论文信息 - Design of a SOI MEMS resonant electric field sensor for power engineering applications

Design of a SOI MEMS resonant electric field sensor for power engineering applications

This paper presented a novel resonant electric field sensor (EFS) based on SOI fabrication process for power engineering applications. The sensor architecture has three major blocks: a vibration shutter, sensing electrodes, and a driving electrode that feeds back to the shutter. The EFS structure is designed to work at resonant frequency for maximum sensitivity to electric fields. Prototyped by the SOI fabrication process, the device gives quality factor (Q) of approximately 31034 at a vacuum degree of ∼1mTorr with lower actuation voltages (i.e., 250mV DC and 20mVp-p) than other reported electrostatic driven EFS. Tested in ambient air conditions, the device has an improved uncertainty of 1.09% in a measured range of 0–50kV/m DC electric field. A minimum detectable DC electric field with current sensor designs better than 50V/m is also achieved. In addition, the sensor can also be measured AC electric field.

Pengfei Yang | Chunrong Peng | Shanhong Xia | Xin Guo | Haiyan Zhang

[1] G. H. Vaillancourt,et al. New live line tester for porcelain suspension insulators on high-voltage power lines , 1994 .

[2] Xianxiang Chen,et al. A Novel High Performance Micromechanical Resonant Electrostatic Field Sensor Used In Atmospheric Electric Field Detection , 2006, 19th IEEE International Conference on Micro Electro Mechanical Systems.

[3] C. Shafai,et al. Analysis and Design of a Micromachined Electric-Field Sensor , 2008, Journal of Microelectromechanical Systems.

[4] K. L. Scott,et al. Electrostatic charge and field sensors based on micromechanical resonators , 2003 .

[5] S. Carignan,et al. Experience with the detection of faulty composite insulators on high-voltage power lines by the electric field measurement method , 1998 .

[6] C. Peng,et al. Thermally driven micro-electrostatic fieldmeter , 2006 .