최근 전기차·UAM·로봇을 비롯해 각종 산업 영역에서 모터 사용 비중이 증가하며, 정밀한 모터 제어 솔루션은 필수가 됐다. 이런 가운데 독일에 본사를 둔 MOTEON은 인피니언(Infineon) MOTIX™ 제품을 사용해 고성능 모터 제어를 위한 소프트웨어 솔루션을 제공하며, 산업 전반에 걸쳐 모터 제어의 신뢰성과 효율성을 향상 시키고 있다. 이에 본지는 10월31일 e4ds ee웨비나를 통해 MOTEON 모터제어 소프트웨어 솔루션을 소개하는 다보코퍼레이션(주) 기술연구소 조용규 연구소장과 만나 모터 정밀 제어에 대한 이야기를 들어봤다.
“MOTEON Motor Control SW, Infineon MOTIX Use Improved Reliability and Efficiency”
Provides various control solutions such as BLDC, PMSM, and SRM, and enables precise speed and torque control
ASPICE-based development, highly reliable SW provision and development environment provided
[Editor’s Note] Recently, as the proportion of motors used in various industrial fields including electric vehicles, UAM, and robots increases, precise motor control solutions have become essential. In the midst of this, MOTEON, headquartered in Germany, provides software solutions for high-performance motor control using Infineon MOTIX™ products, and improves the reliability and efficiency of motor control across industries. On October 31, our magazine met with Yong-Gyu Cho, Director of the Technology Research Center at Dabo Corporation, who was introducing MOTEON motor control software solutions, through the e4ds ee webinar to hear about precise motor control.
■ As the use of motors in vehicles has increased recently, developers need development knowledge to precisely control the motors. Could you please introduce me to the knowledge or resources required for precise motor control?
As the use of motors in vehicles increases in recent years, the technological capabilities of developers to precisely control motors have become increasingly important.
The key knowledge and resources required for this can be broadly divided into three categories.
First is control theory and algorithms.
To control a motor precisely, an understanding of basic control theory such as PID control (proportional-integral-differential) is essential.
Furthermore, advanced algorithms such as nonlinear control and model predictive control may also be required depending on the operating characteristics of the motor.
These algorithms help monitor and adjust the motor's rotation speed, position, current, etc. in real time.
Second is understanding hardware and sensor technology.
Understanding hardware is also important for building accurate feedback systems for motor control.
For example, position sensors such as encoders and current sensors are required, and the ability to process data from these sensors in real time is also essential.
Knowledge of electronic components, such as motor driver circuits, also contributes to maximizing motor performance.
Finally, there are motor characteristics and software development capabilities.
Software development capabilities for motor control are also essential.
It is necessary to be able to write control programs that are suitable for the operating characteristics of various motors, such as DC motors, BLDC motors, and stepper motors, and software optimization that operates on embedded systems such as real-time operating systems and microcontrollers is required.
In conclusion, to control the motor precisely To do this, it is necessary to comprehensively acquire control theory, hardware understanding, and software development capabilities.
These elements will ensure stable and efficient operation of the vehicle's motor, ultimately contributing to improving vehicle performance and safety.
■ Please introduce MOTEON motor control software. Motor control software from MOTEON provides software solutions for high-performance motor control using Infineon's MOTIX products, improving the reliability and efficiency of motor control across industries.
For developers, these solutions can be a valuable resource for solving a variety of motor control problems.
The main features of MOTEON's motor control software are that it provides control solutions suitable for various electric motors such as BLDC (Brushless DC), PMSM (Permanent Magnet Synchronous Motor), and SRM (Switched Reluctance Motor), enabling precise speed control and torque control, real-time control and optimization, and providing highly reliable software because it was developed based on ASPICE required in automobiles, and it even provides a development environment where customers can monitor and control data related to motor operation in real time.
■ Motors control mechanical movement, but electronic control takes priority in driving the motor. It is very difficult for developers to fully understand these characteristics, so it is thought that SW will need to provide a lot of help during the development process. I wonder if MOTEON motor control software has a function that can help developers alleviate these concerns.
Before developing motor control software, it is important to understand how much torque the motor can produce at the various speeds required by the application.
MOTEON motor analysis tool shows the limits, performance, and operating range of a motor.
The tool also includes MOTOR Analysis software, which includes the ability to accurately visualize potential ranges while taking into account external conditions such as system parameters such as voltage, operating mode, device temperature, and tolerances.
We also offer a compact test bench system designed to help developers debug and verify software and hardware for embedded motor control applications in a standardized and functionally safe environment, providing a development environment that can be quickly set up without compromising high safety standards in a workshop environment.
■ Please introduce the webinar that will be held on October 31st. This seminar will explain real-time data acquisition and motor control software development and verification using MOTEON's sensorless motor control software and analysis tools and PC-based hardware equipment, TraceBox.
We would like to ask for your interest and participation from those who are interested in motor control software in the automotive field.
thank you