基于电弧过程不对称导致的不可避免的直流分量的串联电弧故障检测方法

IF 5.6 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Instrumentation and Measurement Pub Date : 2024-10-23 DOI:10.1109/TIM.2024.3485401

Kai Zhou;Yang Jiao;Qing Chen;Hongbin Li;Tong Wu;Zemin Qu

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引用次数: 0

摘要

由于低压系统中的负载种类繁多，基于电流特征参数的检测往往会混淆复杂负载的串联电弧故障（SAF）。针对这一问题，我们提出了一种基于不可避免的直流分量的 SAF 检测方法。首先，对电弧电流不对称性（EACA）进行了全面分析和观测，以证明在 SAF 期间不可避免地会诱发直流分量。然后，收集了一个与直流相关的主导指数和几个与不对称相关的补充指数，形成了一个通用性很强的特征集。之后，在单周期状态评估和多周期故障判断的基础上开发了一种特定方案来减少误检测，其中采用了极端梯度提升（XGBoost）算法作为分类器。随后，实验验证了所提方法的有效性。最后，利用监测到的样本构建超通用测试集，并进行模拟以证明其通用性的优越性。

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A Detection Method for a Series Arc Fault Based on the Inevitable DC Component Due to the Arcing Process’s Asymmetry

Due to the great diversity of loads in low-voltage systems, the detection based on characteristic parameters of the current often confuses series arc faults (SAFs) with complex loads. To address this issue, an SAF detection method is proposed based on the inevitable dc component. First, comprehensive analyses, as well as observations, are made on the electrode-arcing-current asymmetry (EACA) to demonstrate that an inevitable dc component is inevitably induced during an SAF. Then, a dc-related dominated index and several asymmetry-related supplemental indices are gathered to form a feature set with strong generality. Afterward, a specific scheme is developed based on the uni-period state evaluation and the multiperiod fault judgment to reduce the false detection, where the eXtreme gradient boosting (XGBoost) algorithm is employed as a classifier. After that, experiments are made to verify the proposed method’s validity. Finally, with monitored samples used to construct an ultrageneral testing set, simulations are conducted to prove its superiority in generality.

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来源期刊

IEEE Transactions on Instrumentation and Measurement 工程技术-工程：电子与电气

CiteScore

9.00

自引率

23.20%

发文量

1294

审稿时长

3.9 months

期刊介绍： Papers are sought that address innovative solutions to the development and use of electrical and electronic instruments and equipment to measure, monitor and/or record physical phenomena for the purpose of advancing measurement science, methods, functionality and applications. The scope of these papers may encompass: (1) theory, methodology, and practice of measurement; (2) design, development and evaluation of instrumentation and measurement systems and components used in generating, acquiring, conditioning and processing signals; (3) analysis, representation, display, and preservation of the information obtained from a set of measurements; and (4) scientific and technical support to establishment and maintenance of technical standards in the field of Instrumentation and Measurement.