Title :
Effective computational models for anisotropic soft B-H curves
Author :
Silvester, Peter P. ; Gupta, Rajendra P.
Author_Institution :
Dept. of Electr. Eng., McGill Univ., Montreal, Que., Canada
fDate :
9/1/1991 12:00:00 AM
Abstract :
The flux density B for a magnetic field H in a soft magnetic material is given by the derivatives of the stored coenergy density with respect to the components of H. Any single-valued nonlinear tensor permeability may therefore be stored compactly, and retrieved with little computation, by storing its coenergy density as a function of position in H-space. In a dual form, H can be found by differentiating the stored energy density with respect to the components of B. Computational experiments show that sufficient accuracy can be achieved using cubic splines or other C2-continuous approximating functions.
Keywords :
electrical engineering computing; ferromagnetism; magnetic anisotropy; magnetic flux; magnetic permeability; magnetisation; physics computing; splines (mathematics); C2-continuous approximating functions; anisotropic soft B-H curves; coenergy density; computational models; cubic splines; flux density; mean magnetization curve; single-valued nonlinear tensor permeability; soft magnetic material; Anisotropic magnetoresistance; Computational modeling; Magnetic anisotropy; Magnetic circuits; Magnetic fields; Magnetic flux; Magnetic materials; Perpendicular magnetic anisotropy; Soft magnetic materials; Wire;
Journal_Title :
Magnetics, IEEE Transactions on
