Published Paper Details:

The Permanent Magnetic Synchronous Motor (PMSM) has garnered increasing attention in various high-performance applications such as electric vehicles, owing to its advantageous features including high power density, power factor, and efficiency. This paper introduces a novel approach for speed control of Permanent Magnet Synchronous Machines (PMSM) drives, utilizing fuzzy logic-based control techniques. PMSM torque and speed control has relied on Field Oriented Control (FOC). However, advancements in vector control techniques have expanded the application of PMSM motors into domains where previously only DC drives were feasible. The proposed fuzzy logic-based speed controller is meticulously examined with MATLAB/SIMULINK under various operating conditions, including sudden changes in load demand and frequent alterations in speed, such as sudden speed reversals. Through rigorous analysis and simulation, this approach aims to demonstrate its effectiveness in maintaining precise speed control and robust performance in dynamic operating environments. By combining the advantages of PMSM technology with the adaptability and robustness of fuzzy logic control, this research seeks to contribute to the advancement of high-performance electric drive systems, particularly in applications requiring agile and responsive motor control.