Capacitive pressure sensors based on MEMS, operating in harsh environments

Y. Hezarjaribi, M. Hamidon, S. Keshmiri, A. Bahadorimehr
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引用次数: 28

Abstract

Poly-crystalline silicon carbide (polysic) Micro-electromechanical systems (MEMS) capacitive pressure sensors operating at harsh environments (e.g. high temperature) are proposed because of SiC owing excellent electrical stability, mechanical robustness, and chemical inertness properties. The principle of this paper is, design, simulation. The application of SiC pressure sensors are in a harsh environments such as automotive industries, aerospace, oil/logging equipments, nuclear station, power station. The sensor demonstrated a high temperature sensing capability up to 400degC, the device achieves a linear characteristic response and consists of a circular clamped-edges poly-sic diaphragm suspended over sealed cavity on a silicon carbide substrate. The sensor is operating in touch mode capacitive pressure sensor, The advantages of a touch mode are the robust structure that make the sensor to withstand harsh environment, near linear output, and large over-range protection, operating in wide range of pressure, higher sensitivity than the near linear operation in normal mode, so in this case some of stray capacitance effects can be neglected.
基于MEMS的电容式压力传感器,可在恶劣环境下工作
多晶碳化硅(polysic)微机电系统(MEMS)电容式压力传感器可在恶劣环境(如高温)下工作,因为SiC具有优异的电气稳定性、机械鲁棒性和化学惰性。本文的工作原理是:设计、仿真。SiC压力传感器的应用是在恶劣的环境中,如汽车工业、航空航天、石油/测井设备、核电站、电站等。该传感器具有高达400摄氏度的高温传感能力,该器件实现线性特性响应,由一个圆形夹边聚硅膜片组成,该膜片悬挂在碳化硅衬底上的密封腔上。该传感器是工作在触摸模式下的电容式压力传感器,触摸模式的优点是坚固的结构使传感器能够承受恶劣的环境,近线性输出,并有较大的超量程保护,工作在宽的压力范围内,灵敏度高于正常模式下的近线性工作,因此在这种情况下,一些杂散电容的影响可以忽略不计。
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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