Acta Marisiensis.
Seria Technologica
ISSN 2668-4217
ISSN-L 2668-4217
(Online)
Română
| Home | Editorial board | Submit paper | Publication ethics | Contact | Indexing |
Year 2024
Volume 21 (XXXVIII), no 1
Year 2023
Volume 20 (XXXVII), no 1
Volume 20 (XXXVII), no 2
Year 2022
Volume 19 (XXXVI), no 1
Volume 19 (XXXVI), no 2
Year 2021
Volume 18 (XXXV), no 1
Volume 18 (XXXV), no 2
Year 2020
Volume 17 (XXXIV), no 1
Volume 17 (XXXIV), no 2
Year 2019
Volume 16 (XXXIII), no 1
Volume 16 (XXXIII), no 2
Year 2018
Volume 15 (XXXII), no 1
Volume 15 (XXXII), no 2
Year 2017
Volume 14 (XXXI), no 1
Volume 14 (XXXI), no 2
Year 2016
Volume 13 (XXX), no 1
Volume 13 (XXX), no 2
Year 2015
Volume 12 (XXIX), no 1
Volume 12 (XXIX), no 2
Year 2014
Volume 11 (XXVIII), no 1
Volume 11 (XXVIII), no 2
Year 2013
Volume 10 (XXVII), no 1
Volume 10 (XXVII), no 2
Year 2012
Volume 9 (XXVI), no 1
Volume 9 (XXVI), no 2
Year 2011
Volume 8 (XXV), no 1
Volume 8 (XXV), no 2
Year 2010
Volume 7 (XXIV), no 1
Volume 7 (XXIV), no 2
Year 2009
Volume 6 (XXIII)
Volume 21 (XXXVIII), no 1
Year 2023
Volume 20 (XXXVII), no 1
Volume 20 (XXXVII), no 2
Year 2022
Volume 19 (XXXVI), no 1
Volume 19 (XXXVI), no 2
Year 2021
Volume 18 (XXXV), no 1
Volume 18 (XXXV), no 2
Year 2020
Volume 17 (XXXIV), no 1
Volume 17 (XXXIV), no 2
Year 2019
Volume 16 (XXXIII), no 1
Volume 16 (XXXIII), no 2
Year 2018
Volume 15 (XXXII), no 1
Volume 15 (XXXII), no 2
Year 2017
Volume 14 (XXXI), no 1
Volume 14 (XXXI), no 2
Year 2016
Volume 13 (XXX), no 1
Volume 13 (XXX), no 2
Year 2015
Volume 12 (XXIX), no 1
Volume 12 (XXIX), no 2
Year 2014
Volume 11 (XXVIII), no 1
Volume 11 (XXVIII), no 2
Year 2013
Volume 10 (XXVII), no 1
Volume 10 (XXVII), no 2
Year 2012
Volume 9 (XXVI), no 1
Volume 9 (XXVI), no 2
Year 2011
Volume 8 (XXV), no 1
Volume 8 (XXV), no 2
Year 2010
Volume 7 (XXIV), no 1
Volume 7 (XXIV), no 2
Year 2009
Volume 6 (XXIII)
2020, Volume 17 (XXXIV), no 1
Studying and Simulating the Influence of the Rotor Fault on Stator Current
Katalin ÁGOSTON, University of Medicine, Pharmacy, Scienceand Technology”G.E.Palade” of Tîrgu Mures, Romania
Abstract:
This paper presents fault detection techniques, especially the motor current signature analysis (MCSA) which consists of the phase current measurement of the electrical motor’s stator and/or rotor. The motor current signature analysis consists in determining the frequency spectrum (FFT) of the stator current signal and evaluating the relative amplitude of the current harmonics. Sideband frequencies appear in the frequency spectrum of the current, corresponding to each fault. The broken bar is a frequent fault in induction motors with squirrel-cage rotor. It is presented the equivalent circuit for induction motors and the equivalence between the squirrel-cage rotor and the rotor windings. It is also presented an equivalent circuit model for induction motors with squirrel cage rotor, and based on this a Simulink model was developed. It is shown how a broken rotor bar influences the magnetic field around the rotor and through this the stator current. This modification is highlighted through the developed model.
DOI: https://doi.org/10.2478/amset-2020-0004
Pages: 17-21
View full article