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Robustification of fault detection algorithm in a three‐phase induction motor using MCSA for various single and multiple faults

K. Kompella, Naga Sreenivasu Rongala, Srinivasa Rao Rayapudi, Venu Gopala Rao Mannam

2021IET Electric Power Applications19 citationsDOIOpen Access PDF

Abstract

Abstract Fault diagnosis in induction machines, particularly at a premature stage, has become necessary to avoid unexpected interruption of the industrial process. Moreover, a reliable and cost‐effective fault detection process is highly essential to avoid inappropriate shut down of the machine. Thus, a critical comparison is done between two popular pre‐fault component cancellation techniques and a reliability test is performed to develop a robust algorithm for fault diagnosis in three‐phase induction motor. To achieve this, various single and multiple faults experienced by induction motor are created and tested to examine the effectiveness of developed algorithm. Evaluation of the proposed topology based on motor current signature analysis is done by repeating the process for several times and tested for consistency. As a part of this, various feature extraction parameters are computed and compared to identify the best estimate of fault and its seriousness. The proposed technique is examined in MATLAB and LabVIEW environment and experiments on a three‐phase, 1.5‐kW induction motor.

Topics & Concepts

RobustificationInduction motorFault detection and isolationSingle phaseAlgorithmControl theory (sociology)Fault (geology)Phase (matter)Computer scienceControl engineeringEngineeringArtificial intelligenceChemistryElectrical engineeringActuatorBiologyVoltagePaleontologyOutlierControl (management)Organic chemistryMachine Fault Diagnosis TechniquesFault Detection and Control SystemsEngineering Diagnostics and Reliability
Robustification of fault detection algorithm in a three‐phase induction motor using MCSA for various single and multiple faults | Litcius