Simulation Model for Rotor Field-Oriented Control of Asynchronous Motors

This simulation model for rotor field-oriented control of asynchronous motors demonstrates exceptional practicality. It has undergone rigorous validation to ensure computational accuracy and can simulate various operational scenarios to evaluate performance characteristics. The model supports customization for different motor types, enabling analysis of torque-speed characteristics under varying load conditions and speed requirements. Furthermore, it serves as an effective platform for optimizing control strategies through parameter adjustments in the PID regulators, flux observer algorithms, and coordinate transformation modules. The model implementation includes Clarke/Park transformations for reference frame conversion, slip frequency calculation for rotor flux orientation, and PWM generation for inverter control, facilitating improvements in motor efficiency and dynamic performance through systematic parameter tuning and control loop optimization.