DocumentCode :
1131000
Title :
High-Frequency Giant Magnetoimpedance Measurement and Complex Permeability Behavior of Soft Magnetic Co-Based Ribbons
Author :
Heshmatzadeh, Maryam ; Zhou, XueZhi ; Bridges, Greg E. ; Williams, Gwyn
Author_Institution :
Dept. of Electr. & Comput. Eng., Manitoba Univ., Winnipeg, Man., Canada
Volume :
41
Issue :
8
fYear :
2005
Firstpage :
2328
Lastpage :
2333
Abstract :
We present a method for extracting the magnetic parameters of a soft magnetic Co-based alloy (Co 
Fe 
Si 
B 
) in the high-frequency regime (100 MHz–2.5 GHz). The method uses the magnetic sample (as-cast ribbon) as the conductor of a terminated microstrip transmission line. It uses the complex propagation constant of the line, obtained from open/short circuit input impedance measurements, to extract the per-unit-length series impedance. It then uses a theoretical model, based on the distributed parameters and the skin effect, to extract the bulk transverse relative permeability. The model considers the geometrical configuration of the magnetic conductor (ribbon) when determining the series impedance as well as the complex transverse relative permeability 
. We report on the effect of applying and varying an external dc magnetic field.
Fe Si B ) in the high-frequency regime (100 MHz–2.5 GHz). The method uses the magnetic sample (as-cast ribbon) as the conductor of a terminated microstrip transmission line. It uses the complex propagation constant of the line, obtained from open/short circuit input impedance measurements, to extract the per-unit-length series impedance. It then uses a theoretical model, based on the distributed parameters and the skin effect, to extract the bulk transverse relative permeability. The model considers the geometrical configuration of the magnetic conductor (ribbon) when determining the series impedance as well as the complex transverse relative permeability . We report on the effect of applying and varying an external dc magnetic field.Keywords :
boron alloys; cobalt alloys; electric impedance measurement; ferromagnetic materials; giant magnetoresistance; iron alloys; magnetic field effects; magnetic permeability; microstrip lines; silicon alloys; skin effect; soft magnetic materials; CoFeSiB; GMI effect; cast ribbon; dc magnetic field; ferromagnetic transmission line; giant magnetoimpedance measurement; high-frequency magnetoimpedance measurement; input impedance measurement; magnetic conductor; microstrip transmission line; propagation constant; relative permeability; series impedance; skin effect; soft magnetic Co-based ribbon; soft magnetic ribbons; Cobalt alloys; Conductors; Distributed parameter circuits; Impedance; Iron alloys; Microstrip; Permeability measurement; Silicon alloys; Soft magnetic materials; Transmission line theory; Ferromagnetic transmission lines; GMI effect; high-frequency GMI measurements; soft magnetic ribbons;
fLanguage :
English
Journal_Title :
Magnetics, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9464
Type :
jour
DOI :
10.1109/TMAG.2005.852950
Filename :
1492534
Link To Document :
