Power Electronics and Motor Control Systems with MATLAB and Simulink

This MATLAB and Simulink-based framework provides comprehensive modeling and simulation capabilities for power electronics and motor control systems. It includes extensive libraries of power electronic components such as IGBTs, MOSFETs, thyristors, and diodes, along with detailed motor models covering DC motors, induction motors, and synchronous motors. The implementation supports various control algorithms including PID control (implemented through transfer function blocks or discrete PID controllers), fuzzy logic control (using Fuzzy Logic Toolbox blocks), and adaptive control strategies. Researchers can explore different power electronics application domains such as power conversion circuits (using Simscape Electrical components), power transmission systems, and battery management systems (BMS) with state-of-charge estimation algorithms. The simulation environment enables parameter tuning through MATLAB scripts and real-time code generation using Simulink Coder. This comprehensive toolset supports diverse research and application requirements in power electronics and motor drives, facilitating system-level analysis and control design validation.