MATLAB Simulation Model of Speed Feedback Asynchronous Induction Motor Speed Control System

In this project, we develop a MATLAB simulation model for a speed feedback asynchronous induction motor speed control system using .mdl files. The model implements core components including motor input/output parameter configurations and speed regulation control algorithms through Simulink blocks. Key implementation aspects involve PID controller tuning for speed feedback loops, voltage/frequency (V/F) control block implementation, and asynchronous motor mathematical modeling using differential equations. Through parameter optimization and control strategy adjustments in the simulation environment, we can enhance system performance metrics like response speed and stability margins. This simulation approach enables comprehensive analysis of motor operational characteristics, torque-speed relationships, and dynamic behaviors under various load conditions. The model serves as a valuable tool for understanding induction motor principles and advancing research in motor control applications, with practical significance for industrial drive system development.