Power frequency magnetic field interference suppression method for online frequency response analysis of power transformers

Yangchun Cheng, Xiangdong Liu, Yufei Sha, Wenzhi Chang, Jiangang Bi
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Abstract

Frequency response analysis is widely used for the offline diagnosis of winding deformations in power transformers. To apply this approach to a working transformer, the magnitude of the response current needs to be measured by using Rogowski coil sensors across a load current. The saturation of the power frequency magnetic field in these current sensors must be prevented to ensure accurate measurement of such small response currents. Here, a method is presented to suppress the power frequency magnetic field using a sensing system including a special connection of three‐phase current sensors based on the sum of the three‐phase power frequency load currents of the transformer being close to zero. Each sensor comprises two secondary coils: a measuring coil and an anti‐saturation coil. The anti‐saturation coils are connected in parallel with one another through small inductors to eliminate the power frequency magnetic field in the cores of the sensors. Theoretical analysis is used to derive a solution for this system. The experimental results verify the proposed method as enabling the sensors to function with a transformer carrying a load current of 2333 A.
用于电力变压器在线频率响应分析的工频磁场干扰抑制方法
频率响应分析被广泛用于电力变压器绕组变形的离线诊断。要将这种方法应用于工作中的变压器,需要使用罗戈夫斯基线圈传感器跨负载电流测量响应电流的大小。必须防止这些电流传感器中的工频磁场饱和,以确保准确测量如此小的响应电流。本文介绍了一种抑制工频磁场的方法,该方法使用的传感系统包括一个特殊连接的三相电流传感器,其基础是变压器的三相工频负载电流之和接近于零。每个传感器包括两个次级线圈:一个测量线圈和一个抗饱和线圈。抗饱和线圈通过小型电感器相互并联,以消除传感器铁芯中的工频磁场。理论分析用于推导该系统的解决方案。实验结果验证了所提出的方法能够使传感器在负载电流为 2333 A 的变压器上正常工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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