Title :
Using parallel complex permeability for ferrite characterization
Author :
Watson, J.K. ; Amoni, Sergio
Author_Institution :
Florida Univ., Gainesville, FL, USA
fDate :
9/1/1989 12:00:00 AM
Abstract :
The authors address topics related to the characterization of linear ferrite materials using real and imaginary components of parallel permeability. Significant advantages are found in using the parallel rather than the usual series form of complex permeability to represent the performance of high-permeability ferrite cores. The findings include independence of the number of turns, a new equation for core loss density, a more direct examination of ferrite properties, and a reinterpretation of Snoek´s limit. It is concluded that the parallel components of complex permeability provide direct measures of the inherent ferrite material properties
Keywords :
ferrimagnetic properties of substances; magnetic cores; magnetic permeability measurement; nondestructive testing; core loss density; direct examination of ferrite properties; ferrite characterization; high-permeability ferrite cores; inherent ferrite material properties; linear ferrite materials; number of turns independence; parallel complex permeability; parallel permeability; reinterpretation of Snoek´s limit; Circuits; Core loss; Electrical resistance measurement; Ferrites; Frequency; Inductance measurement; Inductors; Loss measurement; Permeability measurement; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
