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Testing and Analysis of Induction Motor Electrical Faults Using Current Signature Analysis 被引量:1
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作者 K. Prakasam S. Ramesh 《Circuits and Systems》 2016年第9期2651-2662,共13页
The proposed method deals with the emerging technique called as Motor Current Signature Analysis (MCSA) to diagnosis the stator faults of Induction Motors. The performance of the proposed method deals with the emergin... The proposed method deals with the emerging technique called as Motor Current Signature Analysis (MCSA) to diagnosis the stator faults of Induction Motors. The performance of the proposed method deals with the emerging technique called as Motor Current Signature Analysis (MCSA) and the Zero-Sequence Voltage Component (ZSVC) to diagnose the stator faults of Induction Motors. The unalleviated study of the robustness of the industrial appliances is obligatory to verdict the fault of the machines at precipitate stages and thwart the machine from brutal damage. For all kinds of industry, a machine failure escorts to a diminution in production and cost increases. The Motor Current Signature Analysis (MCSA) is referred as the most predominant way to diagnose the faults of electrical machines. Since the detailed analysis of the current spectrum, the method will portray the typical fault state. This paper aims to present dissimilar stator faults which are classified under electrical faults using MCSA and the comparison of simulation and hardware results. The magnitude of these fault harmonics analyzes in detail by means of Finite-Element Method (FEM). The anticipated method can effectively perceive the trivial changes too during the operation of the motor and it shows in the results. 展开更多
关键词 Three Phase Induction motor motor current Signature analysis (MCSA) ZSVC Fault Diagnosis current Spectrum analysis
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Industrial Fault Signals Propagation and Current Signature Analysis
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作者 Alireza Gheitasi Adnan AI-Anbuky 《Journal of Energy and Power Engineering》 2013年第2期361-369,共9页
Motor current signature analysis provides good results in laboratory environment. In real life situation, electrical machines usually share voltage and current from common terminals and would easily influence each oth... Motor current signature analysis provides good results in laboratory environment. In real life situation, electrical machines usually share voltage and current from common terminals and would easily influence each other. This will result in considerable amount of interferences among motors and doubt in identity of fault signals. Therefore, estimating the mutual influence of motors will help identifying the original signal from the environmental noise. This research aims at modelling the propagation of signals that are caused by faults of induction motors in power networks. Estimating the propagation pattern of fault signal leads to a method to discriminate and identify the original source of major events in industrial networks. Simulation results show that source of fault could be identified using this approach with a higher certainty than anticipated output coming of any individual diagnosis. 展开更多
关键词 motor current signature analysis signal interference decision making signal propagation.
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Influence of Induction Motor Design Data on Effects of Cage Asymmetry
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作者 Alejandro Fernandez Gomez Tadeusz J. Sobczyk 《Journal of Energy and Power Engineering》 2013年第8期1586-1591,共6页
The purpose of this paper is to analyze influence of design data on a component (1 - 2s)~ in stator currents of induction motors, mainly used for cage fault diagnosis. This paper shows that such an approach does not... The purpose of this paper is to analyze influence of design data on a component (1 - 2s)~ in stator currents of induction motors, mainly used for cage fault diagnosis. This paper shows that such an approach does not always lead to a correct outcome. The considerations are based on a "classical" model of induction motors extended to cage asymmetry by introducing cage asymmetry factors ko~ and ka. It has been found that in order to estimate the level of the component (1 - 2s)7~, it is enough to know the pole-pair number "p" and the number of rotor slots "N". The main objective of the paper is to provide engineers with simple qualitative prediction of effects due to cage faults for various motors when information on design data is very limited. 展开更多
关键词 Induction motor rotor cage asymmetry cage motor diagnosis motor current signature analysis.
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