4.7 Article

Study on Performance of Novel Optical Voltage Transformer Based on Current Measurement

出版社

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TIM.2022.3211542

关键词

Accuracy; capacitive voltage divider (CVD); fiber optical current transformer (FOCT); impulse response; optical voltage transformer (OVT)

资金

  1. Aeronautical Science Foundation of China [2019ZH069003]
  2. Science and Technology Project of China Southern Power Grid Company Ltd. [010800KK52220001]
  3. Nanjing Science and Technology Plan Project of China [202202025]

向作者/读者索取更多资源

Fiber optic current transformers (FOCT) have advantages such as immunity to interference and linear measurement, making them attractive in high electromagnetic field environments. This study proposes a fiber optic voltage measurement scheme (FOCT-OVT) based on FOCT and a capacitive voltage divider (CVD), using a multiturn coil sensing structure and closed-loop square-wave modulation and demodulation scheme. The prototype demonstrates accurate and reliable measurement of high voltage.
Compared with traditional current sensors, the inherent advantages of fiber optic current transformers (FOCT) in terms of passive, immunity to electromagnetic interference, free hysteresis, free saturation, etc., make them quite attractive in high electromagnetic field environments. As a result, a fiber optic voltage measurement scheme (FOCT-OVT) based on FOCT together with a capacitive voltage divider (CVD) is proposed, in which a novel multiturn coil sensing structure and closed-loop square-wave modulation and demodulation scheme based FOCT technology is used to measure the small capacitance current (I) flowing through the CVD to achieve the purpose of measuring high voltage (U). A 110-kV FOCT-OVT prototype was developed, whose basic performances such as accuracy, frequency response, and impulse response were analyzed according to GB/T20840.7-2007 specifications. According to the test results, I increases linearly with U and is about 100 mA under the rated voltage of 63.5 kV, which can be effectively measured by FOCT. The prototype with an 8000-turn coil is proven to have an accuracy of 0.2% metering class and 3P protection class, whose steady-state and transient performances meet the limit requirements specified in GB/T20840.7-2007.

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