Title :
Loss modeling of inductive components employed in power electronic systems
Author :
Muhlethaler, J. ; Kolar, J.W. ; Ecklebe, A.
Author_Institution :
Power Electron. Syst. Lab., ETH Zurich, Zurich, Switzerland
fDate :
May 30 2011-June 3 2011
Abstract :
Loss models of inductive components are thoroughly investigated, thereby all different aspects of loss modeling are considered. The impact of peak-to-peak flux density ΔB, frequency f, DC premagnetization HDC, temperature T, core shape, minor and major loops, flux waveform, and material on core loss calculation are considered. In order to calculate winding losses, formulas for round conductors and litz wires, each including skin- and proximity effects (including the influence of an air-gap fringing field) are included. A high level of accuracy is achieved by combining the best state-of-the-art approaches and by embedding newly-developed approaches into a novel loss calculation framework. The loss models are verified by FEM simulations and experimental measurements.
Keywords :
conductors (electric); finite element analysis; losses; power electronics; skin effect; wires (electric); DC premagnetization; FEM simulation; core loss material calculation; core shape; flux waveform; inductive component loss modeling; litz wire; major loop; minor loop; peak-to-peak flux density; power electronic system; proximity effect; round conductor; skin-effect; winding loss calculation; Conductors; Core loss; Loss measurement; Magnetic cores; Materials; Mathematical model; Windings;
Conference_Titel :
Power Electronics and ECCE Asia (ICPE & ECCE), 2011 IEEE 8th International Conference on
Conference_Location :
Jeju
Print_ISBN :
978-1-61284-958-4
Electronic_ISBN :
2150-6078
DOI :
10.1109/ICPE.2011.5944652
