Non-Invasive Performance Investigation of Single-Phase Induction Motor under Rotor Fault and Mechanical Bearing Failure

Non-Invasive Performance Investigation of Single-Phase Induction Motor under Rotor Fault and Mechanical Bearing Failure

The performance of single-phase induction motor obeys the mathematical modeling and is predictable. The machine parameters and constants can be determined by experimentation methods. Even though various testing methods are available nowadays, the machine performance under faulty condition needs to b...

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Bibliographic Details
Published in:2023 International Conference on Intelligent Data Communication Technologies and Internet of Things (IDCIoT) pp. 707 - 710
Main Authors: Venkateswarlu, G., Hariharan, N., Ingale, Sanjaykumar M, Teli, S. N., Rajan Babu, W., Mohan Raj, C.
Format: Conference Proceeding
Language:English
Published: IEEE 05-01-2023
Subjects:
Harmonic analysis
Induction motors
Mechanical fault
Power quality
Rotor copper bars
Rotors
Single-Phase Induction Motor
Stator current monitoring
Stators
Total harmonic distortion
Vibrations
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Summary:The performance of single-phase induction motor obeys the mathematical modeling and is predictable. The machine parameters and constants can be determined by experimentation methods. Even though various testing methods are available nowadays, the machine performance under faulty condition needs to be studied to predict its dynamic behavior. The effects of rotor faults and mechanical failure are studied and analyzed in this paper. The impact of such faults on the stator side parameters are recorded by the power quality analyzer. The values of total harmonic distortion and total demand distortion are plotted up to the 40 th order of harmonics. Induction motor is tested under various rotor fault conditions and the performance is recorded.
DOI:10.1109/IDCIoT56793.2023.10053444