Finite Element Modeling of Electrostatic MEMS Including the Impact of Fringing Field Effects on Forces

M. Boutaayamou, K. H. Nair, R. Sabariego, P. Dular
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引用次数: 8

Abstract

The numerical models describing the behaviour of electrostatically actuated microsystems often disregard fringing fields. However, taking the fringing fields into account is crucial for an accurate computation of the electrostatic forces. In this work, the finite element method is applied for modeling electrostatic actuators. The electrostatic force distribution is obtained by locally applying the virtual work method. A micro-beam and a comb drive are considered as test cases. The impact of the fringing field effects on the accuracy of electrostatic forces is shown through 2D and 3D parametric studies
包含边缘场效应对力影响的静电MEMS有限元建模
描述静电驱动微系统行为的数值模型经常忽略边缘场。然而,考虑边缘场是精确计算静电力的关键。本文采用有限元方法对静电致动器进行建模。局部应用虚功法得到静电力分布。以微梁和梳状传动为试验用例。通过二维和三维参数研究,揭示了边缘场效应对静电力计算精度的影响
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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