@article{Palácios_Nunes da Silva_Fontes Godoy_2023, title={Neural Classification of Rotor Faults in Three-Phase Induction Motors using Electric Current Signals in the Frequency Domain}, volume={30}, url={https://seer.ufrgs.br/index.php/rita/article/view/124564}, DOI={10.22456/2175-2745.124564}, abstractNote={<p>Three-phase induction motors are widely used in different applications in the industry due to their robustness, low cost, and reliability. Untimely identification and correct diagnosis of incipient faults reduce cost and improve the maintenance management of these machines. This paper explores a new method for robust classification of rotor failures in three-phase induction motors (MITs) connected directly to the electrical network, operating in a steady-state, under unbalanced voltages and load conditions. Through an innovative methodology, an analysis of the electrical current signals from 1 hp and 2 hp motors in the frequency domain was performed. Such analysis was applied in constructing input matrices for a Multilayer Perceptron Neural Network (MLPNN) to detect faults. Furthermore, this methodology proved to be robust because the samples of the failing and healthy motors include voltage unbalance conditions in the electrical supply and a significant variation in the load applied to the motor shaft. Such load variation was used for the detection of failures of 1, 2, and 4 broken bars consecutively on the rotor and in the condition of 2 broken bars and 2 other broken bars diametrically opposite. The results were promising and were obtained using 847 real samples from an experimental bench used to construct the neural model and its respective validation.</p>}, number={1}, journal={Revista de Informática Teórica e Aplicada}, author={Palácios, Rodrigo Henrique Cunha and Nunes da Silva, Ivan and Fontes Godoy, Wagner}, year={2023}, month={Jan.}, pages={24–31} }