Hostname: page-component-848d4c4894-tn8tq Total loading time: 0 Render date: 2024-06-25T23:37:44.794Z Has data issue: false hasContentIssue false
  • English
  • Français

Influence of the frequential identification tests on the induction machine modelling

Published online by Cambridge University Press:  05 June 2009

M. Belhaj ,
P. Guérin ,
M. E. Zaïm  and
L. Abdeljalil
M. Belhaj
Affiliation:
Institut de Recherche en Électrotechnique et Électronique de Nantes Atlantique (IREENA), 37 bd de l'université, BP 406, 44602, Saint-Nazaire, France
P. Guérin*
Affiliation:
Institut de Recherche en Électrotechnique et Électronique de Nantes Atlantique (IREENA), 37 bd de l'université, BP 406, 44602, Saint-Nazaire, France
M. E. Zaïm
Affiliation:
Institut de Recherche en Électrotechnique et Électronique de Nantes Atlantique (IREENA), 37 bd de l'université, BP 406, 44602, Saint-Nazaire, France
L. Abdeljalil
Affiliation:
Institut de Recherche en Électrotechnique et Électronique de Nantes Atlantique (IREENA), 37 bd de l'université, BP 406, 44602, Saint-Nazaire, France
*
patrick.guerin@univ-nantes.fr
Get access

Abstract

An electric network is constituted by generators providing power to various loads. The induction machine is the most common motor in the industrial applications because of its simplicity of construction, its reliability and its low cost. It allows the constant speed applications when it is directly supplied by the network and variable speed ones with the use of power converters. These speed drives induce important harmonic perturbations in the power system and in the motor side. In this context, we are interested by the frequential modelling of the induction machine in order to simulate the line current with its harmonic components. In order to use the induction machine models, it is necessary to identify their parameters and therefore realizing specific and sufficiently informative tests. Several tests of identification are presented in the literature; their differences and their relevance have not been discussed. This study deals with the realization and the comparison of several types of frequential tests (constant voltage, constant V/f, injection of DC current) for induction machine models identification. The comparison of the simulation results with the experimental measurements allows electing the most representative of the induction machine behaviour.

Keywords

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 47 , Issue 3 , September 2009 , 31101
Copyright
© EDP Sciences, 2009

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

C. Vermaelen, Ph.D. thesis, École Normale Supérieure de Cachan, France, 2003
H. Kabbaj, X. Roboam, Y. Lefevre, J. Faucher, Proc. IEEE Int. Symp. Industrial Electronics, Vol. 2 (1997), pp. 532–536
D. Riu, Ph.D. thesis, Institut National Polytechnique de Grenoble (INPG), France, 2001
S. Canat, J. Faucher, ASME Design Engineering Technical Conferences 2003VIB-48393, Vol. VIB-48393 (2003)
M. Belhaj, Ph.D. thesis, Université de Nantes, France, 2007
IEEE Standard 115 A-, Standard procedures for obtaining synchronous machine parameters by SSFR testing (1987)
Dedene, N., Pintelon, R., Lataire, P., IEEE Trans. Energy Conv. 18, 11 (2003) CrossRef
P. Viarouge, I. Kamwa, Electrical and Computer Engineering, Canadian Conference, Vol. 2 (1995), p. 1091
Sudhoff, S.D., Aliprantis, D.C., Kuhn, B.T., Chapman, P.L., IEEE Trans. Energy Conv. 17, 203 (2002) CrossRef
J.H.H. Alwash, S.H. Ikhwan, IEE Proc. Electrical Power Applications, Vol. 142 (1995), pp. 87–96
Smith, A.C., Healey, R.C., Williamson, S., IEEE Trans. Energy Conv. 11, 8 (1996) CrossRef
Klingshirn, E.A., Jordan, H.E., IEEE Trans. Power Apparatus Syst. 89, 1038 (1970) CrossRef
Kamwa, I., Viarouge, P., IEEE Trans. Energy Conv. 9, 579 (1994) CrossRef
J. Lin, T. Poinot, J.C. Trigeassou, Conf. Identification and Experimental Modelling, Nancy, France, 2001, pp. 151–160
A. Benchellal, S. Bachir, T. Poinot, J.C. Trigeassou, Econophysics, mechanics, material modeling, thermal systems, electronics, electrical systems, Part 2 (2005), pp. 471–482
S. Canat, Ph.D. thesis, Institut National Polytechnique de Toulouse (INPT), France, 2005
T. Khaorapapong, Ph.D. thesis, Institut National Polytechnique de Toulouse (INPT), France, 2001
P.L. Dandeno, P. Kundur, R.P. Schulz, Proc. IEEE, Vol. 62 (1974), pp. 941–950
B. Revol, thesis, Université Joseph Fourier, France, 2003
J.R. Willis, G.J. Brock, J.S. Edmonds, IEEE Trans. Energy Conv. 4, (1989)
S.I. Moon, A. Keyhani, Conf. Record of the 1993 IEEE Industry Applications Society 28th IAS Annual Meeting (1993), pp. 336–342
N. Retière, Ph.D. thesis, Institut National Polytechnique de Grenoble, France, 1997
Sudhoff, S.D., Aliprantis, D.C., Kuhn, B.T., Chapman, P.L., IEEE Trans. Energy Conv. 18, 48 (2003) CrossRef