Title :
FDTD modeling of lumped ferrites
Author :
Li, Min ; Luo, Xiao ; Drewniak, James L.
Author_Institution :
Missouri Univ., Rolla, MO, USA
fDate :
5/1/2000 12:00:00 AM
Abstract :
Implementing ferrites in finite-difference time-domain (FDTD) modeling requires special care because of the complex nature of the ferrite impedance. Considerable computational resources and time are required to directly implement a ferrite in the FDTD method. Fitting the ferrite impedance to an exponential series with the generalized-pencil-of-function (GPOF) method and using recursive convolution is an approach that minimizes the additional computational burden. An FDTD algorithm for a lumped ferrite using GPOF and recursive convolution is presented herein. Two different ferrite impedances in a test enclosure were studied experimentally to demonstrate the FDTD modeling approach. The agreement is generally good
Keywords :
convolution; electric impedance; electromagnetic compatibility; electromagnetic shielding; ferrites; finite difference time-domain analysis; EMC; FDTD algorithm; FDTD modeling; exponential series; ferrite impedance; finite-difference time-domain; generalized-pencil-of-function method; lumped ferrites; recursive convolution; shielding enclosure; test enclosure; Connectors; Convolution; Electromagnetic interference; Ferrites; Finite difference methods; Impedance; Magnetic fields; Maxwell equations; Testing; Time domain analysis;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
