Radio Frequency-micro Electromechanical System Switch with High Speed and Low Actuated Voltage

B. Ganji, J. Yaghoubi
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引用次数: 2

Abstract

This paper presents a novel Radio Frequency-Micro Electromechanical System (RF-MEMS) fixedfixed switch for very fast switching. Using the obtained equations, the switching time depends on the stiffness and effective mass of the switch beam so that the switching time will be decreased by higher stiffness (spring constant) and lower effective mass. In the new design, the suspension bridge is a three-layer beam so that the middle layer is aluminum and outer layers are alumina. The reduced dimensions and three layers of beam cause to increase stiffness and reduce the mass of the beam. This led to increase the resonant frequency and as a result, the switching time is reduced. The results show that, the switching time is 127 ns for the applied voltage of 27V and also the pull-in voltage is 18V. The return loss is 12 dB at the frequency of 60 GHz that is desirable and the achieved results is better than previous works. Therefore, this switch is suitable for high frequency applications. doi: 10.5829/idosi.ije.2016.29.10a.08
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高速低驱动电压的射频-微机电系统开关
本文提出了一种新型射频-微机电系统(RF-MEMS)固定开关,可实现快速开关。根据得到的方程,开关时间取决于开关梁的刚度和有效质量,因此,较高的刚度(弹簧常数)和较低的有效质量会减小开关时间。在新的设计中,悬索桥是一个三层梁,中间层是铝,外层是氧化铝。梁的减小尺寸和三层结构使梁的刚度增加,质量降低。这导致了谐振频率的增加,从而减少了开关时间。结果表明,在施加电压为27V、拉入电压为18V时,开关时间为127 ns。在60 GHz频率下的回波损耗为12 dB,达到了理想的效果,比以往的工作结果要好。因此,该开关适用于高频应用。doi: 10.5829 / idosi.ije.2016.29.10a.08
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