Determination of Dimension-Independent Magnetic and Dielectric Properties for Mn–Zn Ferrite Cores and Its EMI Applications

Author

Huang, Ruifeng ; Zhang, Daming ; Tseng, King-Jet

Author_Institution

Temasek Lab., Nat. Univ. of Singapore, Singapore

Volume

50

Issue

3

fYear

2008

Firstpage

597

Lastpage

602

Abstract

Simultaneously high permeability and permittivity results in a pronounced dimensional effect in Mn-Zn ferrite cores, which makes the measured complex permeability differ for cores with different dimensions. This paper provides a succinct method to solve an inverse problem of tracing dimension-independent or intrinsic complex permeability and permittivity for Mn-Zn ferrites using two toroidal and rectangular-cross-sectioned cores with different dimensions. The apparent complex permeability of ferrite cores with other dimensions can then be predicted from the traced intrinsic values, so will the effective impedance of common-mode chokes made of such cores. The traced intrinsic permeability is in good agreement with the measured apparent complex permeability of a very small toroidal ferrite core, in which dimensional effect can be ignored. The apparent complex permeabilities of ferrite cores with other dimensions are measured experimentally, and are also calculated from the determined intrinsic values. A very good agreement between the measured and calculated values is found.

Keywords

electromagnetic interference; ferrite devices; permeability; permittivity; EMI applications; common-mode chokes; dielectric properties; dimension-independent magnetic properties; ferrite cores; high permeability; intrinsic complex permeability; permittivity results; pronounced dimensional effect; rectangular-cross-sectioned cores; Dielectric measurements; Electromagnetic interference; Ferrites; Impedance; Inverse problems; Magnetic cores; Magnetic properties; Permeability measurement; Permittivity measurement; Toroidal magnetic fields; Complex permeability; Mn–Zn ferrite; Newton–Raphson method; complex permittivity; dimensional effect;

fLanguage

English

Journal_Title

Electromagnetic Compatibility, IEEE Transactions on

Publisher

ieee

ISSN

0018-9375

Type

jour

DOI

10.1109/TEMC.2008.926914

Filename

4603130