A bi-directional out-of-plane actuator by electrostatic force

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Abstract

Presented in this paper is a bi-directional out-of-plane actuator which combines the merits of the electrostatic repulsive principle and the electrostatic attractive principle. By taking advantage of the electrostatic repulsive mode, the common "pull-in" instability can be lessened to enlarge the displacement, and by applying the electrostatic attractive mode, the out-of-plane displacement is further enlarged. The implications of changing the actuator's physical dimensions are discussed, along with the two-layer polysilicon surface microfabrication process used to fabricate such an actuator. The static characteristics of the out-of-plane displacement versus the voltage of both modes are tested, and displacements of 1.4 μm and 0.63 μm are obtained at 130 V and 15 V, respectively. Therefore, a total stroke of 2.03 μm is achieved, more than 3 fold that of the electrostatic attractive mode, making this actuator useful in optical Micro-Electro-Mechanical Systems (MEMS) and Radio Frequency (RF) MEMS applications. © 2013 by the authors; licensee MDPI, Basel, Switzerland.

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APA

Ren, H., Wang, W., Tao, F., & Yao, J. (2013). A bi-directional out-of-plane actuator by electrostatic force. Micromachines, 4(4), 431–443. https://doi.org/10.3390/mi4040431

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