Title:Nonlinear Control of a Bearingless Flux-Switching Slice Motor with Combined Winding SystemAuthor(s):Nikola Turk,  Neven Bulic,  Wolfgang GruberAbstract:The nonlinear radial forces relationship regarding phase currents and rotor angle demands a nonlinear control structure for bearingless motors. Most state-of-the-art control algorithms of bearingless motors are based on the assumption of linear current to force/torque relationship, and only the nonlinear relationship to the rotor angle is taken into account. However, in some types of bearingless motors, especially in motors with reluctance-type rotor, suspension forces are quadratic functions of the phase currents, which means that, in addition to linear terms, quadratic terms also contribute significantly to force generation. In this article, a novel control structure is presented, which allows controlling a bearingless motor featuring significant nonlinear current to force/torque relationship. Digital signal processor implementable solution was found by a numeric solution followed by the second-order Taylor approximation. To check the functionality, the suggested control structure was implemented with a bearingless flux-switching 12/10 motor.Journal:IEEE/ASME Transactions on MechatronicsISSN:1083-4435Page Reference:page 152-163, 11 page(s)Publishing:2/2020Volume:25Number:1

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