Permanent magnets due to their high energy production are widely used in a variety of electromagnetic devices. Such devices can be found in marine, aerospace, and robotic applications which require the minimization of weight and volume of the electro- magnetic devices. The coercively of some permanent magnets are high so the magnetizer is used for high magnetic field generation. Different parameters such as core shape, core material, turn number, cross section of the air gap, magnet type, etc have been known to affect the magnetizer operation. The amplitude and waveform of fixture current is obtained from PSPICE simulations and also experimental measurement. A 2D finite element analysis is developed to simulate magnetic fields and mechanical forces. The main parameters affecting optimal design of the magnetizer are discussed. Simulation results show that the core structure, air gap width, and turn numbers are the most important parameters when designing such a device.
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P.Pand Bretchco and R. Ludwig, "Open-loop pulsed hysteresis graph system for the magnetization of rare-earth magnets," IEEE Trans. Magn., vol. 36, pp. 2042-2051, July 2000.

JeweU, G.W., Howe, D., and Birch, T.S., "Simulation of Capacitor Discharge Magnetization," IEEE trans. Magn., Vol. 26,

Nakata, T., and Takahashi, N., "Numerical Analysis of Tran-sient Magnetic Field in a Capacitor-discharge Impulse Magnetizer," IEEE trans Magn., Vol. 22, No. 5, pp. 526-528, 1986.NO. 5, pp. 1638-1640, 1990.

C. K. Lee, B. I. Kwon, B.-T. Kim, K. I. Woo, and M. G. Han "Analysis of Magnetization of Magnet in the Rotor of Line Start Permanent Magnet Motor", IEEE Transactions on Magnetics, vol. 39, no. 3, May 2003.

Pill-So0 Kim, et al, "Computer Simulation o f a Capacitor Impulse Discharging Circuit," Proceeding of Int. Symp. on Power Electronics (7SPE'92), held in Seoul, Korea, 1992, pp. 365-368.

G. W. Jewell, et al, "Simulation of Capacitor Discharge Magnetization," IEEE Trans. on Magnetics, vo1.26, 110.5, 1990, pp.

Pill-So0 Kim, et al, "Design and analysis of Capacitor Discharge Impulse Magnetizer - Magnetizing Fixture System", Proceedings of In? Energy Conf (ENERGEX'93), held in Seoul, Korea, 1993, pp. 473-486.

T. Nakata and N. Takahashi, "Numerical Analysis of Transient Magnetic Field in a Capacitor- Discharge Impulse Magnetizer," IEEE Trans. on Magnetics, v01.22, no.5, pp. 526-528, 1986.

J . Kelly Lee, "The Analysis of a Magnetizing Fixture for a Multiple Nd-Fe-B Magnet," IEEE Trans. on Magnetics, vol. 24, no. 5, pp. 2166- 2171,1988.

G. W. Jewell, et al, "Simulation of Capacitor Discharge Magnetization," IEEE Trans. on Magnetics, vol. 26, no. 5 , pp. 1638-1640, 1990.

J . Kelly and E.. Fulani, "The Optimization of Multipole Magnetizing Fixtures .for High-energy- Magnet," Journal of Appl. Phys., 67(3), I , 1990. 1638-1640.

T.Nakata, et al, "Numerical Design Method for Magnetizer," Journa of Ahgnetism and Ahgnetic Ahterials 4 1, pp. 4 18420,1984.

F.I. Al-Naemi, J.P. Hall and A.J. Moses. "FEM modeling techniques of magnetic flux leakage-type NDT for ferromagnetic plate inspections," J.Magn.Magn.Mater., vol. 304, pp. e790-e793, 2006.

S. Nagata and M. Enokizono. "Numerical simulations and experiments of eddy current tests under various excitation methods," J.Magn.Magn.Mater.,vol. 161, pp.353-358, April 2005.

Yong Li, John Wilson, and Gui Yun Tian. "Experiment and simulation study of 3D magnetic field sensing for magnetic flux leakage defect characterization," NDT&E International, vol. 40, pp. 179-184, 2007.

P. S. Kim, B.Y. Hong, and Y. Kim, "An investigation to general characteristics of impulse magnetizer. II. Field modeling and thermal modeling of magnetizing fixture," Industry Applications Conference, 1999. Thirty-Fourth IAS Annual Meeting. Conference Record of the 1999 IEEE Volume 3, 3-7 Oct. 1999.

A. Nakahata, K. Kadoya,Y. Kawase, and T.Yamaguchi, "3-D Finite Element Analysis of Electromagnets with Permanent Magnet Taking into Account Magnetizing Process", IEEE Transactions on Magnetics, Vol. 33, No. 2, March 1997.