Abstract

Based on the analysis of generation principle of radial force and the generation characteristic of radial force and torque in the same air-gap field, the design procedure of a bearingless synchronous reluctance motor is introduced. With air-gap magnetic field analytic approach and the torque coefficient iteration, optimal design of radial force and torque is complemented. The calculated results by finite element method show that magnetic circuit and magnetic field distribution in air-gap are reasonable. The design methodology for the bearingless synchronous reluctance motor is verified.

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