Non-intrusive DC voltage measurement based on resonant electric field microsensors

Based on the resonant electric field microsensors with coplanar electrodes, a novel non-intrusive measurement scheme of DC power-line voltage suitable for actual product is presented in this paper. Compared with using microsensors directly without some protection, employing the proposed scheme can avoid the influence of humidity and electromagnetic disturbance on non-contact voltage measurement. A theoretical model is developed to analyze the influence of the structural parameters of the proposed measurement scheme on its sensitivity and to predict the voltage response. Furthermore, the theoretical analysis reveals that the proposed scheme obtains the DC power-line voltage non-intrusively by measuring the voltage of a floating electrode. A prototype of the non-intrusive measurement apparatus of DC power-line voltage has been developed, calibrated, and tested. The prototype shows a favorable linear response characteristic with a linearity of 0.86%. And the experimental results are in good agreement with the theoretical results. The maximum relative deviation noticed is -2.16% over a range of voltages from -1000 V to 1000 V.

Automated summary

A novel non-intrusive measurement scheme of DC power-line voltage based on resonant electric field microsensors with coplanar electrodes is proposed in this paper, which can avoid the influence of humidity and electromagnetic disturbance. The prototype of the non-intrusive measurement apparatus shows a favorable linear response characteristic with a linearity of 0.86%, and the experimental results are in good agreement with the theoretical results, with a maximum relative deviation of -2.16% over a range of voltages from -1000 V to 1000 V.