SPWM Simulation Model with Direct Torque Control

Our SPWM (Sinusoidal Pulse Width Modulation) simulation model has undergone successful testing and validation for direct torque control applications. This implementation utilizes pulse width modulation techniques to generate sinusoidal waveforms with precise voltage and frequency control, enabling accurate torque regulation in motor drive systems. The model demonstrates robust performance through MATLAB/Simulink-based algorithms that incorporate space vector modulation techniques for optimal switching patterns. With its capability to simulate complex electromechanical systems, the model serves as a powerful tool for pre-implementation design verification and optimization across various industries. Its modular architecture allows customization through parameter tuning and control loop adjustments, making it applicable for automotive propulsion systems, aerospace actuators, and industrial automation. The model's advanced features include real-time performance monitoring, fault diagnosis interfaces, and harmonic analysis modules, providing valuable insights for enhancing design efficiency and testing protocols in power electronics applications.