采用中心圆电极设计的PZT薄膜实现了高灵敏度和高信噪比传声器

2017 IEEE 30th International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 1900-01-01 DOI:10.1109/MEMSYS.2017.7863628

J.-L. Huang, Sung-Cheng Lo, J. Wang, C.-E. Lu, Shih-Hsiung Tseng, Min-Chian Wu, W. Fang

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引用次数: 8

摘要

本课题研究基于压电传感原理研制高信噪比MEMS传声器。设计的图像化PZT和电极实现在夹紧膜片之上，以在PZT和Si双晶片上产生高应力集中。所提出的中心环电极设计比边缘环电极设计(作为参考设计)能感应更多的电荷。所提出的设计还提供了一个平滑的应力分布在电极上，以容忍更多的工艺变化，如从双面对准偏移和边界变化由驱动侧切。测量结果表明，压电传声器的信噪比约为64dB(参考设计为53dB)。

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High sensitivity and high S/N microphone achieved by PZT film with central-circle electrode design

This study based on piezo-electric sensing principle to develop a high S/N ratio MEMS microphone. The patterned PZT and electrodes designed implemented above the clamped diaphragm to generate high stress concentration on PZT and Si bimorph diaphragm. The proposed central-circle electrode design can induce more charge than the edge-surrounded electrode design (served as the reference design). The proposed design also provides a smooth stress distribution across electrode to tolerate more process variation such as offset from double-side alignment and boundary change by DRIE undercut. The measured results demonstrate the S/N is about 64dB (reference design: 53dB) for the piezo-electric microphone.

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2017 IEEE 30th International Conference on Micro Electro Mechanical Systems (MEMS)

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