Diagnostics of Stator Winding Faults in a Three-Phase Asynchronous Motor Using Park’s Vector Analysis
Keywords:
induction motor, stator winding interturn fault, Park vector, Lissajous curves
Abstract
The study addresses the problem of detecting a short circuit fault in the three-phase induction motor winding by monitoring the stator current Park vector (Lissajous curves). Park's vector model is implemented using the Matlab software package. The experimental part of the study was carried out on an 11 kW three-phase induction motor. The Lissajous curves obtained for a healthy motor and a motor with short-circuited turns under various load conditions were compared with each other. The obtained results have demonstrated the effectiveness of the proposed method for detecting interturn short circuit faults in the three-phase stator windings of induction motors.
References
1. Кузнецов Н.Л. Надежность электрических машин. М.: Издат. дом МЭИ, 2006.
2. Sottile J. e. a. An On-line Method to Detect Incipient Failure of Turns Insulation in Random-wound Motors // IEEE Trans. Energy Conversion. 1993. V. 8. No 4. Pp. 762—768.
3. Сидельников Л.Г., Афанасьев Д.О. Контроль технического состояния асинхронных двигателей в процессе эксплуатации // Вестник Пермского национального исследовательского политехн. ун-та. 2013. Т. 12. № 7. С. 127—137.
4. Bonnet А.H., Soukup G.C. Cause and Analysis of Stator and Rotor Failures in Three-phase Squirrel Case Induction Motors // IEEE Trans. Industry Appl. 1992. V. 28. No. 4. Pp. 921—937.
5. Lipo T.A. Introduction of AC Machine Design. Madison: Wisconsin Power Electronics Research Center, 2004.
6. Roux W.L. e. a. Detecting Rotor Faults in Permanent Magnet Synchronous Machines // Proc. Diagnostics for Electric Machines, Power Electronics and Drives Conf. Atlanta, 2003. Pp. 198—203.
7. Trigeassou J.-C. Electrical Machines Diagnosis. N.-Y.: Wiley, 2013.
8. ГОСТ ISO 20958—2015. Контроль состояния и диагностика машин. Сигнатурный анализ электрических сигналов трехфазного асинхронного двигателя.
9. Копылов И.П. Математическое моделирование электрических машин. М.: Высшая школа, 2001.
10. Díaz D., Amaya M.C., Paz A. Inter-turn Short-circuit Analysis in an Induction Machine by Finite Elements Method and Field Tests // Proc. XX Intern. Conf. Electrical Machines. Marseille, 2012. Pp. 1757—1763.
11. Deeb M., Kotelenets N.F. Fault Diagnosis of 3-phase Induction Machine Using Harmonic Content of Stator Current Spectrum // Proc. Intern. Youth Conf. on Radio Electronics, Electrical and Power Eng. Moscow, 2020. Pp. 1—6.
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Для цитирования: Диб Мухаммад, Ибрагим Гассан, Ассаф Талал. Диагностика неисправностей обмотки статора трехфазного асинхронного двигателя с помощью векторного анализа Парка // Вестник МЭИ. 2021. № 5. С. 69—74. DOI: 10.24160/1993-6982-2021-5-69-74.
#
1. Kuznetsov N.L. Nadezhnost' Elektricheskikh Mashin. M.: Izdat. Dom MEI, 2006. (in Russian).
2. Sottile J. e. a. An On-line Method to Detect Incipient Failure of Turns Insulation in Random-wound Motors. IEEE Trans. Energy Conversion. 1993;8;4:762—768.
3. Sidel'nikov L.G., Afanas'ev D.O. Kontrol' Tekhnicheskogo Sostoyaniya Asinkhronnykh Dvigateley v Protsesse Ekspluatatsii. Vestnik Permskogo natsional'nogo Issledovatel'skogo Politekhn. Un-ta. 2013;12;7:127—137. (in Russian).
4. Bonnet А.H., Soukup G.C. Cause and Analysis of Stator and Rotor Failures in Three-phase Squirrel Case Induction Motors. IEEE Trans. Industry Appl. 1992;28;4:921—937.
5. Lipo T.A. Introduction of AC Machine Design. Madison: Wisconsin Power Electronics Research Center, 2004.
6. Roux W.L. e. a. Detecting Rotor Faults in Permanent Magnet Synchronous Machines. Proc. Diagnostics for Electric Machines, Power Electronics and Drives Conf. Atlanta, 2003:198—203.
7. Trigeassou J.-C. Electrical Machines Diagnosis. N.-Y.: Wiley, 2013.
8. GOST ISO 20958—2015. Kontrol' Sostoyaniya i Diagnostika Mashin. Signaturnyy Analiz Elektricheskikh Signalov Trekhfaznogo Asinkhronnogo Dvigatelya. (in Russian).
9. Kopylov I.P. Matematicheskoe Modelirovanie Elektricheskikh Mashin. M.: Vysshaya Shkola, 2001. (in Russian).
10. Díaz D., Amaya M.C., Paz A. Inter-turn Short-circuit Analysis in an Induction Machine by Finite Elements Method and Field Tests. Proc. XX Intern. Conf. Electrical Machines. Marseille, 2012:1757—1763.
11. Deeb M., Kotelenets N.F. Fault Diagnosis of 3-phase Induction Machine Using Harmonic Content of Stator Current Spectrum. Proc. Intern. Youth Conf. on Radio Electronics, Electrical and Power Eng. Moscow, 2020:1—6.
---
For citation: Deeb Muhammad, Ibragim Gassan, Assaf Talal. Diagnostics of Stator Winding Faults in a Three-Phase Asynchronous Motor Using Park’s Vector Analysis. Bulletin of MPEI. 2021;5:69—74. (in Russian). DOI: 10.24160/1993-6982-2021-5-69-74.
2. Sottile J. e. a. An On-line Method to Detect Incipient Failure of Turns Insulation in Random-wound Motors // IEEE Trans. Energy Conversion. 1993. V. 8. No 4. Pp. 762—768.
3. Сидельников Л.Г., Афанасьев Д.О. Контроль технического состояния асинхронных двигателей в процессе эксплуатации // Вестник Пермского национального исследовательского политехн. ун-та. 2013. Т. 12. № 7. С. 127—137.
4. Bonnet А.H., Soukup G.C. Cause and Analysis of Stator and Rotor Failures in Three-phase Squirrel Case Induction Motors // IEEE Trans. Industry Appl. 1992. V. 28. No. 4. Pp. 921—937.
5. Lipo T.A. Introduction of AC Machine Design. Madison: Wisconsin Power Electronics Research Center, 2004.
6. Roux W.L. e. a. Detecting Rotor Faults in Permanent Magnet Synchronous Machines // Proc. Diagnostics for Electric Machines, Power Electronics and Drives Conf. Atlanta, 2003. Pp. 198—203.
7. Trigeassou J.-C. Electrical Machines Diagnosis. N.-Y.: Wiley, 2013.
8. ГОСТ ISO 20958—2015. Контроль состояния и диагностика машин. Сигнатурный анализ электрических сигналов трехфазного асинхронного двигателя.
9. Копылов И.П. Математическое моделирование электрических машин. М.: Высшая школа, 2001.
10. Díaz D., Amaya M.C., Paz A. Inter-turn Short-circuit Analysis in an Induction Machine by Finite Elements Method and Field Tests // Proc. XX Intern. Conf. Electrical Machines. Marseille, 2012. Pp. 1757—1763.
11. Deeb M., Kotelenets N.F. Fault Diagnosis of 3-phase Induction Machine Using Harmonic Content of Stator Current Spectrum // Proc. Intern. Youth Conf. on Radio Electronics, Electrical and Power Eng. Moscow, 2020. Pp. 1—6.
---
Для цитирования: Диб Мухаммад, Ибрагим Гассан, Ассаф Талал. Диагностика неисправностей обмотки статора трехфазного асинхронного двигателя с помощью векторного анализа Парка // Вестник МЭИ. 2021. № 5. С. 69—74. DOI: 10.24160/1993-6982-2021-5-69-74.
#
1. Kuznetsov N.L. Nadezhnost' Elektricheskikh Mashin. M.: Izdat. Dom MEI, 2006. (in Russian).
2. Sottile J. e. a. An On-line Method to Detect Incipient Failure of Turns Insulation in Random-wound Motors. IEEE Trans. Energy Conversion. 1993;8;4:762—768.
3. Sidel'nikov L.G., Afanas'ev D.O. Kontrol' Tekhnicheskogo Sostoyaniya Asinkhronnykh Dvigateley v Protsesse Ekspluatatsii. Vestnik Permskogo natsional'nogo Issledovatel'skogo Politekhn. Un-ta. 2013;12;7:127—137. (in Russian).
4. Bonnet А.H., Soukup G.C. Cause and Analysis of Stator and Rotor Failures in Three-phase Squirrel Case Induction Motors. IEEE Trans. Industry Appl. 1992;28;4:921—937.
5. Lipo T.A. Introduction of AC Machine Design. Madison: Wisconsin Power Electronics Research Center, 2004.
6. Roux W.L. e. a. Detecting Rotor Faults in Permanent Magnet Synchronous Machines. Proc. Diagnostics for Electric Machines, Power Electronics and Drives Conf. Atlanta, 2003:198—203.
7. Trigeassou J.-C. Electrical Machines Diagnosis. N.-Y.: Wiley, 2013.
8. GOST ISO 20958—2015. Kontrol' Sostoyaniya i Diagnostika Mashin. Signaturnyy Analiz Elektricheskikh Signalov Trekhfaznogo Asinkhronnogo Dvigatelya. (in Russian).
9. Kopylov I.P. Matematicheskoe Modelirovanie Elektricheskikh Mashin. M.: Vysshaya Shkola, 2001. (in Russian).
10. Díaz D., Amaya M.C., Paz A. Inter-turn Short-circuit Analysis in an Induction Machine by Finite Elements Method and Field Tests. Proc. XX Intern. Conf. Electrical Machines. Marseille, 2012:1757—1763.
11. Deeb M., Kotelenets N.F. Fault Diagnosis of 3-phase Induction Machine Using Harmonic Content of Stator Current Spectrum. Proc. Intern. Youth Conf. on Radio Electronics, Electrical and Power Eng. Moscow, 2020:1—6.
---
For citation: Deeb Muhammad, Ibragim Gassan, Assaf Talal. Diagnostics of Stator Winding Faults in a Three-Phase Asynchronous Motor Using Park’s Vector Analysis. Bulletin of MPEI. 2021;5:69—74. (in Russian). DOI: 10.24160/1993-6982-2021-5-69-74.
Published
2021-02-26
Section
Electromechanics and Electrical Apparatus (05.09.01)
