Symmetry and asymmetry from MEMS variable capacitor by nonlinear micro stoppers

IF 1.2 4区工程技术 Q3 ENGINEERING, MECHANICAL

Mechanics & Industry Pub Date : 2021-01-01 DOI:10.1051/meca/2021039

Jianxiong Zhu, Yunde Shi, Fengqin Ma

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引用次数: 2

Abstract

Mechanical stoppers in MEMS capacitive systems can dramatically affect electrical performances and result in complicated mechanical dynamic responses. This paper introduces electromechanical coupling nonlinear dynamic responses in MEMS variable dual-capacitor with an effect of nonlinear and asymmetrical stoppers. We found that the capacitance in the electrical circuit system related to the first-order derivative of the output voltage on a load resistor, and the variable dual-capacitor was strongly affected by the coupling of up and down superposition instantaneous electrostatic force and limited space by the length of nonlinear stoppers. The numerical calculation results and the experimental results in our analysis based on our system had a good agreement, and the numerical simulation results presented rich nonlinear impacts dynamic responses through the imposed voltage and the height of stoppers in MEMS variable dual-capacitive device. The device in operation cannot reach the 0.6 time's initial gap due to small forcing amplitude (1.026 g). However, we observed that the movable plate and stoppers (across the 0.6 time's initial gap) had fierce impacts due to big forcing amplitude (4 g) on to the device. With asymmetric stopper each impact, we also concluded that the movable plate would experience attenuations of the displacement until the moment to the next impacts. Moreover, the height of stoppers can not only result in complicated dynamic motion of the movable plate, but also can modulate a voltage of the fixed plate with its asymmetry structure.

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非线性微塞对MEMS可变电容的对称和不对称影响

MEMS容性系统中的机械止动器会对系统的电性能产生巨大影响，并导致复杂的机械动态响应。介绍了MEMS可变双电容在非线性和非对称阻塞作用下的机电耦合非线性动态响应。研究发现，电路系统中的电容与负载电阻输出电压的一阶导数有关，而可变双电容受上下叠加瞬时静电力和非线性阻塞长度有限空间耦合的强烈影响。基于该系统的数值计算结果与实验结果吻合较好，并且通过施加电压和阻塞高度对MEMS可变双容器件产生丰富的非线性冲击动态响应。运行中的装置由于受力幅度小(1.026 g)，无法达到0.6时间的初始间隙。然而，我们观察到活动板和塞子(跨越0.6时间的初始间隙)由于对设备的大强迫幅度(4 g)而产生强烈的冲击。在每次撞击都采用非对称挡板的情况下，我们还得出结论，在下一次撞击之前，活动板的位移会衰减。此外，塞子的高度不仅会导致活动板的复杂动态运动，而且还会因其不对称结构而调制固定板的电压。

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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来源期刊

Mechanics & Industry ENGINEERING, MECHANICAL-MECHANICS

CiteScore

2.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： An International Journal on Mechanical Sciences and Engineering Applications With papers from industry, Research and Development departments and academic institutions, this journal acts as an interface between research and industry, coordinating and disseminating scientific and technical mechanical research in relation to industrial activities. Targeted readers are technicians, engineers, executives, researchers, and teachers who are working in industrial companies as managers or in Research and Development departments, technical centres, laboratories, universities, technical and engineering schools. The journal is an AFM (Association Française de Mécanique) publication.