Title :
Systematic Analysis and Engineering of Absorbing Materials Containing Magnetic Inclusions for EMC Applications
Author :
Koledintseva, Marina Y. ; Xu, Jianfeng ; De, Soumya ; Drewniak, James L. ; He, Yongxue ; Johnson, Richard
Author_Institution :
Missouri Univ. of Sci. & Technol., Rolla, MO, USA
Abstract :
A methodology to efficiently design novel products based on magneto-dielectric materials containing ferrite or magnetic alloy inclusions is presented. The engineered materials should provide desirable frequency responses to satisfy requirements of electromagnetic compatibility/immunity over RF and microwave bands. The methodology uses an analytical model of a composite magneto-dielectric material with both frequency-dependent permittivity and permeability. The Bruggeman asymmetric rule for effective permeability of a composite is modified to take into account demagnetization factors of inclusions, and is shown to be applicable to platelet magnetic inclusions. Complex permittivity and permeability are extracted from the transmission-line measurements. A novel accurate and efficient curve-fitting procedure has been developed for approximating frequency dependencies of both permittivity and permeability of magneto-dielectric materials by series of Debye-like frequency terms, which is important for wideband full-wave numerical time-domain simulations. Results of numerical simulations for a few structures containing magneto-dielectric sheet materials and their experimental validation are presented.
Keywords :
absorbing media; demagnetisation; electromagnetic compatibility; ferrites; frequency response; inclusions; magnetic materials; magnetic permeability measurement; permittivity; time-domain analysis; transmission line theory; Bruggeman asymmetric rule; Debye-like frequency terms; EMC applications; RF bands; absorbing materials; composite magnetodielectric material; curve-fitting procedure; demagnetization factors; electromagnetic compatibility-immunity; ferrite materials; frequency dependency approximation; magnetic alloy inclusions; magnetodielectric materials; microwave bands; permeability; permittivity; platelet magnetic inclusions; product design; systematic analysis; time-domain simulations; transmission-line measurements; Absorbing media; causality; composite material; electromagnetic compatibility; ferrites; frequency response; magnetic materials; microstrip line; transmission line measurements;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2084991
