, LEDs, and push switches control motor speed, start/stop, error reset, and system reset. Port assignments for voltage, current measurements, PWM outputs, and emergency stop inputs are also specified.
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40 items
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Design & Development
Software & Tools
Software & Tools
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Software type
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Company
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| Renesas Motor Workbench Renesas Motor Workbench is a development support tool for debugging, analyzing, and tuning motor control programs.
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Solution Toolkit | Renesas |
1 item
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Sample Code
Sample Code
Filters
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| Type | Title | Date Date |
| Sample Code | Sensorless Vector Control for Permanent Magnet Synchronous Motor (For Evaluation System for BLDC Motor, structure update version) Rev.1.20
[Toolchains=CC-RX|V3.06]
ZIP
150.22 MB
日本語
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+ for CC, e2 studio
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| Sample Code | Sensorless vector control for dual permanent magnetic synchronous motor (For Evaluation System for BLDC Motor, RA Family)
[Software=RA Flexible Software Package|v4.6.0],[Toolchains=GNU Arm Embedded|v10.3.1.20210824]
ZIP
6.56 MB
日本語
Application:
Consumer Electronics, Industrial, Motor Drives
Compiler:
GNU ARM Embedded
Function:
Application Example
IDE:
e2 studio
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| Sample Code | Servo control sample program RX Family Application Note - Sample Code
[Toolchains=CC-RX|V3.05.00]
ZIP
214.02 MB
日本語
Application:
Consumer Electronics, Industrial
Compiler:
CC-RX
IDE:
CS+ for CC, e2 studio
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| Sample Code | Vector Control of BLDC Motor with Resolver (For Evaluation System for BLDC Motor) Rev.1.01
[Toolchains=CC-RX|V3.04.00]
ZIP
101.88 MB
日本語
Application:
Motor Drives
Compiler:
CC-RX
IDE:
CS+, e2 studio
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| Sample Code | RA6T1 Sensorless vector control for permanent magnet synchronous motor (Implementation)
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| Sample Code | RA6T1 Sensorless vector control with one shunt for permanent magnet synchronous motor (Implementation)
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| Sample Code | RA6T1 Vector control for permanent magnet synchronous motor with encoder (Implementation)
[Toolchains=GCC Arm Embedded|10.3.1.20210824] [Software=RA FSP|v3.5.0] [Board=RSSK-RA6T1]
ZIP
10.31 MB
Compiler:
GNU Arm Embedded
Function:
Timer
IDE:
e2 studio
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| Sample Code | 120-degree Conducting Control of a Permanent Magnet Synchronous Motor (For Evaluation System for BLDC Motor, structure update version)
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| Sample Code | Vector Control for Permanent Magnet Synchronous Motor with Magnet Sensor and Inductive Sensor (For Evaluation System for BLDC Motor, structure update version)
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| Sample Code | Vector Control for Permanent Magnet Synchronous Motor with Encoder (For Evaluation System for BLDC Motor, Structure update version) Rev.1.00 - Sample Code
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| Sample Code | RA6T1 120-degree conducting control of permanent magnetic synchronous motor using hall sensors (Implementation) - Sample Code
Application:
Industrial
Compiler:
GNU ARM Embedded
Function:
Timer
IDE:
e2 studio
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| Sample Code | RA6T1 Sensorless 120-degree conducting control of permanent magnetic synchronous motor (Implementation) - Sample Code
Application:
Industrial
Compiler:
GNU ARM Embedded
Function:
Timer
IDE:
e2 studio
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| Sample Code | Vector Control for Permanent Magnet Synchronous Motor with Magnet sensor and inductive sensor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
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| Sample Code | RX66T Group Sensorless vector control for dual permanent magnetic synchronous motor Rev.1.00 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Timer
IDE:
CS+, e2 studio
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| Sample Code | RX72T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) (Control over Four Motors) for "Evaluation System for BLDC Motor" Rev.1.00 - Sample Code
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| Sample Code | RX72T Vector Control for Permanent Magnet Synchronous Motor with Encoder (Implementation) (Control over Three Motors) for "Evaluation System for BLDC Motor" Rev.1.00 - Sample Code
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| Sample Code | RX13T Vector Control for Permanent Magnet Synchronous Motor with Encoder (Implementation) For “Evaluation System for BLDC Motor" Rev.1.00 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
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| Sample Code | RX13T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
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| Sample Code | RX23T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
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| Sample Code | RX23T Vector Control for Permanent Magnet Synchronous Motor with Encoder (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
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| Sample Code | RX24T/RX24U Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
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| Sample Code | RX24T/RX24U Vector Control for Permanent Magnet Synchronous Motor with Encoder (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
|
|
| Sample Code | RX66T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
|
|
| Sample Code | RX66T Vector Control for Permanent Magnet Synchronous Motor with Encoder (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
|
|
| Sample Code | RX72T Sensorless Vector Control for Permanent Magnet Synchronous Motor (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
|
|
| Sample Code | RX72T Vector Control for Permanent Magnet Synchronous Motor with Encoder (Implementation) For “Evaluation System for BLDC Motor" Rev.1.10 - Sample Code
Application:
Industrial
Compiler:
CC-RX
Function:
Application Example
IDE:
CS+, e2 studio
|
|
| Sample Code | RX13T Sensorless 120-degree conducting control for permanent magnetic synchronous motor (Implementation) with “Evaluation System for BLDC Motor" Rev.1.00 - Sample Code
|
|
| Sample Code | RX23T Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.10 - Sample Code
|
|
| Sample Code | RX24T/RX24U Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.10 - Sample Code
|
|
| Sample Code | RX23T 120-degree conducting control for permanent magnetic synchronous motor using hall sensors (Implementation) For “Evaluation System for BLDC Motor” Rev.1.00 - Sample Code
|
|
| Sample Code | RX23T Sensorless 120-degree conducting control for permanent magnetic synchronous motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.00 - Sample Code
|
|
| Sample Code | RX24T 120-degree conducting control for permanent magnetic synchronous motor using hall sensors (Implementation) For “Evaluation System for BLDC Motor” Rev.1.00 - Sample Code
|
|
| Sample Code | RX24T Sensorless 120-degree conducting control for permanent magnetic synchronous motor (Implementation) For “Evaluation System for BLDC Motor” Rev.1.00 - Sample Code
|
|
| Sample Code | RX72T Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.00 - Sample Code
|
|
| Sample Code | RX66T Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.00 - Sample Code
|
|
35 items
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Related Boards & Kits
Boards & Kits
Starter
MOTOR-CPU-CARD
Active
CPU Card for Motor Control
The CPU Card for Motor Control is an optional board for the Evaluation System for BLDC Motor. Using a CPU card and the evaluation system, users can easily evaluate motor control using the corresponding microcontroller offered by Renesas.
The CPU cards on this page have not been confirmed to be... Read More
Starter
RTK0EM0006S01212BJ
Preview
24V Motor Control Evaluation System for RX23T
The 24V Motor Control Evaluation System for RX23T offered by Renesas makes it easy for users to evaluate motor solutions.
This product is a discontinued product. Please consider using the successor product, Evaluation System for BLDC Motor (P/N: RTK0EMX270S00020BJ).
Configuration
- 24V... Read More
Recommended Documents:
Reference Designs
RX23T Motor Control Reference Platform
YROTATE-IT-RX23T is a Renesas motor control reference design based on the RX23T 32-bit MCU designed to drive 3-phase permanent magnet motors.
The kit can manage up to 48V DC motors and up to 5A peak. It is delivered with a USB cable and an intuitive PC GUI to manage the motor speed, display the... Read More
Development
MOTOR-RSSK-RA6T1
Active
Motor Control Evaluation System for RA Family - RA6T1 Group
The Motor Control Evaluation System for RA Family - RA6T1 Group is a low-voltage permanent magnet synchronous motor (brushless DC motor) solution that allows anyone to easily evaluate motor control. Start evaluating motor control immediately using the kit hardware and software available for... Read More
Reference Designs
Multiple Motor Control Reference Design
The Multiple Motor Control reference design can be used for controlling three or four motors with a single microcontroller (MCU). The RX72T 32-bit MCU used in this design has extensive timer functions and can handle pulse-width modulation (PWM) outputs and encoder signal inputs for three motors.... Read More
Recommended Documents:
Product Options
| Part Number | Status | Stock | Budgetary Price (USD) | Description |
|---|---|---|---|---|
| RTK0EMX270S00020BJ | Active | In Stock | 1u | $315.74 | RX Evaluation System for BLDC Motor |
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Blog Post Jul 6, 2022 |
Blog Post May 23, 2022 |
Blog Post Nov 15, 2021 |
Blog Post Jun 1, 2021 |
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