by KormagAdmin | Jun 1, 2017 | Ferrite Cores, Ferrite Cores, Ferrite Materials, Soft Ferrite
Why do cores get lapped? What is the surface finish? Lapping is an additional production process used to improve the mating surface. It Is typically done on cores with material permeability of 5000 and greater in order to achieve the maximum AL value for a given...
by KormagAdmin | Jun 1, 2017 | Ferrite Cores, Ferrite Cores, Ferrite Materials, Soft Ferrite
Why do you flat-grind ferrite cores? Cores are flat-ground on the mating surface because of the uneven surface produced during the firing process. It is important for cores to mate with a minimum air gap to keep the gap losses low and to achieve optimum inductance...
by KormagAdmin | Apr 28, 2017 | Ferrite Cores, Ferrite Materials
What is disaccommodation? Disaccommodation, occurring in ferrites, is the reduction of permeability with time after a core is demagnetized. This demagnetization can be caused by heating above the Curie point, by applying an alternating current of diminishing...
by KormagAdmin | Apr 19, 2017 | Ferrite Materials, Resistivity
What is the difference between nickel-zinc and manganese-zinc ferrites? MnZn materials have a high permeability, while NiZn ferrites have a low permeability. Manganese-zinc ferrites are used in applications where the operating frequency is less than 5 MHz. Nickel-zinc...
by KormagAdmin | Apr 10, 2017 | Ferrite Cores, Ferrite Cores, Ferrite Materials
What is a ferrite core? Ferrite cores are dense, homogeneous ceramic structures made by mixing iron oxide (Fe2O3) with oxides or carbonates of one or more metals such as manganese, zinc, nickel, or magnesium. They are pressed, then fired in a kiln to 1300o C, and...
by KormagAdmin | Apr 10, 2017 | Ferrite Materials, Flux density
How important is permeability in power materials? Permeability is flux density, (B), divided by drive level, (H). Power materials are generally used for high frequency transformer applications. Hence, the important characteristics are high flux density and/or low core...