The Adoption of Ferromagnetic Device for Signal Capturing of Radiometric Measurement Systems

2022 IEEE/PES Transmission and Distribution Conference and Exposition (T&D) Pub Date : 2022-04-25 DOI:10.1109/td43745.2022.9816878

Bernardo A. Cezarotto, Thar I. A. H. Mustafa, S. Cabral, H. Almaguer, L. Meyer, J. E. Cereja, Marcel V. T. Fischer, Clayton R. Dias

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引用次数: 1

Abstract

The key role played by the circuit-breaker in power systems combined with the increasing importance of the constancy in the power delivery has made non-invasive techniques fundamental for evaluating circuit-breaker status, namely its breaking capacity by including any minor likelihood of arc reignition, which has shown as being far from feasible through power system modelling and computer simulation, due to the inherent complexity of the adjacent power circuits to be correctly modelled. Alternatively, radiometric techniques have experienced an increasing interest which reasons range from the non-invasive principles to the programmability in its execution. On the other hand, much is to be done before such techniques may be widely adopted, especially for the difficulties in properly capturing the correct triggering signal. Based on this scenario, this work presents a brief review of this relatively recent technique and points out items to which researchers should drive their efforts to overcome the related barriers to overcome.

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采用铁磁装置进行辐射测量系统的信号捕获

断路器在电力系统中发挥的关键作用，加上电力输送中不断增加的稳定性的重要性，使得非侵入性技术成为评估断路器状态的基础，即通过包括任何微小的电弧重燃可能性来评估断路器的分断能力，由于需要正确建模的相邻电力电路的固有复杂性，通过电力系统建模和计算机仿真表明，这远远不可行。另外，辐射测量技术经历了越来越多的兴趣，其原因从非侵入性原则到其执行的可编程性。另一方面，在这些技术被广泛采用之前，还有很多工作要做，特别是在正确捕获正确触发信号方面的困难。基于这种情况，这项工作提出了这个相对较新的技术的简要回顾，并指出项目，研究人员应该推动他们的努力，以克服相关的障碍。

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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2022 IEEE/PES Transmission and Distribution Conference and Exposition (T&D)

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