Overview
Description
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 Inverter Board
- 24V Permanent magnet synchronous motor control function
- 3-shunt current detection function
- Overcurrent protection function
- CPU card for RX23T
- USB mini B cable
- Permanent magnet synchronous motors
PC System Requirements
- IBM PC/AT or compatible PC (USB 2.0 interface necessary) *1
- Processor: 1 GHz or more (hyperthreading and multi-core CPU support)
- Memory: 2 GB or more is recommended, minimum requirement is 1 GB (2 GB or more for 64-bit Windows 7)*2
- Free space on hard disk: 600 MB or more
- Display: 1024 × 768 resolution or more, 65,536 colors or more
- I/O: CD-ROM drive
- Microsoft Windows XP / Windows 7 *2
- Other software requirements in addition to Windows OS
- .NET Framework 3.5 SP1 + language pack
- Microsoft Visual C++ 2008 SP1 runtime library
- Internet Explorer 6.0 or later
*1: IBM and PC/AT are registered trademarks of International Business Machines Corporation of the U.S.
*2: Windows® is a registered trademark of Microsoft Corporation of the U.S.
Features
- RX23T microcontroller for motor control
- Permanent magnet synchronous motor (brushless DC motor)
- Three-shunt current detection function
- Supports Motor Control Development Support Tool Renesas Motor Workbench
- Overcurrent protection function
- Replace CPU card, other MCU can be evaluated.
Applications
Documentation
Featured Documentation
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| Type | Title | Date |
| Manual - Development Tools | PDF 1.71 MB 日本語 | |
| Manual - Development Tools | PDF 708 KB 日本語 | |
| Manual - Development Tools | PDF 652 KB 日本語 | |
| Manual - Development Tools | PDF 721 KB 日本語 | |
| Manual - Development Tools | PDF 872 KB 日本語 | |
| Manual - Development Tools | PDF 958 KB 日本語 | |
| Manual - Development Tools | PDF 842 KB 日本語 | |
| Application Note |
PDF
2.16 MB
日本語
AI-generated Summary:
This document explains implementing sensorless speed control of a permanent magnetic synchronous motor using 120-degree conducting control with initial position detection, based on the RL78/G1F microcontroller. It details the required hardware and software development environment, including specific microcontroller models, evaluation boards, and software versions. It also describes necessary hardware modifications to the 24V inverter board and RL78/G1F CPU card for current and voltage sensing, such as resistor changes and circuit adjustments to switch from 3-phase to DC-link current detection.
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| Application Note |
PDF
2.01 MB
日本語
AI-generated Summary:
The document explains how to implement sensorless 120-degree conduction control for high-speed rotation of a permanent magnet synchronous motor (PMSM) using the RL78/G1F microcontroller. It details the hardware and software environment, including sample programs compatible with CS+ and e2studio IDEs, and demonstrates the use of Renesas Motor Workbench for motor control development. The hardware setup includes a demo board with specifications such as 12V-50V input voltage, 30A peak current, and various connectors for communication and sensor inputs. The document also provides a detailed hardware configuration diagram illustrating the connections between the microcontroller, inverter circuit, sensors, and communication interfaces.
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| Application Note |
PDF
1.64 MB
日本語
AI-generated Summary:
The sensorless vector control method drives a permanent magnet synchronous motor (PMSM) using the RL78/G1F microcontroller. It includes sample programs compatible with CS+ and e2studio IDEs, designed for a 24V motor control evaluation system. The system uses hardware such as the RL78/G1F CPU card, inverter board, and TSUKASA TG-55L motor. The hardware configuration involves analog inputs for bus voltage and speed commands, PWM outputs for motor phases, and interfaces for start/stop, error reset, and LED indicators. The Renesas Motor Workbench tool supports motor control development. The document details hardware ports, user interfaces, and development environments to implement sensorless vector control algorithms effectively.
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| 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 |
RX23T Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.10
PDF
1.12 MB
日本語
AI-generated Summary:
The document explains sample programs for vector control of a permanent magnet synchronous motor with an encoder using RX23T. It details the hardware and software development environments, including specific microcontroller and evaluation boards. The system overview covers hardware configuration, showing connections for power, PWM outputs, encoder inputs, and sensors. User interfaces include variable resistors for speed input, toggle switches for motor control, LEDs for status indication, and port functions for various signals and controls.
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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
1.08 MB
日本語
AI-generated Summary:
The document explains sample programs for vector control of permanent magnet synchronous motors with encoders using RX24T/RX24U microcontrollers. It details the hardware and software development environments, including specific microcontrollers, evaluation boards, and software toolchains. The hardware configuration includes various input/output ports for motor control, such as PWM outputs, encoder inputs, and user interfaces like switches and LEDs. It also describes the system's user interface components and their functions, such as rotation speed input, start/stop commands, error reset, and LED indicators.
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| Application Note |
PDF
1.30 MB
日本語
AI-generated Summary:
Vector control techniques for permanent magnet synchronous motors equipped with magnet sensors are implemented using RX24T microcontroller functions. The system supports both digital (AB pulse) and analog (sine and cosine wave) sensor outputs. Sample programs demonstrate motor start/stop, speed measurement, modulation, and error correction. Hardware includes a 24V inverter circuit, RX24T CPU card, and TMR magnetic sensors from TDK. Software development environments include CS+ and e2studio with CC-RX toolchain. The document details hardware and software configurations, control algorithms, and integration with Renesas Motor Workbench for motor control development and evaluation.
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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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| Manual - Development Tools | PDF 96 KB | |
| Other | PDF 209 KB | |
| Quick Start Guide | PDF 839 KB | |
| 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 |
RX72T Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.00
PDF
962 KB
日本語
AI-generated Summary:
The document explains sample programs for vector control of a permanent magnet synchronous motor with an encoder using the RX72T microcontroller. It details the hardware and software development environment, including the RX72T MCU, 24V inverter board, and CC-RX toolchain. The system hardware configuration covers input/output ports, PWM outputs, encoder signals, and user interfaces such as switches and LEDs for motor control and status indication.
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| Application Note |
PDF
901 KB
日本語
AI-generated Summary:
The document explains the implementation of 120-degree conducting control for a permanent magnetic synchronous motor (PMSM) using hall sensors with the RX23T microcontroller. It details the hardware and software development environments, including the microcontroller, evaluation board, motor, and toolchain versions. The system overview covers hardware configuration, user interface components such as variable resistance for speed command, toggle switches for start/stop and error reset, and LED indicators. Port interfaces of the RX23T microcontroller are also specified, detailing connections for voltage measurement, current measurement, PWM outputs, hall sensor inputs, and emergency stop input.
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| Application Note |
PDF
896 KB
日本語
AI-generated Summary:
The document explains the implementation of 120-degree conducting control for permanent magnetic synchronous motors using the RX23T microcontroller and Renesas Motor Workbench. It details the hardware and software development environment, including the RX23T microcontroller, 24V inverter board, and TG-55L motor. The system hardware configuration features analog inputs for bus voltage, phase currents, and voltages, along with user interfaces such as variable resistance for speed command, toggle switches for start/stop and error reset, and LED indicators. Port interfaces of the RX23T microcontroller are listed with their functions, including PWM outputs and emergency stop input.
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| Application Note |
PDF
910 KB
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 the hardware and software development environment, including the RX24T microcontroller, inverter board, motor, and Renesas CCRX toolchain. The system hardware configuration covers sensor inputs, motor phases, PWM outputs, and user interfaces such as switches and LEDs for motor control and error handling.
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| Application Note |
PDF
895 KB
日本語
AI-generated Summary:
This document explains the implementation of 120-degree conducting control for a permanent magnetic synchronous motor (PMSM) using the RX24T microcontroller. It details the hardware and software development environments, including the RX24T microcontroller, 24V inverter board, and motor TG-55L. The system overview covers hardware configuration with input/output ports, sensors, and control signals. User interface components such as variable resistance for speed command, toggle switches for start/stop and error reset, and LED indicators are described along with their functions and port assignments.
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| Manual - Development Tools | PDF 252 KB | |
| Other | PDF 226 KB | |
| Manual - Development Tools | PDF 562 KB | |
| Application Note |
PDF
557 KB
日本語
AI-generated Summary:
The document explains sensorless vector control for Permanent Magnet Synchronous Motors (PMSM) using a two-phase (d, q) coordinate system instead of the three-phase system. It details the coordinate transformation, voltage equations, and torque generation, distinguishing between magnet torque and reluctance torque. The control system design includes speed and current control blocks using PI controllers and decoupling control to independently manage d-axis and q-axis currents, enhancing response and control precision.
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| Application Note |
PDF
529 KB
日本語
AI-generated Summary:
Vector control of Permanent Magnet Synchronous Motors (PMSM) uses a two-phase (d, q) coordinate system aligned with the motor's magnetic flux. The d-axis corresponds to the magnetic flux direction, and the q-axis is orthogonal. This method transforms three-phase currents into two-phase currents, simplifying control. Torque consists of magnet torque and reluctance torque, with non-salient PMSMs having zero reluctance torque. The control system integrates position, speed, and current control using PI and P controllers, with decoupling control enabling independent d-axis and q-axis voltage commands for high-speed response.
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| Application Note |
RX66T Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.00
PDF
959 KB
日本語
AI-generated Summary:
The document explains sample programs for vector control of a permanent magnet synchronous motor with encoder using RX66T microcontroller. It details the hardware and software development environments, including specific microcontroller boards and toolchains. The hardware configuration includes inputs from analog sensors, switches, LEDs, and encoder signals, with PWM outputs controlling the motor phases. User interfaces such as speed input, start/stop switches, error reset, and status LEDs are described with corresponding port assignments.
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| Manual - Development Tools | PDF 184 KB | |
| Other | PDF 291 KB | |
| Manual - Development Tools | PDF 1.90 MB | |
| Manual - Development Tools | PDF 699 KB | |
| Manual - Development Tools | PDF 862 KB 日本語 | |
| Manual - Development Tools | PDF 2.52 MB | |
| Manual - Development Tools | PDF 326 KB | |
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38 items
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Design & Development
Software & Tools
Software & Tools
| Software title
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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 | RL78G1F Sensorless speed control of 120-degree conducting controlled permanent magnetic synchronous motor with detection of initial position (Implementation) Rev.2.00 - Sample Code
Application:
Motor Drives
Compiler:
CC-RL
Function:
Three-Phase Inverter Control
IDE:
CS+, e2 studio
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| Sample Code | RL78/G1F Sensorless 120-degree conducting control for permanent magnetic synchronous motor (high-speed rotation) Rev.1.00 - Sample Code
Application:
Motor Drives
Compiler:
CC-RL
Function:
Three-Phase Inverter Control
IDE:
CS+ for CC, e2 studio
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| Sample Code | RL78/G1F Sensorless vector control for permanent magnetic synchronous motor Rev.2.00 - Sample Code
Application:
Motor Drives
Compiler:
CC-RL
Function:
Three-Phase Inverter Control
IDE:
CS+ for CC, e2 studio
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| Sample Code | RX23T Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.10 - Sample Code
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| Sample Code | RX23T Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.10 - Sample Code
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| Sample Code | RX24T/RX24U Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.10 - Sample Code
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| Sample Code | RX24T/RX24U Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.10 - Sample Code
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| Sample Code | RX72T Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.00 - Sample Code
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| Sample Code | RX72T Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.00 - Sample Code
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| Sample Code | RX23T 120-degree conducting control of permanent magnetic synchronous motor using hall sensors (Implementation) Rev.1.01 - Sample Code
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| Sample Code | RX23T Sensorless 120-degree conducting control of permanent magnetic synchronous motor (Implementation) Rev.1.11 - Sample Code
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| Sample Code | RX24T 120-degree conducting control of permanent magnetic synchronous motor using hall sensors (Implementation) Rev.1.01 - Sample Code
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| Sample Code | RX24T Sensorless 120-degree conducting control of permanent magnetic synchronous motor (Implementation) Rev.1.01 - Sample Code
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| Sample Code | RX66T Sensorless vector control for permanent magnetic synchronous motor (Implementation) Rev.1.00 - Sample Code
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| Sample Code | RX66T Vector control for permanent magnetic synchronous motor with encoder (Implementation) Rev.1.00 - Sample Code
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| Sample Code | Sensorless Speed control of 120-degree conducting controlled permanent magnetic synchronous motor (Implementation) Rev.1.00 - Sample Code
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16 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
Product Options
| Part Number | Status | Stock | Sampleable | Pb (Lead) Free | RoHS Compliant | China RoHS Compliant |
|---|---|---|---|---|---|---|
| RTK0EM0006S01212BJ | Preview | In Stock | N/A | No | No | No |
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