Transient Model and Detection of Stator Inter-Turn Fault in Inverter Driven Induction Motor Drives by Time Domain Technique

Khadim Moin Siddiqui*, Kuldeep Sahay**, V. K. Giri***
* Teaching-cum Research Scholar, Department of Electrical Engineering, Dr. APJ Abdul Kalam Technical University, Lucknow, U.P, India.
** Professor, Department of Electrical Engineering, Institute of Engineering and Technology, Lucknow, India.
*** Professor, Department of Electrical Engineering, Madan Mohan Malaviya University of Technology, Gorakhpur, UP, India.
Periodicity:January - March'2016
DOI : https://doi.org/10.26634/jee.9.3.4884

Abstract

These days, the induction motor driven by inverter, drives are being popular and used in the industries for variable speed applications with very competitive pricing. In this paper, a new dynamic pulse width modulated inverter fed squirrel cage induction motor simulation model is used for the stator inter-turn winding fault detection purpose. Through the proposed model, the transient behavior of the induction motor has been analyzed for healthy as well as for stator interturn faulty conditions by time domain approach. Therefore, early, stator inter-turn fault diagnosis is possible and may avoid the motor to reach in the catastrophic conditions. Therefore, may save large revenues for industries.

Keywords

Squirrel Cage Induction Motor, Stator Inter-turn Winding Fault, Time Domain Analysis, Motor Current Signature Analysis, Modelling and Simulation, Pulse Width Modulated Inverter.

How to Cite this Article?

Siddiqui, K.M., Sahay, K., and Giri, V.K. (2016). Transient Model and Detection of Stator Inter-Turn Fault in Inverter Driven Induction Motor Drives by Time Domain Technique. i-manager’s Journal on Electrical Engineering, 9(3), 20-31. https://doi.org/10.26634/jee.9.3.4884

References

[1]. K. M. Siddiqui, K. Sahay and V.K. Giri, (2014). “Simulation and Transient Analysis of PWM Inverter Fed Squirrel Cage Induction Motor Drives”. i-manager's Journal on Electrical Engineering, Vol. 7, No.3, pp.9-19.
[2]. T. A. Kawady, A. A. Afify, A. M. Osheiba and A. I. Taalab, (2008). “Modeling and Experimental Investigation of Stator Winding Faults in Induction Motors”. Electric Power Components and Systems, Vol. 37, No. 6, pp.599- 611.
[3]. A.H. Bonnett and G.C. Soukup, (1992). “Cause and Analysis of Stator and Rotor Failures in Three-Phase Squirrel- Cage Induction Motors”. IEEE Transactions on Industry Applications, Vol. 28, No. 4, pp.921-937.
[4]. B. Liang, B.S. Payne, A.D. Ball and S.D. Iwnicki, (2002). “Simulation and Fault Detection of Three-Phase Induction Motors”. Journal on Mathematics and Computers in Simulation, Vol.61, pp.1-15.
[5]. Sergio M. A. Cruz and A. J. Marques Cardoso, (2004). “Diagnosis of Stator Inter-Turn Short Circuits in DTC Induction Motor Drives”. IEEE Transactions on Industry Applications, Vol. 40, No. 5,pp.1349-1360.
[6]. M. Sahraoui, A. Ghoggal, S. E. Zouzou, A. Aboubou and H. Razik, (2006). “Modelling and Detection of Inter- Turn Short Circuits in Stator Windings of Induction Motor”. nd IEEE Industrial Electronics, IECON 2006 - 32 Annual Conference of IEEE, pp.4981-4986.
[7]. Jesper S. Thomsen and Carsten S. Kallesoe, (2006). “Stator Fault Modelling of Induction Motors”. SPEEDAM 2006, International Symposium on Power Electronics, Electrical Drives, Automation and Motion, S9, pp.6-11.
[8]. Xu Bo-qiang, Li He-mhg, sun Li-hg, (2004). “Detection of Stator Winding Inter-turn Short Circuit Fault in Induction Motors”. International Conference on Power System Technology - POWERCON 2004, Singapore, pp.1005- 1009.
[9]. Andreas Stavrou, Howard G. Sedding, and James Penman, (2001). “Current Monitoring for Detecting Inter- Turn Short Circuits in Induction Motors”. IEEE Transactions on Energy Conversion, Vol.16, No. 1, pp.32-37.
[10]. R. M. Tallam, T. G. Habetler, and R. G. Harley, (2002). “Transient Model for Induction Machines with Stator Winding Turn Faults”. IEEE Transactions on Industry Application, Vol. 38, No. 3, pp. 304-309.
[11]. K.M. Siddiqui, K. Sahay and V.K. Giri, (2014). “Health Monitoring and Fault Diagnosis in Induction Motor- A Review”. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 3, No. 1, pp. 6549-6565.
[12]. M. Dlamini, P.S. Barendse and A. Khan, (2013). “Autonomous Detection of Inter-turn Stator Faults in Induction Motors”. IEEE International Conference on Industrial Technology, pp. 1700-1705.
[13]. L. Frosini, E. Bassi and L. Girometta, (2012). “Detection of Stator Short Circuits in Inverter-Fed Induction th Motors”. 38 IEEE International Conference on Industrial Electronics Society (IECON-2012), pp.5102-5107.
[14]. T.W. Chua, W.W. Tan, Z.X. Wang and C.S. Chang, (2010). “Hybrid Time-Frequency Domain Analysis for Inverter-Fed Induction Motor Fault Detection”. IEEE International Symposium on Industrial Electronics, pp.1633-1638.
[15]. K.M. Siddiqui and V.K. Giri, (2012). “Broken Rotor Bar Fault Detection in Induction Motors using Wavelet Transform”. IEEE International Conference on Computing, Electronics and Electrical Technologies (ICCEET-2012), pp.1-6.
[16]. P.C. Krause and C.H. Thomas, (1965). “Simulation of Symmetrical Induction Machinery” IEEE Trans. on Power Apparatus and Systems, Vol.84, No. 11, pp.1038-1053.
[17]. K.M. Siddiqui, Kuldeep Sahay and V.K. Giri, (2015). “Modelling and Detection of Bearing Fault in SPWM Inverter Fed Squirrel Cage Induction Motor Drives”. Proc. IEEE Int. Conf. on Circuit, Power and Computing Technologies (ICCPCT), pp.1-9.
[18]. M.E.H. Benbouzid and G.B. Kliman, (2003). “What Stator Current Processing-Based Technique to use for Induction Motor Faults Diagnosis?”. IEEE Trans. Energy Conversion, Vol. 18, No. 2, pp. 238-244.
[19]. J.H.Jung, Jong-Jae, Lee and Kwon Bong-Hwan, (2006). “Online Diagnosis of Induction Motors using MCSA”. IEEE Trans.on Industrial Electronics, Vol. 53, No. 6, pp. 1842-1852.
[20]. D.T. Razafimahefa, E. Randrianarisoa, E.J.R. Sambatra and N. Heraud, (2014). “Modeling and Faults Detection of Small Power Wound Rotor Induction Machine”. International Conference and Exposition on Electrical and Power Engineering (EPE), pp.311-316.
[21]. O. Duque-Perez, D. Morinigo-Sotelo and M. Perez- Alonso, (2011). “Diagnosis of Induction Motors fed by Supplies with High Harmonic Content using Motor Current Signature Analysis”. IEEE International Conference on Power Engineering, Energy and Electrical Drives (POWERENG-2011), pp.1-6.
[22]. Khadim Moin Siddiqui, Kuldeep Sahay and V.K. Giri, (2015). “Diagnosis of Stator Inter-turn Fault in Inverter Fed th Induction Motor Drives”. Proc. IEEE 4 Students Conference on Engineering and Systems (SCES-2015), Allahabad, India, pp.1-6 .
[23].Khadim Moin Siddiqui, Kuldeep Sahay and V.K. Giri, (2015). “Detection of Bearing Fault in Inverter Fed th Induction Motor by Transformative Techniques”. 12 IEEE Int. Conf. Proc. Electronics, Energy, Environment, 3 3 Communication, Computer, Control (E -C ), INDICON- 2015, NewDelhi, India, pp. 1-6 .
[24]. G. Jagadanand, L. Gopi, S. George and Jeevamma Jacob, (2012). “Inter-Turn Fault Detection in Induction Motor Using Stator Current Wavelet Decomposition”. International Journal of Electrical Engineering and Technology (IJEET), Vol.3, No.2, pp.103- 122.
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