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- Title
Influence of Temperature on Brushless Synchronous Machine Field Winding Interturn Fault Severity Estimation.
- Authors
Pascual, Rubén; Rivero, Eduardo; Guerrero, José M.; Mahtani, Kumar; Platero, Carlos A.
- Abstract
There are numerous methods for detecting interturn faults (ITFs) in the field winding of synchronous machines (SMs). One effective approach is based on comparing theoretical and measured excitation currents. This method is unaffected by rotor temperature in static excitation SMs. However, this paper investigates the influence of rotor temperature in brushless synchronous machines (BSMs), where rotor temperature significantly impacts the exciter excitation current. Extensive experimental tests were conducted on a special BSM with measurable rotor temperature. Given the challenges of measuring rotor temperature in industrial machines, this paper explores the feasibility of using stator temperature in the exciter field current estimation model. The theoretical exciter field current is calculated using a deep neural network (DNN), which incorporates electrical brushless synchronous generator output values and stator temperature, and it is subsequently compared with the measured exciter field current. This method achieves an error rate below 0.5% under healthy conditions, demonstrating its potential for simple implementation in industrial BSMs for ITF detection.
- Subjects
ARTIFICIAL neural networks; DEEP learning; SYNCHRONOUS generators; ERROR rates; WINDING machines; STATORS
- Publication
Applied Sciences (2076-3417), 2024, Vol 14, Issue 17, p8061
- ISSN
2076-3417
- Publication type
Article
- DOI
10.3390/app14178061