INFLUENCE OF MAGNETIC HYSTERESIS IN THE ANALYSIS OF AN ELECTROMAGNETIC CIRCUIT BY FINITE ELEMENT METHOD
Keywords:
FEM, magnetic hysteresis, vector model, electromagnetic circuitAbstract
This paper discusses the influence of magnetic hysteresis in the analysis of an electromagnetic circuit, using 2D finite element method (FEM). The hysteresis is represented by Jiles-Atherton (JA) vector model. It is shown how this model can be associated to FEM with formulation in magnetic vector potential. An analysis of the energy involved in the circuit behavior is performed by means of the hysteresis loss calculation to validate the study.
References
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Hysteresis Model, submitted to COMPUMAG 2015.
[10] LI, K.; KIM, I. H.; JANG, S. M.; KOH, C. S. Hysteresis Modeling for Electrical Steel Sheets Using Improved Vector JilesAtherton Hysteresis Model. IEEE Transactions on Magnetics, vol. 47, n. 10, p. 3821-3824, october 2011.
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[12] KUO-PENG, P.; SADOWSKI, N.; BASTOS, J.P.A.; CARLSON, R.; BATISTELA, N. J.; LAJOIE-MAZENC, M. A General
Method for Coupling Static Converters with Electromagnetic Structures. IEEE Transactions on Magnetic, vol. 33, n. 2, p. 2004-2009,
march 1997.
Eletromagnético pelo MEF. 16º SBMO – Simpósio Brasileiro de Microondas e Optoeletrônica e 11º CBMag – Congresso Brasileiro
de Eletromagnetismo (31/08 a 03/09/2014), 2014, Curitiba/SC. Anais de Congresso, vol. 1, p. 1016-1019, 2014.
[2] BERTOTI, G. Dynamic Generalization of the Scalar Preisach Model of Hysteresis. IEEE Transactions on Magnetics, vol. 28, p.
2599-2601, september 1992.
[3] MAYERGOYZ, I. D. The Classical Preisach Model of Hysteresis and Reversibility. Journal of Applied Physics, vol. 69, n.
8, p. 4602-4604, april 1991.
[4] MAYERGOYZ, I. D. Dynamic Vector Preisach Models of Hysteresis. Journal of Applied Physics, vol. 69, n. 8, p. 4829-4831,
april 1991.
[5] JILES, D. C.; ATHERTON, D. L. Theory of Ferromagnetic Hysteresis (Invited). Journal of Applied Physics, vol. 55, n. 6, p.
2115-2120, march 1984.
[6] LEITE, J. V.; SADOWSKI, N.; KUO-PENG, P.; BATISTELA, N. J.; BASTOS, J. P. A.; ESPÍNDOLA, A. A. Inverse JileAtherton Vector Hysteresis Model. IEEE Transactions on Magnetism, vol. 40, n. 4, p. 1769-1775, july 2004.
[7] BOBBIO, S.; MIANO, G.; SERPICO, C.; VISONE, C. Models of Magnetic Hysteresis Based on Play and Stop Hysterons. IEEE
Transactions on Magnetics, vol. 33, n. 6, p. 4417-4425, november 1997.
[8] BASTOS, J. P. A.; SADOWSKI, N. Eletromagnetic Modeling by Finite Elements. New York, USA: Marcel Dekker, 2003.
[9] PADILHA, J. P; LEITE, J. V.; SADOWSKI, N.; KUO-PENG, P.; BATISTELA, N. J. Improvements in a Jiles-Atherton Vector
Hysteresis Model, submitted to COMPUMAG 2015.
[10] LI, K.; KIM, I. H.; JANG, S. M.; KOH, C. S. Hysteresis Modeling for Electrical Steel Sheets Using Improved Vector JilesAtherton Hysteresis Model. IEEE Transactions on Magnetics, vol. 47, n. 10, p. 3821-3824, october 2011.
[11] BASTOS, J. P. A. Eletromagnetismo para Engenharia: Estática e Quase-Estática. Editora da UFSC, Florianópolis, 2004.
[12] KUO-PENG, P.; SADOWSKI, N.; BASTOS, J.P.A.; CARLSON, R.; BATISTELA, N. J.; LAJOIE-MAZENC, M. A General
Method for Coupling Static Converters with Electromagnetic Structures. IEEE Transactions on Magnetic, vol. 33, n. 2, p. 2004-2009,
march 1997.
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Published
2015-08-01
How to Cite
Juliano B. Padilha, Patrick Kuo-Peng, Nelson Sadowsk, & Nelson Jhoe Batistela. (2015). INFLUENCE OF MAGNETIC HYSTERESIS IN THE ANALYSIS OF AN ELECTROMAGNETIC CIRCUIT BY FINITE ELEMENT METHOD. Journal of Microwaves, Optoelectronics and Electromagnetic Applications (JMOe), 14, SI–67 to SI. Retrieved from http://www.jmoe.org/index.php/jmoe/article/view/491
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