Indirect Vector Control of Linear Induction Motors Using Space Vector Pulse Width Modulation

Vector control schemes have recently been used to drive linear induction motors (LIM) in high-performance applications. This trend promotes the development of precise and efficient for individual motors. research aims present a novel framework speed thrust force LIM using space vector pulse width modulation (SVPWM) inverters. The under consideration is developed four stages. To begin, MATLAB Simulink was develop detailed mathematical electromechanical dynamic model. presents modified SVPWM inverter scheme. By tuning proportional-integral (PI) controller with transfer function, optimized values PI are derived. All subsystems mentioned above integrated create robust simulation LIM’s reference were chosen evaluate performance respective system, system’s response verified various data sets. For low-speed range, value 10 m/s used, while 100 high-speed range. output indicates that motor reached matter seconds, as delay time between 8 s. maximum amplitude achieved less than 400 N, demonstrating controller’s capability minimal ripple. Due controlled system highly recommended heavy-duty traction