Bipolar Electrostatic Driving of Isolated Micro-Resonator for Sensing High Voltage of Battery Output with Resolution

Int. J. Autom. Technol. Pub Date : 2022-07-05 DOI:10.20965/ijat.2022.p0464
N. Nobunaga, S. Kumagai, M. Sasaki
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Abstract

Electrostatic Si resonator was applied to sense the voltage at the facing electrode in a highly isolated approach. The resonant frequency shifts under the effect of the electrical field from the facing electrode connected to the high voltage (corresponding to the battery). Here, two resonators are fabricated. The electrical isolation was obtained by driving the resonators to be floated electrically. The charging of the resonator causes the fluctuation of the driving performance, degrading the sensing resolution. The driving voltage was set to be bipolar to avoid the fluctuation. This novel method stabilizes the resonant frequency realizing 0.25 V accuracy against 80 V. Feasibility for measuring the voltage up to 420 V is demonstrated.
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隔离微谐振器的双极静电驱动,用于高分辨率检测电池输出电压
采用静电硅谐振器,以高度隔离的方式感应端面电极的电压。谐振频率在电场的作用下从连接到高电压的面对电极(对应于电池)移动。在这里,制造了两个谐振器。电隔离是通过驱动谐振器的电漂浮来实现的。谐振腔的充电会引起驱动性能的波动,降低传感分辨率。驱动电压设置为双极,以避免波动。该方法稳定了谐振频率,在80v下实现了0.25 V的精度。证明了测量电压高达420 V的可行性。
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Int. J. Autom. Technol.
Int. J. Autom. Technol.
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