一种新颖的交叉数字,电感调谐,电容分流RF - MEMS开关,用于X和K波段应用

M. Angira, G. Sundaram, K. Rangra
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引用次数: 12

摘要

提出了一种新型电容并联RF-MEMS开关。在提出的设计中,信号线与驱动电极的交叉是用来制造一个紧凑的装置。桥梁结构锚定在地平面之间,并连接到两侧的两个悬臂梁上,以实现开关结构。这种新颖的结构用于感应调谐X和K波段的隔离峰,这是传统方法无法实现的。所设计的开关在1至25 GHz频率范围内的插入损耗为0.01 dB至0.11 dB。在10.4 GHz、11 GHz和21.4 GHz下,左悬臂梁、右悬臂梁或双悬臂梁分别处于下状态时,桥架的隔离度分别为34.71、34.33和40.7 dB。桥式结构的拉入电压为12.25 V,开关时间为34.40 μs,而左右悬臂梁的拉入电压为7.5 V,开关时间为57 μs。所设计的器件可用于未来的多波段通信应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel interdigitated, inductively tuned, capacitive shunt RF — MEMS switch for X and K bands applications
This paper presents a new type of capacitive shunt RF-MEMS switch. In the proposed design, interdigitation of signal lines with actuation electrodes is used to make a compact device. A bridge structure anchored in between ground planes and attached to two cantilevers on either side has been used to implement the switch structure. This novel structure is used to inductively tune the isolation peaks in X and K bands which is not possible with conventional approach. The designed switch shows an insertion loss of 0.01 dB to 0.11 dB over the frequency range from 1 to 25 GHz. Isolation of 34.71, 34.33, and 40.7 dB has been observed at 10.4 GHz, 11 GHz and 21.4 GHz when bridge is electro-statically actuated with either left, right or both cantilevers in the down state respectively. The bridge structure shows a pull-in voltage of 12.25 V and switching time of 34.40 μs whereas left and right cantilevers have 7.5 V and 57 μs. The designed device can be useful for the future multiband communication applications.
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