Abstract
In this article, a novel view of switched reluctance motor analysis under eccentricity fault for providing the precise and reliable model is presented. It then continues with describing the performance characteristics and comparison results of a six-by-four switched reluctance motor with static rotor eccentricity utilizing three-dimensional finite element analysis. The results of the three-dimensional finite element analysis for a 6/4, 20-W switched reluctance motor including flux-linkages, terminal inductance per phase, mutual inductances, and static torque for various eccentric motor conditions by considering the end effects and axial fringing fields for simulating reliable model, are obtained and presented. Finally, the comparison of these results with the results obtained for the same motor profile by utilizing the two-dimensional finite element method are presented and explained.
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