Title :
A coupled thermal magnetic model for high frequency transformers. I. Model formulation and material properties
Author :
Nelson, Douglas J. ; Jessee, J. Patrick
Author_Institution :
Dept. of Mech. Eng., Virginia Polytech. Inst. & State Univ., Blacksburg, VA, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
A new model for analyzing high-frequency transformers is presented. The model is based on the simultaneous solution of the coupled, nonlinear thermal, and electromagnetic equations. The modeling and assumptions used to derive the governing equations are explained. A set of integrodifferential constraints is developed to apply the proper input voltage and output impedance to the transformer windings. A method of modeling the magnetic material properties as a function of temperature and magnetic flux density is given. A novel technique for modeling the complex reluctivity of the soft ferrite core material permits a time harmonic transformation of the electromagnetic equations. This eliminates the need to step through time while maintaining the effects of hysteresis losses. Also, a quasi-steady formulation of the heat conduction equation eliminates the time dependency of the thermal problem
Keywords :
design engineering; ferrite devices; high-frequency transformers; magnetic hysteresis; switched mode power supplies; complex reluctivity; coupled thermal magnetic model; electromagnetic equations; heat conduction equation; high frequency transformers; hysteresis losses; input voltage; integrodifferential constraints; magnetic flux density; magnetic material properties; nonlinear thermal equations; output impedance; quasi-steady formulation; soft ferrite core material; temperature; time harmonic transformation; Electromagnetic coupling; Electromagnetic modeling; Frequency; Impedance; Magnetic analysis; Magnetic flux; Magnetic materials; Nonlinear equations; Transformers; Windings;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
