可变枢轴跷跷板驱动的射频MEMS开关用于可重构系统的应用

2007 IEEE 20th International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2007-01-01 DOI:10.1109/MEMSYS.2007.4433000

Jongseok Kim, Sangwook Kwon, Hong Youngtack, Hee-Moon Jeong, Sanghoon Lee

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引用次数: 6

摘要

设计、制作了一种用于可重构天线系统的直流触点串联MEMS开关，并对其射频特性进行了测量。采用可变枢轴跷跷板的概念，使驱动电压降到最低，防止膜的粘连。所提出的开关结构在硅片上制作，共面波导(CPW)信号线和电极在玻璃晶片上制作。两个晶圆都采用阳极键合的方法进行键合。设计的芯片尺寸在2mmx2 mm以内，采用静电驱动。利用该设计方案，通过减小信号线与膜之间的距离，实现了较低的驱动电压，并在拉入范围内进行开关操作。最小驱动电压约为10-12 V，隔离度约为50 dB，在2 GHz时插入损耗约为0.25 dB。

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Variable pivot seesaw actuated RF MEMS switch for reconfigurable system application

A DC contact series MEMS switch for reconfigurable antenna system application is designed, fabricated, and its RF characteristics are measured. Variable pivot seesaw concept is applied because this design minimize the driving voltage and prevent stiction of membrane. The proposed switch structure is fabricated on the Si wafer, a coplanar waveguide(CPW) signal lines and electrodes are fabricated on the glass wafer. Both wafer are bonded by anodic bonding method. The designed chip size is within 2 mmx2 mm and it is actuated by electrostatic force. Low actuation voltage has been achieved by means of small distance between signal line and membrane using the design scheme, switching is executed in the pull-in range. Minimum actuation voltage is about 10-12 V, isolation is around 50 dB and insertion loss is about 0.25 dB at 2 GHz.

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来源期刊

2007 IEEE 20th International Conference on Micro Electro Mechanical Systems (MEMS)

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