Torque control of a spherical machine combining three degrees of freedom in motion is presented. This drive can be used for machine tools and robots to replace conventional rotating or linear machines which are connected in series or parallel. The proposed motor consists of a rotor sphere with permanent magnets and an outer stator core casing with 96 stator poles and windings. The currents of the coils have to be controlled individually because the pole pitch varies during operation. A unique solution to calculate all 96 current commands to produce one desired torque does not exist. Different control algorithms are presented how to choose the individual phase currents to reach the required torque vector. Simulation showed satisfying results which are confirmed by experiments. In addition, the controllability of three dimensional motion Is demonstrated.
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