Instantaneous Frequency of the Left Sideband Harmonic During the Start-Up Transient: A New Method for Diagnosis of Broken Bars

In this paper, a new method for detecting the presence of broken rotor bars is presented. The proposed approach is valid for induction machines started at constant frequency and consists of extracting the instantaneous frequency (IF) of the left sideband harmonic (LSH) from the start-up current (LSH...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2009-11, Vol.56 (11), p.4557-4570
Hauptverfasser:	Pineda-Sanchez, M., Riera-Guasp, M., Antonino-Daviu, J.A., Roger-Folch, J., Perez-Cruz, J., Puche-Panadero, R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Bars Evolution Failure analysis Fault detection Fault diagnosis Faults Frequency estimation Harmonics Hilbert transform (HT) Indicators Induction machines Induction motors Intermediate frequency Motors Performance analysis Sidebands Testing time-frequency analysis Wavelet analysis wavelet transform (WT) Wavelet transforms
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container_title	IEEE transactions on industrial electronics (1982)
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creator	Pineda-Sanchez, M. Riera-Guasp, M. Antonino-Daviu, J.A. Roger-Folch, J. Perez-Cruz, J. Puche-Panadero, R.
description	In this paper, a new method for detecting the presence of broken rotor bars is presented. The proposed approach is valid for induction machines started at constant frequency and consists of extracting the instantaneous frequency (IF) of the left sideband harmonic (LSH) from the start-up current (LSHst), via the Hilbert transform. It is shown that, in the case of machines with one or several broken bars, the IF of the LSHst exhibits a very characteristic and easy to identify pattern, which is physically justified. This paper also shows that, if the IF of the LSHst is represented against the slip, a universal fault indicator (nondependent neither on the machine characteristics nor on the starting conditions) can be defined. This fault indicator consists of the correlation between the experimental IF of the LSHst and its theoretical evolution. This approach is theoretically introduced and experimentally validated by testing a commercial motor in faulty and healthy conditions, under different operating conditions.
doi_str_mv	10.1109/TIE.2009.2026211
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The proposed approach is valid for induction machines started at constant frequency and consists of extracting the instantaneous frequency (IF) of the left sideband harmonic (LSH) from the start-up current (LSHst), via the Hilbert transform. It is shown that, in the case of machines with one or several broken bars, the IF of the LSHst exhibits a very characteristic and easy to identify pattern, which is physically justified. This paper also shows that, if the IF of the LSHst is represented against the slip, a universal fault indicator (nondependent neither on the machine characteristics nor on the starting conditions) can be defined. This fault indicator consists of the correlation between the experimental IF of the LSHst and its theoretical evolution. 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The proposed approach is valid for induction machines started at constant frequency and consists of extracting the instantaneous frequency (IF) of the left sideband harmonic (LSH) from the start-up current (LSHst), via the Hilbert transform. It is shown that, in the case of machines with one or several broken bars, the IF of the LSHst exhibits a very characteristic and easy to identify pattern, which is physically justified. This paper also shows that, if the IF of the LSHst is represented against the slip, a universal fault indicator (nondependent neither on the machine characteristics nor on the starting conditions) can be defined. This fault indicator consists of the correlation between the experimental IF of the LSHst and its theoretical evolution. 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The proposed approach is valid for induction machines started at constant frequency and consists of extracting the instantaneous frequency (IF) of the left sideband harmonic (LSH) from the start-up current (LSHst), via the Hilbert transform. It is shown that, in the case of machines with one or several broken bars, the IF of the LSHst exhibits a very characteristic and easy to identify pattern, which is physically justified. This paper also shows that, if the IF of the LSHst is represented against the slip, a universal fault indicator (nondependent neither on the machine characteristics nor on the starting conditions) can be defined. This fault indicator consists of the correlation between the experimental IF of the LSHst and its theoretical evolution. This approach is theoretically introduced and experimentally validated by testing a commercial motor in faulty and healthy conditions, under different operating conditions.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TIE.2009.2026211</doi><tpages>14</tpages></addata></record>
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subjects	Bars Evolution Failure analysis Fault detection Fault diagnosis Faults Frequency estimation Harmonics Hilbert transform (HT) Indicators Induction machines Induction motors Intermediate frequency Motors Performance analysis Sidebands Testing time-frequency analysis Wavelet analysis wavelet transform (WT) Wavelet transforms
title	Instantaneous Frequency of the Left Sideband Harmonic During the Start-Up Transient: A New Method for Diagnosis of Broken Bars
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