THE DIAGNOSTICS OF INDUCTION MOTORS ROTOR BAR BREAKS BASED ON THE ANALYSIS OF ELECTROMOTIVE FORCE IN THE STATOR WINDINGS
DOI:
https://doi.org/10.20998/2074-272X.2014.6.05Keywords:
induction motor, broken rotor bars, disconnecting the motor from the network electromotive force, Z-transformationAbstract
A method for diagnostics of the induction motor rotor bar breaks, based on the wavelet-analysis of the electromotive force induced in the stator windings in the rundown mode is developed. A method for decomposition of the electromotive force of the stator winding phase to the electromotive force signals of the active sides of winding coils using Z-transformation theory is developed. The effectiveness of the proposed diagnostic method was experimentally confirmed.
References
Kotelenec N.F., Kuznecov N.L. Ispytanija i nadezhnost' elektricheskih mashin [Reliability and testing of electrical machines]. Moscow, Vyssh. shk. Publ., 1988. 232 p.
Yazidi A., Henao H., Capolino G-A. Broken rotor bars fault detection in squirrel cage induction machines. Int. Conf. "Electric machines and drives", IEEE, 2005, pp. 741-747.
Nemec M., Drobnič K., Nedeljković D., Fišer R., Ambrožič V. Detection of broken bars in induction motor through the analysis of supply voltage modulation. IEEE transactions on industrial electronics, 2010, no.8, pp. 2879-2888.
Imeryuz M., Mergen A.F., Ustun O. A method to analyze asynchronous machines with broken rotor bars. Int. Symposium on power electronics, electrical drives, automation and motion, 2010, pp. 269-272.
Cabanas F., Pedrayes Glez F., González Ruiz M., Melero M.G., Orcajo G.A., Cano J.M., Rojas C.H. A new on-line method for the early detection of broken rotor bars in asynchronous motors working under arbitrary load conditions. IEEE, 2005, pp. 662-669.
Douglas H., Pillay P., Ziarani A.K. Broken rotor bar detection in induction machines with transient operating speeds. IEEE transactions on energy conversion, 2005, no.1, pp. 135-141.
Drobnič K., Nemec M., Fišer R., Ambrožič V. Simplified detection of broken rotor bars in induction motors controlled in field reference frame. Control engineering practice, 2012, vol.20, pp. 761-769.
Faiz J., Ebrahimi B.M. A new pattern for detecting broken rotor bars in induction motors during start-up. IEEE transactions on magnetics, 2008, vol.44, no.12, pp. 4673-4683.
Neelam M., Ratna D. Rotor faults detection in induction motor by wavelet analysis. International journal of engineering science and technology, 2009, vol.1(3), pp. 90-99.
Vaimann T., Kallaste A. Detection of broken rotor bars in three-phase squirrel-cage induction motor using fast Fourier transform. 10th Int. symposium "Topical problems in the field of electrical and power engineering", Pärnu, Estonia, 2011, pp. 52-56.
Zagirnyak M., Mamchur D., Kalinov A. Comparison of induction motor diagnostic methods based on spectra analysis of current and instantaneous power signals. Przeglad Elektrotechniczny – Electrical Review, 2012, no.12b, pp. 221-224.
Petuhov V.S., Sokolov V.A. Diagnostics of the state motors. The method of spectral analysis of current consumption. Novosti elektrotehniki – Electrical engineering news, 2005, no.31, pp. 50-52.
Aküner C., Temiz I. Symmetrically broken rotor bars effect on the stator current of squirrel-cage induction motor. Przegląd Elektrotechniczny – Electrical Review, 2011, no.3, pp. 313-314.
Sivokobylenko V.F., Polkovnichenko D.V., Kukuj K.A. Diagnostics of engine motors from data of operating condition measuring. Visnyk NTU "KhPІ" – Bulletin of NTU "KhPІ", 2003, no.10, pp. 502-505.
Zagirnyak M., Romashihina Zh., Kalinov A. Diagnostic of broken rotor bars in induction motor on the basis of its magnetic field analysis. Acta Technica Jaurinensis, 2013, vol.6, no.1, pp. 115-125.
Uhan' Zh.I., Kalinov A.P. Classification of the methods of the rotor damages diagnostics of inductions motors. Visnyk KDU im. M. Ostrohradskoho – Transactions of Kremenchuk Mykhailo Ostrohradskyi National University, 2010, no.3(62), ch.2, pp. 138-144.
Ivanov-Smolenskij A.V. Elektricheskie mashiny [Electrical machines]. Moscow, MEI Publ., 2004. 656 p.
Zagirnyak M.V., Romashykhina Zh.I., Kalinov A.P. Diagnostic of broken rotor bars in induction motor on the basis of its magnetic field analysis. Visnyk NTU "KhPІ" – Bulletin of NTU "KhPІ", 2012, no.49(955), pp. 38-48.
Romashykhina Zh.I., Andrusenko O.M., Oksanych A.P., Petrenko V.R. Using of wavelet-analysis for diagnosiсs of the rotor bars damages of induction motors. Visnyk KrNU im. M. Ostrohradskoho – Transactions of Kremenchuk Mykhailo Ostrohradskyi National University, 2012, no.2(73), pp. 24-28.
Romashykhina Zh.I., Kalinov A.P., Lucenko I.A. The decomposition of signal of electromotive force of the stator windings for diagnostics of broken rotor bars of induction motors. Electromechanichni i energozberigayuchi systemy – Electromechanical and energy saving systems, 2013, no.4(22), pp. 27-36.
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Copyright (c) 2015 M. V. Zagirnyak, Zh. I. Romashykhina, A. P. Kalinov
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