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CLC number: TH113; TH161
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Received: 2007-03-01
Revision Accepted: 2007-04-19
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Hysteresis model of magnetostrictive actuators and its numerical realization
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TANG Zhi-feng, LV Fu-zai, XIANG Zhan-qin. Hysteresis model of magnetostrictive actuators and its numerical realization[J]. Journal of Zhejiang University Science A, 2007, 8(7): 1059-1064.
@article{title="Hysteresis model of magnetostrictive actuators and its numerical realization",
author="TANG Zhi-feng, LV Fu-zai, XIANG Zhan-qin",
journal="Journal of Zhejiang University Science A",
volume="8",
number="7",
pages="1059-1064",
year="2007",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.2007.A1059"
}
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%A TANG Zhi-feng
%A LV Fu-zai
%A XIANG Zhan-qin
%J Journal of Zhejiang University SCIENCE A
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%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.2007.A1059
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T1 - Hysteresis model of magnetostrictive actuators and its numerical realization
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A1 - LV Fu-zai
A1 - XIANG Zhan-qin
J0 - Journal of Zhejiang University Science A
VL - 8
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SP - 1059
EP - 1064
%@ 1673-565X
Y1 - 2007
PB - Zhejiang University Press & Springer
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DOI - 10.1631/jzus.2007.A1059
Abstract: This paper presents two numerical realization of Preisach model by density Function Method (DFM) and F Function Method (FFM) for a giant magnetostrictive actuator (GMA). Experiment and simulation showed that FFM is better than DFM for predicting precision of hysteresis loops. Lagrange bilinear interpolation algorithm is used in Preisach numerical realization to enhance prediction performance. A set of hysteresis loops and higher order reversal curves are predicted and experimentally verified. The good agreement between the measured and predicted curves shows that the classical Preisach model is effective for modelling the quasi-static hysteresis of the GMA.
[1] Bernard, Y., Mendes, E., 2002. Dynamic hysteresis modeling based on Preisach model. IEEE Transaction on Magnetics, 38(2):885-888.
[2] Chen, Z.Q, Guo, C., Zhao, J.X., 2006. Modeling and control of hysteretic systems based on Preisach model. Control Engineering of China, 4:304-306.
[3] Davino, D., Natale, C., Pirozzi, S., 2005. A fast compensation algorithm for real-time control of magnetostrictive actuators. Journal of Magnetism and Magnetic Materials, 290-291:1351-1354.
[4] Della Torre, E., 1990. Preisach modeling and reversible magnetization. IEEE Transactions on Magnetics, 26(6):3052-3058.
[5] Doong, T., Mayergoyz, I.D., 1985. On numerical implementation of hysteresis models. IEEE Transactions on Magnetics, 21(5):1853-1855.
[6] Ge, P., Jouaneh, M., 1995. Modeling hysteresis in piezoceramic actuators. Precision Eng., 17(3):211-221.
[7] Gorbet, R.B., Wang, D.W.L., 1998. Preisach Model Identification of a Two-Wire SMA Actuator. Proceedings of the 1998 IEEE International Conference on Robotics & Automation, Leuven, Belgium, 5:2161-2167.
[8] Marcelo, J.D., Ralph, C.S., Alison, B.F., 2000. Structural magnetic strain model for magnetostrictive transducers. IEEE Transactions on Magnetics, 3:545-556.
[9] Mayergoyz, I.D., Frienman, G., 1988. Generalized Preisach model of hysteresis (invited). IEEE Transactions on Magnetics, 24(1):212-217.
[10] Natale, C., Velardi, F., 2001. Modelling and Compensation of Hysteresis for Magnetostrictive Actuators. 2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics, Como, Italy, 5:744-749.
[11] Sablik, M.J., Jiles, D.C., 1988. A model for hysteresis in magnetostriction. J. Appl. Phys., 64(10):5402-5404.
[12] Shen, Y.H., Liang, Z.H., 1992. Handbook of Applied Mathematics. Science Press, Beijing (in Chinese).
[13] Smith, R.C., 1997. Modeling techniques for magnetostrictive actuators. Proceedings of SPIE, 3041:243-253.
[14] Tan, X.B., Venkataraman, R., Krishnaprasad, P.S., 2001. Control of hysteresis: Theory and experimental results. Proceedings of SPIE, 4326:101-112.
[15] Tang, Z.F., 2005. Fundamental Theory and Experiments Study of Giant Magnetostrictive Actuator. Ph.D Thesis, Zhejiang University, Hangzhou (in Chinese).
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