Low Actuation Voltage RF MEMS Switch Using Varying Section Composite Fixed-Fixed Beam

International Journal of Microwave Science and Technology Pub Date : 2014-10-20 DOI:10.1155/2014/862649

M. Manivannan, R. Joseph Daniel, K. Sumangala

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引用次数: 26

Abstract

The present authors have earlier reported the employment of varying section fixed-fixed beam for achieving lower pull-in voltage with marginal fall in restoring force. Reducing Young’s modulus also reduces the pull-in voltage but with lesser degree of reduction in restoring force. Composite beams are ideal alternatives to achieve decreased Young’s modulus. Hence new varying section composite fixed-fixed beam type RF MEMS switch has been proposed. The main advantage of this RF MEMS switch is that lower pull-in voltages can be achieved with marginal fall in stiction immunity. Spring constant of the proposed switch has been obtained using simulation studies and it has been shown that the spring constant and therefore the pull-in voltage ( ) can be considerably reduced with the proposed switch. Simulation studies conducted on the proposed switch clearly demonstrate that the pull-in voltage can be reduced by 31.17% when compared to the varying section monolayer polysilicon fixed-fixed beam. Further this approach enables the designer to have more freedom to design lower pull-in voltage switches with improved stiction immunity.

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变截面复合固定-固定梁低驱动电压射频MEMS开关

本文作者早前报道了采用变截面固定-固定梁来实现较低的拉入电压和恢复力的边际下降。降低杨氏模量也会降低拉入电压，但恢复力的降低程度较小。复合梁是实现降低杨氏模量的理想选择。为此，提出了一种新型变截面复合固定-固定波束型射频MEMS开关。这种射频MEMS开关的主要优点是可以实现较低的拉入电压，而束缚抗扰度却有边际下降。通过仿真研究获得了该开关的弹簧常数，结果表明，该开关的弹簧常数和拉入电压()可以大大降低。对所提出的开关进行的仿真研究清楚地表明，与变截面单层多晶硅固定固定梁相比，该开关的拉入电压可降低31.17%。此外，这种方法使设计人员能够更自由地设计具有更高抗阻性的低拉入电压开关。

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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International Journal of Microwave Science and Technology

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