The magnetic properties of sintered Mn-Zn ferrites, Co2+ enriched by addition of CoO up to 6000 ppm, were measured in ring samples for a broad range of peak polarization values (2 mT – 200 mT) and frequencies (dc – 1 GHz). The results were analyzed by separating the contributions to the magnetization process of domain-wall motion and magnetization rotation, and applying the concept of loss decomposition. By determining the value and behavior of the rotational permeability µrot as a function of the CoO content, we obtain the average effective magnetic anisotropy and its effect on the loss. We thus identify the hysteresis (quasi-static) Wh, rotational Wrot, and excess Wexc loss components and their dependence on CoO. The quasi-static loss Wh...
For more than eight past decades, the ferrite research literature has only very superficially dealt ...
Fluxmetric and transmission line methods have been combined in the wideband characterization of Mn–...
The high commutation rate of the wide gap semiconductor (GaN) allows operating with switching freque...
The magnetic properties of sintered Mn-Zn ferrites, Co 2+ enriched by addition of CoO up to 6000 ppm...
CoO-doping is known to stabilize the temperature dependence of initial permeability and magnetic los...
Mn-Zn ferrite samples prepared by conventional solid state reaction method and sintering at 1325 °C ...
We analyze the physical mechanisms associated with addition of CoO to sintered Mn-Zn ferrites and th...
Magnetic energy losses and permeability have been investigated in laboratory prepared and commercial...
We present and discuss methods, setups, and results concerning the characterization of Mn-Zn and Ni-...
International audienceA soft magnetic MnZn-type ferrite is considered for high frequency application...
We predict the contribution of eddy currents to power losses in polycrystalline Mn-Zn ferrites and a...
The present paper reports on an effort to expose and scientifically explain the microstructure–magne...
AbstractIn this article the development of a medium frequency MnZn ferrite with low losses over a br...
In this paper, the influence of additional sieving and milling of starting industrial Mn-Zn powders ...
For more than eight past decades, the ferrite research literature has only very superficially dealt ...
Fluxmetric and transmission line methods have been combined in the wideband characterization of Mn–...
The high commutation rate of the wide gap semiconductor (GaN) allows operating with switching freque...
The magnetic properties of sintered Mn-Zn ferrites, Co 2+ enriched by addition of CoO up to 6000 ppm...
CoO-doping is known to stabilize the temperature dependence of initial permeability and magnetic los...
Mn-Zn ferrite samples prepared by conventional solid state reaction method and sintering at 1325 °C ...
We analyze the physical mechanisms associated with addition of CoO to sintered Mn-Zn ferrites and th...
Magnetic energy losses and permeability have been investigated in laboratory prepared and commercial...
We present and discuss methods, setups, and results concerning the characterization of Mn-Zn and Ni-...
International audienceA soft magnetic MnZn-type ferrite is considered for high frequency application...
We predict the contribution of eddy currents to power losses in polycrystalline Mn-Zn ferrites and a...
The present paper reports on an effort to expose and scientifically explain the microstructure–magne...
AbstractIn this article the development of a medium frequency MnZn ferrite with low losses over a br...
In this paper, the influence of additional sieving and milling of starting industrial Mn-Zn powders ...
For more than eight past decades, the ferrite research literature has only very superficially dealt ...
Fluxmetric and transmission line methods have been combined in the wideband characterization of Mn–...
The high commutation rate of the wide gap semiconductor (GaN) allows operating with switching freque...