基于四元数旋转的永磁球形步进电机运动控制算法

2006 CES/IEEE 5th International Power Electronics and Motion Control Conference Pub Date : 2006-08-01 DOI:10.1109/IPEMC.2006.4778113

Qunjing Wang, K. Xia

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引用次数: 4

摘要

针对Gregory S. Chirikjian和David Stein等人设计的永磁球形步进电机(PMSSM)，提出了基于四元数旋转的运动控制算法。通过继电器控制定子线圈的电流状态来实现转子的运动。当转子表面上的任意一点被期望移动到另一个指定的点时，将一步运动组合成一个明智的连续轨迹是必要的。提出了一种分段运动轨迹的控制算法。这样，每一段对应一个圆弧，分别绕一个固定轴旋转，转子的连续运动是可行的。然后对运动控制算法进行了仿真和误差分析

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The Motion Control Algorithm based on Quaternion Rotation for a Permanent Magnet Spherical Stepper Motor

This paper presented the motion control algorithm based on quaternion rotation for a permanent magnet spherical stepper motor (PMSSM) designed by Gregory S. Chirikjian and David Stein et al. The movement of the rotor was achieved by controlling the current states of the stator coils with relays. While one arbitrary point on the surface of the rotor was expected to move to another appointed one, combining one-step motion into a piece wise continuous trajectory was necessary. The paper provided a control algorithm about kinetic trajectory divided into sections. Thus each segment corresponded one arc and circled around one fixed axis individually, and the continuous movement of the rotor was feasible. The simulation of the motion control algorithm and the error analysis were then presented in the following

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2006 CES/IEEE 5th International Power Electronics and Motion Control Conference

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