桥接微机械过滤器

Proceedings of the 2004 IEEE International Frequency Control Symposium and Exposition, 2004. Pub Date : 2004-08-23 DOI:10.1109/FREQ.2004.1418465

Sheng-Shian Li, M. Demirci, Yu-Wei Lin, Z. Ren, C. Nguyen

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引用次数: 36

摘要

高阶微机械滤波器由3到4个机械耦合谐振器组成，并首次在非相邻谐振器之间使用“桥接”来影响损耗极，以获得更好的滤波器形状因子，已经使用多晶硅表面微加工技术进行了演示，插入损耗小于3db，比等效非桥接滤波器可以实现更清晰的通阻带滚降。阻带抑制约50 dB，比以前的双谐振器滤波器设计好15 dB。这项工作的滤波器由几个钳位箝位光束谐振器组成，其耦合方案比以前使用的更通用，其中非相邻谐振器和相邻谐振器耦合以产生损耗极，从而导致频率特性从通带到阻带的滚降更快，阻带抑制更大。通过这种桥接设计方法，仅使用3个谐振器即可实现以9 MHz为中心的滤波器的20 dB形状因子降至1.95。

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Bridged micromechanical filters

High-order micromechanical filters comprised of 3 to 4 mechanically coupled resonators, and employing for the first time "bridging" between nonadjacent resonators to affect loss poles for better filter shape factors, have been demonstrated using a polysilicon surface micromachining technology with insertion loss less than 3 dB, sharper passband-to-stopband roll-offs than achievable by equivalent non-bridged filters, and around 50 dB of stopband rejection - 15 dB better than a previous 2-resonator filter design. The filters of this work consist of several clamped-clamped beam resonators with a more general coupling scheme than previously used, where non-adjacent, as well as adjacent, resonators are coupled to generate loss poles, leading to frequency characteristics with faster roll-offs from passband to stopband and greater stopband rejections. Via this bridging design approach, 20 dB shape factors down to 1.95 have been achieved for filters centered at 9 MHz using only 3 resonators.

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Proceedings of the 2004 IEEE International Frequency Control Symposium and Exposition, 2004.

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