An enhanced technique combining hysteresis current (HC) and sine pulse width modulation (SPWM) for generating the switching pulse to the inverter is proposed for speed control based on a rotor field-oriented control (RFOC) strategy in the induction motor drive. HC method is a simple and robust control method, it has a fast response in speed control, but the rotor speed and the stator current have high ripple. SPWM method, a popular method in triangular carrier wave modulation methods, has high precision in controlling the speed and torque of the motor; however, the high overshoot of the speed response in the transient phase is the weakness of this method. In this paper, a combined method of the above two methods, called hysteresis current-sine pulse width modulation (HCSPWM), is proposed for motor speed control. The simulations are implemented at various speed ranges in MatLab/Simulink environment. The simulation results have proved that the proposed method has a lower overshoot than the SPWM method in the transient-state and a lower ripple than the HC method in the steady-state in the same operating condition.

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