Polarimetric Optical High-Voltage Sensor Using Synthetic-Heterodyne Demodulation and Hilbert Transform With Gain Control Feedback

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Data

2017-03-01

Autores

Galeti, Jose Henrique [UNESP]
Higuti, Ricardo Tokio [UNESP]
Kitano, Claudio [UNESP]
Connelly, Michael J.

Título da Revista

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Editor

Ieee-inst Electrical Electronics Engineers Inc

Resumo

Optical voltage sensors are widely used for high-voltage (HV) sensing, but the measurement accuracy is often compromised by a sensitivity drift due to variations in the ambient conditions. Synthetic-heterodyne demodulation is a useful technique for dynamic displacement measurements using interferometric sensors as it can provide a detected signal that is immune to an interferometric drift. In this paper, a new synthetic-heterodyne technique, employing the Hilbert transform and gain control feedback, is applied to a polarimetric-based optical sensor system and used to measure an HV signal. The system comprises an He-Ne laser source, optical phase modulator, and HV sensor located between two polarizers followed by a photodetector and real-time electrical signal acquisition and processing. The use of a control loop results in significant improvements in the stability and accuracy of the detected HV signal. The sensor system was used to measure a 60-Hz HV signal with an amplitude range of 300 V to 7.5 kV. The sensor was also used to successfully measure the total power line harmonic distortion of a highly distorted 4 kV signal. The experimental results show very good agreement with measurements obtained by using the industry standard signal coincidence method.

Descrição

Palavras-chave

High-voltage sensor, instrumentation, measurement, interferometry, metrology, phase measurement

Como citar

Ieee Journal Of Selected Topics In Quantum Electronics. Piscataway: Ieee-inst Electrical Electronics Engineers Inc, v. 23, n. 2, 7 p., 2017.