Title :
Low loss thin film magnetics for high frequency power supplies
Author :
Kulkarni, Santosh ; Ningning Wang ; Pavlovic, Zoran ; Dai Li ; McCloskey, Paul ; Young, G. ; Mathuna, Cian O.
Author_Institution :
ICT for Energy Efficiency, Univ. Coll. Cork, Cork, Ireland
Abstract :
Advances in wide bandgap semiconductor technologies have enabled increased switching frequencies, which is critical for reducing size of passive components in power supplies. These advances in power conversion technologies have highlighted the need for development of new class of magnetics components (inductors, transformers etc) with lower footprint and higher efficiency. Presently, the sizes of these magnetic components have been limited due to the use of low flux density ferrite as a core material. In this paper, we present the assembly and working of a nanocrystalline thin film inductor with low loss performance as a replacement for ferrite based inductors. The performance of the thin film inductor is characterized in a commercial 500 kHz evaluation board. The paper also shows the significant reduction in footprint with the thin film inductor using an oxide as insulation between magnetic layers.
Keywords :
electromagnetic induction; nanostructured materials; power conversion; switching; thin film inductors; wide band gap semiconductors; core material; ferrite based inductors; frequency 500 kHz; high frequency power supplies; low flux density ferrite; low loss thin film magnetics; magnetic components; nanocrystalline thin film inductor; passive components; power conversion technologies; switching frequencies; wide bandgap semiconductor technologies; Ferrites; Inductance; Inductors; Magnetic cores; Metals; High efficiency thin film inductors; high frequency power supplies; nanocrystalline thin film cores; power electronics; thin film magnetics;
Conference_Titel :
Power Electronics and Applications (EPE'14-ECCE Europe), 2014 16th European Conference on
Conference_Location :
Lappeenranta
DOI :
10.1109/EPE.2014.6910731
