138千伏和345千伏宽带SF/sub - 6/自由光学电压传感器

2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.02CH37309) Pub Date : 2002-08-07 DOI:10.1109/PESW.2002.985268

F. Rahmatian, P. Chavez, Nicolas A. F. Jaeger

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引用次数: 16

摘要

本文介绍了用于高压电力传输系统中计量和保护继电器的新型、环保的138 kV和345 kV光电压传感器(ovt)的设计和测试。每个OVT使用三个微型光学电场传感器，安装在一个电阻屏蔽内。电场传感器的位置、电阻屏蔽的电学参数和几何参数以及从电场测量中推导电压的公式都是用正交法选择的，以实现非常精确的电压测量。电阻屏蔽层依次被安置在一个中空的复合绝缘体中，里面充满了低压干氮。常规精度和耐介质测试表明，ovt满足IEC 60044-7 0.2和IEEE/ANSI C57.13 0.3精度等级标准和绝缘要求。进一步的测试证明了它们的宽带宽(>40 kHz)，并表明它们成功地抑制了最严重的电场干扰对电压测量的影响。

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138 kV and 345 kV wide-band SF/sub 6/-free optical voltage transducers

This paper describes the design and testing of novel, environmentally friendly, 138 kV and 345 kV optical voltage transducers (OVTs) for metering and protection relaying applications in high-voltage electric power transmission systems. Each OVT uses three miniature optical electric field sensors housed inside a resistive shield. The locations of the electric field sensors, the electrical and geometrical parameters of the resistive shield, and the formula for deriving voltage from the electric field measurements are all chosen using the quadrature method to achieve very accurate voltage measurements. The resistive shield is, in turn, housed inside a hollow composite insulator filled with low-pressure dry nitrogen. Conventional accuracy and dielectric withstand tests demonstrate that the OVTs meet IEC 60044-7 0.2 and IEEE/ANSI C57.13 0.3 accuracy class standards and insulation requirements. Further tests demonstrate their wide bandwidth (>40 kHz) and show that they successfully reject the effects of the severest possible electric field disturbances on the voltage measurement.

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2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.02CH37309)

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