Design and Modeling of an Electromagnetic Levitated and Actuated Micromotor

W. Wong, William K. S. Pao, D. Holliday, P. Mellor
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引用次数: 4

Abstract

The design of an electromagnetic levitated and actuated micromotor is presented. The micromotor is consists of a counter-circular tracks that provide stable levitation force and radial parallel tracks that produce motoring rotational torque. Using simple filamentary representation of different features of the micromotor design, analytical expressions of the electromagnetic force produced by the features are derived and are used as foundation for the micromotor design. Finite element modeling is then used to analyze the actual micromotor design layout. From both the analytical and modeling results, the effects of different design features are presented. Finally, a macro-scale demonstrator is constructed to corroborate the micromotor design.
电磁悬浮驱动微电机的设计与建模
介绍了一种电磁悬浮驱动微电机的设计。该微电机由提供稳定悬浮力的反圆轨道和产生运动旋转扭矩的径向平行轨道组成。用简单的细丝表示微电机设计的不同特征,推导出这些特征所产生的电磁力的解析表达式,并以此作为微电机设计的基础。然后利用有限元建模对实际微电机的设计布局进行分析。从分析结果和建模结果两方面分析了不同设计特征的影响。最后,构建了一个宏观验证器来验证微电机的设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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