MATLAB Implementation of Vector Control Simulation

In this article, we will explore a novel approach to vector control simulation using MATLAB. We will delve into the technical details of this method, including its implementation in modern control systems and potential advantages and limitations. The simulation approach incorporates key MATLAB functions such as Clarke and Park transformations for coordinate system conversions, PID controllers for precise motor control, and Space Vector Pulse Width Modulation (SVPWM) techniques for inverter control. Through detailed examination of the algorithm structure, we can better understand the complexities of vector control simulation and develop innovative solutions to address technical challenges. The implementation demonstrates how to model permanent magnet synchronous motors (PMSM) or induction motors using mathematical equations translated into MATLAB code, including current regulators, speed controllers, and flux observers. We look forward to sharing the latest research findings and practical experiences in this field, and hope to inspire more professionals to participate in exploring advanced vector control methodologies through hands-on MATLAB simulation projects.