模式可重构CMOS-MEMS滤波器的机电耦合

2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2014-03-13 DOI:10.1109/MEMSYS.2014.6765875

Chao-Yu Chen, Ming-Huang Li, C. Chin, Cheng-Syun Li, Sheng-Shian Li

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引用次数: 8

摘要

这项工作提出了一种新的滤波器方案，它结合了在CMOS-MEMS滤波器中实现的电气和机械耦合机制，同时通过弱机械连接获得小百分比带宽，并通过差分电气配置获得良好的阻带抑制。与传统的并联级(即电耦合)滤波器和机械耦合滤波器相比，所提出的富氧化物滤波器结构具有灵活的电气布线和非导电的机械滤波器耦合器，因此可以在单个器件内实现共模到差分(CIDO)和差分到共模(DICO)的可重构模式。所提出的8.6 mhz CMOS-MEMS滤波器已成功验证，在适当终止下具有35 kHz(0.41%带宽)的窄通带和20 dB以上的阻带抑制。

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Combined electrical and mechanical coupling for mode-reconfigurable CMOS-MEMS filters

This work presents a novel filter scheme which combines both electrical and mechanical coupling mechanisms implemented in a CMOS-MEMS filter to simultaneously attain small percent bandwidth through weakly mechanical link and decent stopband rejection via differentially electrical configuration. As compared to the traditional parallel-class (i.e., electrically-coupled) filters and mechanically-coupled filters, the proposed oxide-rich filter structure features flexible electrical routing and non-conductive mechanical filter couplers, hence enabling common-mode to differential (CIDO) and differential to common-mode (DICO) reconfigurable modes all within a single device. The proposed 8.6-MHz CMOS-MEMS filter has been successfully demonstrated with a narrow passband of 35 kHz (0.41% bandwidth) and stopband rejection more than 20 dB under proper termination.

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来源期刊

2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS)

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