%0 Journal Article %T Torque Ripple Reduction of the Position Sensor-less Switched Reluctance Motors Applied in the Electrical Vehicles %J Journal of Operation and Automation in Power Engineering %I University of Mohaghegh Ardabili %Z 2322-4576 %A Dejamkhooy, A. %A Ahmadpour, A. %D 2023 %\ 12/01/2023 %V 11 %N 4 %P 258-267 %! Torque Ripple Reduction of the Position Sensor-less Switched Reluctance Motors Applied in the Electrical Vehicles %K Switched Reluctance Motors %K Minimum Torque Ripple Point Tracking %K Torque Sharing Functions %K electric vehicles %R 10.22098/joape.2023.9908.1694 %X The Switched Reluctance Motors (SRMs) not only are low cost for industry applications, but ‌also they could work in various conditions with high reliability and efficiency. However, usage ‌of these motors in high speeds applications under discrete mode causes decreasing the ‌efficiency. In this paper, a new optimized control method based on the various Torque Sharing ‌Functions (TSFs) and optimization algorithms is proposed for Minimum Torque Ripple Point ‌Tracking (MTRPT) of a 4-phase SRM with 6/8 poles. In this method, turn-on and commutation angles are controlled based on the lookup table. The proposed method could adjust the rapid variations of the current in the starting mode of SRM. To show the robustness of the proposed approach, a real case study is considered, the control method is applied in an Electric Vehicle (EV) mechanism, and its performance is assessed in various motion states such as acceleration, breakage, and steady-state. Also, the position sensor for the studied EV is ‌neglected, which could reduce the extra costs. There are two various scenarios considered for solving the problem. First, the turn-off and turn-on angles are controlled, and the commutation angle is fixed. The results show the ‌robustness of the proposed method with about 90 \% diminishing the torque ripple, compared to ‌when all mentioned angles are fixed. In the second step, based on a lookup table, instead of using ‌complex analytical methods, the turn-on angle is controlled. Therefore, a variable turn-on ‌angle ‌proportional to the applied speed is applied to the commutation control system of SRM. Besides, ‌a lookup table is created to restrain the reduction of the turn-off angle. The simulation results are ‌compared to other previous methods, and the worth of the proposed method is shown.‌ %U https://joape.uma.ac.ir/article_1797_9ac624ed6a2e246c0327e94b35961eaf.pdf