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引用次数: 28
摘要
本文介绍了一种新型的静电驱动RF-MEMS金属触点开关结构,可实现低压驱动。使用悬臂梁并在接触凹窝外放置下拉电极,可以大大降低驱动电压,同时保持较高的接触力和恢复力。仿真结果表明,该设计在20 V左右工作,每个触点产生>200 /spl mu/N的接触力,每个触点产生>115 /spl mu/N的恢复力。实测的驱动电压为20 ~ 30v,高于设计值,认为是由应力引起的偏转引起的。在2 GHz时,测量到的射频隔离为29 dB (Cu=28 fF),插入损耗为0.2 dB (Rs=2.1 /spl ω /)。
This paper describes a novel structure for an electro-static actuated RF-MEMS metal-contact switch which achieves low-voltage actuations. Using a cantilever and placing a pull-down electrode outside the contact dimples, the actuation voltage can be reduced greatly while keeping a high contact force and restoration force. The simulation results show that the novel design operates around 20 V and produces a contact force of >200 /spl mu/N per contact, and a restoration force of >115 /spl mu/N per contact. The measured actuation voltage is 20-30 V which is higher than the designed value, and is thought to be caused by stress induced deflection. The measured RF isolation is 29 dB (Cu=28 fF) and the measured insertion loss is 0.2 dB (Rs=2.1 /spl Omega/) at 2 GHz.
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