Design and simulation of a MEMS based dual axis capacitive accelerometer

2015 Moratuwa Engineering Research Conference (MERCon) Pub Date : 2015-04-07 DOI:10.1109/MERCON.2015.7112344

V. Jayanetti, W. Jayathilaka, K. I. Talawatta, Y. Amarasinghe

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引用次数: 6

Abstract

Micro Electro Mechanical Systems (MEMS) based multi axis accelerometers are embedded in many modern technological applications. These sensors are widely used in smart electronics, bio-medical uses, automobiles and aeronautics. The work followed herewith is focused on designing of a 2 degree of freedom (D.O.F) MEMS based capacitive accelerometer which can be used with such vibration detection modules. The 2mm × 2mm × 100μm sensor has a working range of up to ±16g and a failure limit of 20g The movement of a proof mass which is 74.5% of the sensor area is used to generate amplified voltage signals based on the theory of capacitance using a series of capacitive comb elements mounted on the perimeter of the sensor. Process simplification is achieved with the use of a single Silicon-on-Insulation (SOI) wafer and minimum masking material. The paper contains details on structural and motion analysis performed on the design and also contains techniques which can be used for the fabrication of the sensor and electrical contacts needed for the successful implementation of the sensor into electrical circuitry.

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基于MEMS的双轴电容式加速度计的设计与仿真

基于微机电系统(MEMS)的多轴加速度计被嵌入到许多现代技术应用中。这些传感器广泛应用于智能电子、生物医学、汽车和航空领域。接下来的工作重点是设计一个2自由度(D.O.F)基于MEMS的电容式加速度计，该加速度计可以与这种振动检测模块一起使用。2mm × 2mm × 100μm传感器的工作范围可达±16g，失效极限为20g。基于电容原理，利用安装在传感器周长上的一系列电容式梳子元件，移动占传感器面积74.5%的验证块，产生放大的电压信号。通过使用单个绝缘层上硅(SOI)晶圆和最小掩蔽材料，实现了工艺简化。本文包含对设计进行的结构和运动分析的详细信息，还包含可用于制造传感器和将传感器成功实现到电路中所需的电触点的技术。

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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2015 Moratuwa Engineering Research Conference (MERCon)

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