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Simulation results of a hexahedron-octahedron based spherical stepping motor
Tomoaki Yano
The Journal of Mechanical Science and Technology, vol. 24, no. 1, pp.33-36, 2010
Abstract : The simulation results of a novel stepping motor based on a pair of a regular hexahedron and a regular octahedron (call ¡°6-8 spherical
stepping motor¡± afterward) are presented. The 3D electromagnet and motion coupled simulation program ¡°Magnet 6¡± is used for the
simulation. As the conditions of simulation, the excitation current and frequency is 1 A and 5.3 Hz, respectively. Three phase sinusoidal
excitation currents are applied to two pairs of three coils of the stator individually at 120 deg intervals. The simulation results show that
the rotor rotates along the rotating magnetic field and the output torque is 0.04 Nm. The simulation results prove the correctness of the 6-
8 spherical motor driving method. The developed 6-8 spherical stepping motor is air-core type without back yoke for avoiding the cogging
torque. When using iron core with back yoke, the proposed motor will be a high-torque spherical motor. The 6-8 spherical stepping
motor was tested and the experimental results were compared with the simulation results. Then, the simulation program was used for
optimum design of the 6-8 spherical stepping motor.
Keyword : Electromagnet and motion coupled simulation; Multi DOF; Spherical motor; Stepping motor |
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