Scaling Analysis and its Applications of Electrostatic Micromotors

Scaling Analysis and its Applications of Electrostatic Micromotors

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摘要 An electrostatic micromotor is compared with a conventional electromagnetic mieromotor, and the scaling effect of driving forces is analysed according to their different operation principles. Characteristic dimension L represents the linear scale of micromotors. Electromagnetic driving force is proportional to high-order power of characteristic dimension L whereas electrostatic driving force is not. So, in micro domain, the effect of electrostatic force is larger than that of electromagnetic force, which makes electrostatic micromotor more competitive against electromagnetic alternative in MEMS. In assessing the performance of a micromotor, the power per unit volume and efficiency are the two most important criteria. Hence, the two kinds of micromotors are further compared from these two aspects. The results indicate that electrostatic a micromotor has higher power per unit volume and efficiency, moreover, its structure is simple, it can be made sufficiently small. For those advantages of electrostatic micromotors, they can be used in optical devices, aerospace equipment and medical instruments. An electrostatic micromotor is compared with a conventional electromagnetic micromotor, and the scaling effect of driving forces is analysed according to their different operation principles. Characteristic dimension L represents the linear scale of micromotors. Electromagnetic driving force is proportional to high-order power of characteristic dimension L whereas electrostatic driving force is not. So, in micro domain, the effect of electrostatic force is larger than that of electromagnetic force, which makes electrostatic micromotor more competitive against electromagnetic alternative in MEMS. In assessing the performance of a micromotor, the power per unit volume and efficiency are the two most important criteria. Hence, the two kinds of micromotors are further compared from these two aspects. The results indicate that electrostatic a micromotor has higher power per unit volume and efficiency, moreover, its structure is simple, it can be made sufficiently small. For those advantages of electrostatic micromotors, they can be used in optical devices, aerospace equipment and medical instruments.

作者王欣利程树康

机构地区 Dept. of Electrical Engineering Dept. of Electrical Engineering

出处《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2004年第2期177-180,共4页 哈尔滨工业大学学报（英文版）

关键词 MEMS scaling effect characteristic dimension micro domain 微机电系统 MEMS 特征尺度微领域规模效应微发电机

分类号 TH-39 [机械工程] TM35 [电气工程—电机]

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Journal of Harbin Institute of Technology(New Series)

2004年第2期

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Scaling Analysis and its Applications of Electrostatic Micromotors

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