Hybrid electrostatic actuator for micromirror tilting

IEEE Sensors, 2005. Pub Date : 2005-10-31 DOI:10.1109/ICSENS.2005.1597641
W.G. Wu, Q. Chen, G. Yan, Y. Hao, D. Yin, Z.Y. Chen, A. Xu
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引用次数: 0

Abstract

A novel hybrid electrostatic actuator made up of a planar plate drive and a vertical comb drive is developed for actuating torsional micromirror. The device consisting of the actuator and an into-plane tiltable mirror is fabricated in SOI substrate based on bulk-and-surface mixed silicon micromachining. As demonstrated by experiment, the novel actuator can drive the mirror to achieve large-range continuous tilting as well as spontaneous 90deg tilting induced by the pull-in effect in a voltage control fashion. The continuous tilting range of the micromirror is increased to about 46deg. Both theoretical modeling and experimental observations indicate that, accompanying the increase in the continuous tilting range, the yielding voltage increases. The device has also been used as a mirror switch in an optical system, and the optical insertion loss is measured to be -1.98 dB
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用于微镜倾斜的混合静电致动器
研制了一种由平面盘式驱动和垂直梳状驱动组成的混合静电致动器,用于扭转微镜的驱动。基于体面混合硅微加工技术,在SOI衬底上制作了由致动器和内倾镜组成的器件。实验表明,该驱动器既能驱动反射镜实现大范围连续倾斜,又能在电压控制下实现由拉入效应引起的90度自发倾斜。微镜的连续倾斜范围增加到约46度。理论模型和实验结果均表明,随着连续倾斜范围的增大,屈服电压也随之增大。该器件还在光学系统中用作镜像开关,测量到的光插入损耗为-1.98 dB
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IEEE Sensors, 2005.
IEEE Sensors, 2005.
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