Separation of superimposed PRPD Patterns by Signal Clustering

B. Adam, S. Tenbohlen, M. Beltle
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Abstract

Partial discharges are one of the main reasons of insulation failure in transformers. Multiple partial discharge sources in HV equipment can be active at the same time. Diagnosis is complicated by superimposed or overlapping patterns in the PRPD patterns. In order to classify the fault source correctly, the patterns must be separated first. In this paper we propose a method to separate partial discharge signals from different sources by their impulse waveform. A feature-set is constructed by selecting relevant features from a pool of 700 identified possible features. Then, different sources are separated by clustering techniques. Centroid-based clustering methods like the k-means algorithm are compared to density-based approaches like DBSCAN. After clustering multiple PRPD patterns can be calculated – one for each source. This method is developed on artificial partial discharge data, measured in the laboratory. Four different typical defect types are considered. Through multiple case studies we show, that the separation process works on different kinds of PD problems. This method works for all kinds of PD faults. It is shown, that PD sources not present in the training data used for development can also be separated reliably.
基于信号聚类的PRPD叠加模式分离
局部放电是变压器绝缘失效的主要原因之一。高压设备中的多个局部放电源可以同时处于活动状态。诊断是复杂的重叠或重叠模式的PRPD模式。为了正确地对故障源进行分类,必须首先对模式进行分离。本文提出了一种根据脉冲波形分离不同源局部放电信号的方法。通过从700个确定的可能特征池中选择相关特征来构建特征集。然后,通过聚类技术分离不同的源。基于质心的聚类方法(如k-means算法)与基于密度的方法(如DBSCAN)进行比较。聚类后,可以计算多个PRPD模式-每个源一个。该方法是在实验室测量的人工局部放电数据基础上发展起来的。考虑了四种不同的典型缺陷类型。通过多个案例研究,我们表明,分离过程适用于不同类型的PD问题。该方法适用于各种PD故障。结果表明,用于开发的训练数据中不存在的PD源也可以可靠地分离。
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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