Micro Piezoelectric-capacitive Sensors for Highsensitivity Measurement of Space Electric Fields

Zhifei Han, F. Xue, Junqing Yang, Jun Hu, Jinliang He
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引用次数: 5

Abstract

High-sensitivity and miniaturized measurement of electric fields is important for applications in power grid such as lightning waveform capturing and electrical equipment monitoring. In addition, the demand of wide-area information measurement in smart grid also necessitates the development of miniaturized and noncontact sensors. So far, there have already been a variety of electric-field sensing devices. However, these approaches meet the challenges of large size and low sensitivity. To solve the problem, this paper proposed a new electric-field sensor based on piezoelectric effect. The piezoelectric effect enables the conversion of electric fields into piezoelectric material deformations and then the air-gap capacitances in the device. The results indicate that the electric-field micro sensor can reach a high sensitivity of 30 V/m. The side length of the sensor chip can be as small as a few millimeters. Owing to the feasibility in mass production of the proposed sensor, it can potentially be extended to the industrial applications in power grid.
用于空间电场高灵敏度测量的微压电-电容传感器
电场的高灵敏度和小型化测量对于雷电波形捕获和电气设备监测等电网应用具有重要意义。此外,智能电网对广域信息测量的需求也要求传感器的小型化和非接触式的发展。到目前为止,已经出现了各种各样的电场传感装置。然而,这些方法都面临着尺寸大、灵敏度低的挑战。为了解决这一问题,本文提出了一种基于压电效应的新型电场传感器。压电效应使电场转化为压电材料变形,进而转化为器件中的气隙电容。结果表明,该电场微传感器可达到30 V/m的高灵敏度。传感器芯片的边长可以小到几毫米。由于该传感器具有量产的可行性,因此有可能扩展到电网的工业应用。
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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