Investigation of 3:1 Internal Resonance of Electrostatically Actuated Microbeams With Flexible Supports

Volume 1: 14th International Conference on Micro- and Nanosystems (MNS) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22050

Praveen Kumar, M. Inamdar, D. N. Pawaskar

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引用次数: 3

Abstract

Interaction between modes due to internal resonance has many applications in MEMS devices. In this paper, we investigate the modal interaction through 3 : 1 internal resonance of an electrostatically actuated microbeam with flexible supports in the form of rotational and transversal springs. The static displacement and the first three modal frequencies are obtained at the applied DC voltage by a reduced order model for a specified ratio of electrode gap and thickness. We then obtain the value of applied voltage for which 3 : 1 internal resonance exists for four different combinations of unequal end support stiffnesses. We calculate the coefficients of the coupled dynamical equations of first two modes for all the four cases and solve them by using numerical time integration and the method of multiple scales. We observe the interaction between the first and the second mode when each of the modes is independently excited by an external source. When the second mode is externally excited, interestingly, we also find that the undriven mode response amplitude is twice that of the driven mode.

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柔性支承静电驱动微梁3:1内共振特性研究

由于内部共振引起的模式间相互作用在MEMS器件中有许多应用。本文研究了具有旋转弹簧和横向弹簧形式的柔性支承的静电驱动微梁通过3:1内共振的模态相互作用。在给定电极间距和厚度比的情况下，通过降阶模型得到了直流电压下的静态位移和前三个模态频率。然后，我们得到了四种不同的不相等端支刚度组合存在3:1内部共振的施加电压值。计算了所有四种情况下前两种模态耦合动力学方程的系数，并采用数值时间积分和多尺度方法求解。我们观察了当每个模态都被一个外部源独立激发时，第一模态和第二模态之间的相互作用。当第二模态受到外部激励时，有趣的是，我们还发现非驱动模态的响应幅度是驱动模态的两倍。

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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Volume 1: 14th International Conference on Micro- and Nanosystems (MNS)

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