Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction

Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction

Rectifier transformers are key components of high-frequency power supplies; their waveforms play an important role in diagnosing faults of high-frequency power supplies. Typically, the integral value of the current waveform is analyzed to diagnose rectifier transformer faults. However, the waveforms...

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Bibliographic Details
Main Authors: Yufang Liu, Bin Jiang, Hui Yi
Format: Article
Language:English
Published: SAGE Publishing 2017-07-01
Series:Advances in Mechanical Engineering
Online Access:https://doi.org/10.1177/1687814017707133
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spelling doaj-81333d85f5824282b0a0d854f583b8102020-11-25T03:36:32ZengSAGE PublishingAdvances in Mechanical Engineering1687-81402017-07-01910.1177/1687814017707133Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extractionYufang Liu0Bin Jiang1Hui Yi2Guodian Science and Technology Research Institute, Nanjing, ChinaJiangsu Key Laboratory of Internet of Things and Control Technologies, Nanjing University of Aeronautics and Astronautics, Nanjing, ChinaCollege of Electrical Engineering and Control Science, Nanjing Tech University, Nanjing, ChinaRectifier transformers are key components of high-frequency power supplies; their waveforms play an important role in diagnosing faults of high-frequency power supplies. Typically, the integral value of the current waveform is analyzed to diagnose rectifier transformer faults. However, the waveforms of currents are greatly influenced by the load, which results in serious fault-coupling problems. Generally, conventional methods cannot accurately locate faults, and they have high error rates. In this study, primary and secondary waveform currents were analyzed to extract fault feature data. The extracted data were used to train least-square support vector machines to build fault classifiers, thus realizing the fault detection and isolating the rectifier transformer. The proposed method was applied to actual waveform data from the Baosteel power plant; it performed satisfactorily.https://doi.org/10.1177/1687814017707133
collection DOAJ
language English
format Article
sources DOAJ
author Yufang Liu
Bin Jiang
Hui Yi
spellingShingle Yufang Liu
Bin Jiang
Hui Yi
Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
Advances in Mechanical Engineering
author_facet Yufang Liu
Bin Jiang
Hui Yi
author_sort Yufang Liu
title Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
title_short Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
title_full Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
title_fullStr Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
title_full_unstemmed Fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
title_sort fault diagnosis for rectifier transformers of high-frequency power supplies based on current waveform feature extraction
publisher SAGE Publishing
series Advances in Mechanical Engineering
issn 1687-8140
publishDate 2017-07-01
description Rectifier transformers are key components of high-frequency power supplies; their waveforms play an important role in diagnosing faults of high-frequency power supplies. Typically, the integral value of the current waveform is analyzed to diagnose rectifier transformer faults. However, the waveforms of currents are greatly influenced by the load, which results in serious fault-coupling problems. Generally, conventional methods cannot accurately locate faults, and they have high error rates. In this study, primary and secondary waveform currents were analyzed to extract fault feature data. The extracted data were used to train least-square support vector machines to build fault classifiers, thus realizing the fault detection and isolating the rectifier transformer. The proposed method was applied to actual waveform data from the Baosteel power plant; it performed satisfactorily.
url https://doi.org/10.1177/1687814017707133
work_keys_str_mv AT yufangliu faultdiagnosisforrectifiertransformersofhighfrequencypowersuppliesbasedoncurrentwaveformfeatureextraction
AT binjiang faultdiagnosisforrectifiertransformersofhighfrequencypowersuppliesbasedoncurrentwaveformfeatureextraction
AT huiyi faultdiagnosisforrectifiertransformersofhighfrequencypowersuppliesbasedoncurrentwaveformfeatureextraction
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