Title :
Inductance of perfectly conducting foils including spiral inductors
Author :
Djordjevic, A.R. ; Allen, C.K. ; Sarkar, T.K. ; Maricevic, Z.A.
Author_Institution :
Dept. of Electr. Eng., Belgrade Univ., Yugoslavia
Abstract :
A numerical method for calculating the lumped inductance parameters of perfectly conducting foils (i.e. current sheets) is presented. A quasi-static analysis for computing the inductance for foils arbitrarily shaped in three dimensions is described. The vector current distribution on the structure is solved in terms of a scalar current potential function. The method of moments is utilized to solve the integral equation. Numerical results are also presented. The strength of this technique is that a bound on the numerical accuracy can be provided. The relative error provides not only a self-consistency check, but also the accuracy with which the numerical values have been computed. Foil structures which can be approximated accurately with a triangular patch model and whose terminal edge current distributions are known can be analyzed with this method.<>
Keywords :
current distribution; inductance; inductors; integral equations; current sheets; integral equation; lumped inductance parameters; moments method; numerical method; perfectly conducting foils; quasi-static analysis; scalar current potential function; spiral inductors; terminal edge current distributions; triangular patch model; vector current distribution; Conductors; Current density; Frequency; Geometry; Inductance; Inductors; Moment methods; Skin effect; Solids; Spirals;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
