Abstract
The temperature stability is a key design parameter in reaching the highest efficiency of modern medium frequency ferrite applications, such as in automotive, lighting, photovoltaic systems etc. These applications impose stronger demands on the performance of magnetic cores, such as low losses over a broad temperature range. In the present work the development of a MnZn ferrite polycrystalline material is described. The addition of the appropriate dopants, as well as the adjustment of the main composition resulted to a MnZn ferrite having initial magnetic permeability (μi) of 1780 (measured at a frequency 10kHz, an induction level 0.1mT and a temperature 25°C) and power losses (Pv) of 645mWcm−3 at 25°C and 618mW cm−3 at 80°C (measured at a frequency of 500kHz and a magnetic field strength of 100mT), establishing it as ideal for applications where low losses with small dependency on working temperature are needed.
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