微型振动电场传感器的设计与仿真

Chao Gong, S. Xia, Kai Deng, Q. Bai, Shaofeng Chen
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引用次数: 8

摘要

介绍了基于微机电系统(MEMS)技术的两种新型微型振动电场传感器的设计与优化。这两种新型传感器具有不同的结构和振动方式。该传感器的工作原理为电子电荷感应,其体积远远小于其他类型的电荷感应电子束,如场磨。在小型化的过程中,信号大大减少,需要一个高灵敏度的电路来检测信号。精心设计的电极可以增加输出电流的幅值,使检测电路简化,提高信噪比。为此,采用有限元法对不同结构参数和不同振动方式的激振系统进行了计算机仿真。实验证明,该传感器结构是可行的,信号是可测量的。
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Design and simulation of miniature vibrating electric field sensors
This paper presents the designs and optimizations of two kinds of novel miniature vibrating electric field sensors (EFS) based on microelectromechanical systems (MEMS) technology. The two kinds of new sensors have different structures and vibrating methods. The volume of the new sensors with operating principle of electron charge induction are much smaller than other types of charge-induced EFS such as field-mills. In miniaturizing, the signal is reduced enormously and a highly sensitive circuit is needed to detect the signal. Elaborately designed electrodes can increase the amplitude of the output current, making the detecting circuit simplified and improving the signal-to-noise ratio. Therefore, computer simulations for different structural parameters of the EFS and different vibrating methods have been carried out by the finite element method (FEM). It is proved that the new sensor structure can be implemented and the signal is measurable.
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