Design and implementation of a non-contact magnetic field measurement based fault location system for overhead transmission line

2013 IEEE International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA) Pub Date : 2013-11-01 DOI:10.1109/ICSIMA.2013.6717920

Qi Huang, Ruoting Yao, Fuchao Li, W. Zhen

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引用次数: 2

Abstract

As the rapid development MEMS (micro-electromechanical systems) packaging technology and magnetoresistance material technology, MR (magnetoresistive) sensors based on magnetoresistance effect which can carry out point measurement of magnetic field may change the measurement techniques in power systems. The currently available fault location of overhead transmission line approaches are mainly based on traveling-wave technique and impedance-based measurement technique. The novel approach based on non-contact measurement of magnetic field is advantageous over traditional approaches in that it is independent of the distributed line parameters and has a location error smaller than one span. In this paper, after a brief reviewing of the whole system architecture, design of a sensor prototype and the associated monitoring software are presented, and tests are performed to verify the functionalities of the designed system. The sensor is developed based on a 3-D AMR (anisotropic magnetoresistance) sensor and the software supports GIS interface, making the fault location intuitively clear and convenient.

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基于非接触式磁场测量的架空输电线路故障定位系统的设计与实现

随着微机电系统封装技术和磁阻材料技术的迅速发展，基于磁阻效应的磁阻传感器能够实现磁场的点测量，可能会改变电力系统的测量技术。目前可用的架空输电线路故障定位方法主要是基于行波技术和基于阻抗的测量技术。该方法不受分布线路参数的影响，定位误差小于一个跨距，优于传统的非接触磁场测量方法。本文在简要回顾了整个系统架构后，设计了传感器原型和相关的监控软件，并进行了测试以验证所设计系统的功能。该传感器是在三维各向异性磁阻传感器的基础上开发的，软件支持GIS接口，故障定位直观、清晰、方便。

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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2013 IEEE International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA)

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