Torque Ripple Minimization in Switch Reluctance Motor Using Model Predictive Control for Water Pumping Application
Aguemon Dourodjayé Pierre
University of Abomey-Calavi, EPAC, Benin.
Agbokpanzo Richard Gilles *
University of Abomey, UNSTIM/ENSET-Lokossa, Benin.
Houngan Kokou Théophile
University of Abomey-Calavi, EPAC, Benin.
Vianou Antoine
University of Abomey-Calavi, EPAC, Benin.
*Author to whom correspondence should be addressed.
Abstract
This paper presents the torque ripple minimization in switched reluctance motor (SRM) for water pumping. The model predictive control (MPC), one of the rugged control, is used to minimize this torque ripple. According to the receding horizon, the MPC predicted the behavior of the system by generating the control signal to minimize the torque ripple. At each sampling time, an optimal control for torque ripples minimization is elaborated and only the first element is applied to the system according to the receding horizon control. The MPC minimized the real stator currents to reach the objective. The simulations on Matlab demonstrated that a very low rate of ripples could be obtained by setting the parameters of the MPC indicating the high potential of MPC in the control of SRM.
Keywords: SRM, MPC, Torque ripples, water pumping.