面向微机电系统的cmos兼容摩擦发电机研究

2022 IEEE Sensors Pub Date : 2022-10-30 DOI:10.1109/SENSORS52175.2022.9967076

Mohammad Alzgool, M. Mousavi, B. Davaji, Shahrzad Towfighian

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摘要

本文介绍了一种采用微尺度摩擦发电机和静电MEMS开关的冲击探测器。首次利用MEMS技术实现了微尺度摩擦-电-纳米发电机的制造。与先前的工作相比，该制造技术使尺寸减小了85%。发生器的底层是铝聚酰亚胺，有一个间隙，顶层是铝和非晶硅(a- si)，发生器产生0.4 V脉冲作为脉冲激励的响应，产生的电压通过将其添加到直流电压来触发开关闭合，该直流电压足以使光束向下弯曲但不足以关闭它。MEMS摩擦发电机和MEMS静电致动器的组合是理想的，因为两者都是用CMOS技术制造的，可以集成在同一芯片上。所提出的系统能够创建事件驱动的微开关。

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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Toward CMOS-Compatible Triboelectric Generator to Operate MEMS

In this paper, a shock detector is introduced using a micro-scale triboelectric generator and an electrostatic MEMS switch. The fabrication of a micro-scale tribo-electric-nano generator is carried out using MEMS technology for the first time. The fabrication technique enabled reducing the size by 85% compared to a prior work. The generator has aluminum-polyimide on the bottom layer, a gap, and a top layer of Al and amorphous silicon (a-Si), The generator produces 0.4 $V$ pulses as a response to impulse excitation, the produced voltage is used to trigger switch closure by adding it to a DC voltage that is enough to bend the beam down but not enough to close it. The combination of MEMS-triboelectric generator and MEMS electrostatic actuators is ideal because both are fabricated with CMOS technology and can be integrated on the same chip. The proposed system enables creating event-powered micro-switches.

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2022 IEEE Sensors

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