Title :
Low Loss Magnetic Thin Films for Off-Line Power Conversion
Author :
Kulkarni, Santosh ; Dai Li ; Ningning Wang ; Roy, Sandip ; Mathuna, Cian O. ; Young, G. ; McCloskey, Paul
Author_Institution :
Microsyst. Center, Tyndall Nat. Inst., Cork, Ireland
Abstract :
Advances in wide bandgap semiconductors have facilitated an increase in switching frequencies of power supplies. Higher switching frequencies are key to reducing the size of power components. However, miniaturization of magnetic passive components at high frequencies is still a challenge. Soft magnetic high flux density thin films are being widely researched as a replacement for ferrite cores. The existing thin film solutions have an inferior power loss performance compared to the best-in-class ferrites (500-600 kW/m3 at 500 kHz and 100 mT peak field) for the same frequency. In this paper, we discuss details of a post-processing technique for nanocrystalline thin film to achieve a power loss density of 200 kW/m3 at 500 kHz with peak flux density of 100 mT.
Keywords :
eddy current losses; magnetic flux; magnetic switching; magnetic thin films; nanomagnetics; nanostructured materials; semiconductor thin films; soft magnetic materials; wide band gap semiconductors; ferrite cores; low-loss magnetic thin films; magnetic passive components; miniaturization; nanocrystalline thin film; off-line power conversion; power components; power loss density; soft magnetic high-flux density thin films; switching frequencies; wide bandgap semiconductors; Couplings; Eddy currents; Ferrites; Loss measurement; Magnetic cores; Magnetic hysteresis; Ferrites; high flux density thin films; low power loss density passives; magnetic core losses; power electronics;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2288791
