Title :
A Practical Method to Measure Electrical AC Conductivity of MnZn Ferrites Using Conventional Toroids
Author :
Stadler, Alexander ; Albach, Manfred ; Lindner, Andreas
Author_Institution :
STS Spezial-Transformatoren Stockach GmbH & Co. KG, Stockach, Germany
Abstract :
In this paper, a new method to construct ac electrical properties from impedance measurements using conventional ring core specimens is proposed. Different coaxial cartridges are developed allowing four-wire measurements with an automatic compensation of the test-leads. To achieve optimum results, the specific material parameters are reconstructed from the measured impedances by means of an analytical solution of Maxwell´s equations for the toroidal sample geometry. Hence inhomogeneous electromagnetic fields due to occurring eddy currents and displacement currents are considered up to the megahertz range. To investigate the influence of the temperature on the electrical properties, the temperature-resistant cartridges can be transferred into a heating cabinet-specific results are finally exemplified for different MnZn ferrite materials.
Keywords :
Maxwell equations; eddy current losses; eddy currents; electric impedance measurement; electrical conductivity; ferrites; manganese compounds; zinc compounds; Maxwell´s equations; MnZn; coaxial cartridges; conventional ring core; core losses; displacement currents; eddy currents; electrical ac conductivity; electrical impedance; ferrites; four-wire measurements; inhomogeneous electromagnetic fields; megahertz range; temperature-resistant cartridges; toroids; Automatic testing; Coaxial components; Conducting materials; Conductivity measurement; Electric variables measurement; Electromagnetic measurements; Ferrites; Geometry; Impedance measurement; Maxwell equations; Electric variables; impedance measurement; inductors; losses; soft magnetic materials;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2009.2030157
