Investigation on E-Core Switched Reluctance Motor: Optimization, Electromagnetic Analysis and Experiment
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Jun 10, 2020
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Abstract
The switched reluctance motor(SRM) is superior in the field of automobile applications due to their abundant features such as reliability, single excitation, high starting torque, etc. Even though SRM has salient advantages there is a major demerit as torque ripple. This article describes the optimization technique involved in the reduction of torque ripple with 8/10, 500W, 1.8Nm and 120V E-Core SRM. Asymmetric rotor, Gashed rotor, Stack Length and Claw pole are the optimization technique involved in the minimization of torque ripple. The optimized machine is analyzed with static and time varying methods. The evaluation of simulation results is predicted with a prototype model.
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[2] Cheewoo Lee, Student Member, IEEE, and Ramu Krishnan, Fellow, IEEE, New Designs of a Two-Phase E-Core Switched Reluctance Machine by Optimizing the Magnetic Structure for a Specific Application: Concept, Design, and Analysis, , IEEE transactions on industry applications, vol. 45, no. 5, September/October (2009)
[3] ] Cheewoo Lee, Student Member, IEEE, R. Krishnan, Fellow, IEEE, and N. S. Lobo, Student Member, IEEE,, Novel Two-Phase Switched Reluctance Machine Using Common-Pole E-Core Structure: Concept, Analysis, and Experimental Verification, , IEEE transactions on industry applications, vol. 45, no. 2, march/April (2009)
[2] Cheewoo Lee, Student Member, IEEE, and Ramu Krishnan, Fellow, IEEE, New Designs of a Two-Phase E-Core Switched Reluctance Machine by Optimizing the Magnetic Structure for a Specific Application: Concept, Design, and Analysis, , IEEE transactions on industry applications, vol. 45, no. 5, September/October (2009)
[3] ] Cheewoo Lee, Student Member, IEEE, R. Krishnan, Fellow, IEEE, and N. S. Lobo, Student Member, IEEE,, Novel Two-Phase Switched Reluctance Machine Using Common-Pole E-Core Structure: Concept, Analysis, and Experimental Verification, , IEEE transactions on industry applications, vol. 45, no. 2, march/April (2009)