基于Mems的压电声传感器的设计与仿真

2019 IEEE 4th International Conference on Condition Assessment Techniques in Electrical Systems (CATCON) Pub Date : 2019-11-01 DOI:10.1109/CATCON47128.2019.CN0061

V. S, Deepika, Vasudha Hegde, Veda Sandeep Nagaraj, H. Suresh, G. A

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引用次数: 1

摘要

本文提出了一种基于MEMS的声学传感器，该传感器结合了高灵敏度、宽频率范围和低成本批量加工的小型化硅元件，可构建自供电系统。它还提出了一种有效的监测机器健康的方法，即使用压电Mems麦克风。所提出的声传感器由溅射压电ZnO层组成，该层将薄蚀刻硅薄膜的机械偏转转化为压电电荷。该氧化锌层夹在底部铝电极和顶部铝电极之间。对所提出的声传感器进行了两种设计的仿真:i)压电材料放置在硅衬底的四个角上，ii)压电材料放置在硅衬底的中心。层厚度的选择使其能够承受96-106db的动声压，最大产生8pV/Pa。采用Comsol multiphysics和Coventorware软件进行仿真。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Design and Simulation of Mems based Piezoelectric Acoustic sensor

A MEMS based acoustic sensor that combines high sensitivity, wide frequency range and low cost batch processed miniaturized silicon components to build self powered systems is presented in this paper. It also throws light on an effective method to monitor health of a machine which is by using an piezoelectric Mems microphone. The proposed Acoustic sensor consists of a sputtered piezoelectric ZnO layer that transforms the mechanical deflection of a thin-etched-Si diaphragm into a piezoelectric charge. This ZnO layer is sandwiched between bottom Al electrode and top Al electrode. The simulations of the proposed acoustic sensor is carried out for two designs i) The piezoelectric material being placed at the 4 corners of the silicon substrate and ii) The piezoelectric material being placed at centre of the silicon substrate. The thickness of the layers are chosen so as to withstand the dynamic sound pressure of 96-106db and it produces maximum of 8pV/Pa. The simulation is done by Comsol multiphysics and Coventorware.

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2019 IEEE 4th International Conference on Condition Assessment Techniques in Electrical Systems (CATCON)

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