Title :
Some Treatments of Fictitious Volume Charges in Nonlinear Magnetostatic Analysis by BIE
Author :
Ishibashi, K. ; Andjelic, Z. ; Takahashi, Y. ; Takamatsu, T. ; Tsuzaki, K. ; Wakao, S. ; Fujiwara, K. ; Ishihara, Y.
Author_Institution :
Corp. Res., ABB Switzerland Ltd., Baden, Switzerland
Abstract :
The scalar potential formulation by the boundary integral equation approach is attractive for numerical analysis but has fatal drawbacks due to a multi-valued function in current excitation. We derive an all-purpose boundary integral equation with double layer charges as the state variable and apply it to nonlinear magnetostatic problems by regarding the nonlinear magnetization as fictitious volume charges. We investigate two approaches how to treat the fictitious charges. In discretization by the constant volume element, a surface loop current is introduced for the volume charge. By the linear volume element, the fictitious charges are evaluated on the condition that the divergence of the magnetic flux density is zero. We give a comparative study of these two approaches.
Keywords :
boundary integral equations; iterative methods; magnetic fields; magnetic flux; magnetisation; magnetostatics; BIE; all-purpose boundary integral equation; boundary integral equation approach; constant volume element; current excitation; discretization; double layer charges; fatal drawbacks; fictitious volume charges; linear volume element; magnetic flux density; multivalued function; nonlinear magnetization; nonlinear magnetostatic analysis; numerical analysis; scalar potential formulation; state variable; surface loop current; Coils; Integral equations; Magnetic cores; Magnetic flux; Magnetization; Magnetostatics; Surface treatment; Boundary integral equation; double layer charge; fictitious volume charges; iterative solutions; multi-valued function;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2174778
