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Flux-switching permanent magnet machines and dc-excited flux-switching machines share the advantages of robust rotor structure and high torque density. In this paper, comparative analysis is performed on the two types of machines, in terms of flux-linkage, thermal condition, torque density, and field-weakening capability.
With the emergence of energy related issues in the automotive sector, there is a tendency to find new efficient solutions to replace existing electrical machinery. One promising candidate is the flux switching permanent magnet machine (FSPMM). Due to its challenging structure and nonlinear characteristic, in the investigation of the machine, generally finite element method (FEM), and rarely the magnetic...
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