Abstract
Abstract
The capacitive voltage transformer is an important data source for electricity trading and is easily influenced by environmental factors during operation, resulting in decreased metering accuracy. Because the voltage data does not satisfy the Gaussian distribution, the accuracy of the traditional principal component analysis method is poor when evaluating the error of capacitive voltage transformers. This paper proposes an improved principal component analysis method based on the local outlier factor. First, principal component analysis is utilized to separate the primary voltage fluctuation and error change. Then, a new statistic is established by using the local outlier factor instead of the traditional statistic as an evaluation standard, which reduces the missed diagnosis and misdiagnosis caused by the data distribution characteristics. The experimental results show that the improved method is better than the traditional method in terms of the detection rate of transformer anomaly detection, can effectively detect the abnormal change of transformer error and is more suitable for capacitive voltage transformers in operation.
Subject
Computer Science Applications,History,Education
Reference10 articles.
1. Research on technologies of intelligent equipment in Smart Substation;Li,2012
2. Impact of inductive current transformers on synchrophasor measurement in presence of modulations;D’Avanzo;Measurement,2020
3. Research on the reliability of capacitor voltage transformers calibration results;Meng;Measurement,2019
4. A Simple Method for the Calibration of Traditional and Electronic Measurement Current and Voltage Transformers;Brandolini;IEEE Transactions on Instrumentation and Measurement,2009
5. Research into an Online Calibration System for the Errors of Voltage Transformers Based on Open-Closed Capacitor;Li;Energies,2018