Title :
A multiwinding modeling method for high frequency transformers and inductors
Author :
Lopera, Juan Manuel ; Prieto, Miguel Jose ; Pernia, Alberto Martin ; Nuno, Fernando
Author_Institution :
Electron. Technol. Dept., Univ. de Oviedo, Gijon, Spain
fDate :
5/1/2003 12:00:00 AM
Abstract :
This paper presents a method to obtain an electric model for transformers and inductors, including both frequency and geometry effects in the windings, which can be linked with existing core models. One-dimensional distributions for magnetic and electric fields are assumed, and from Maxwell´s equations an equivalent electric circuit is easily obtained. This equivalent circuit has been included in analog simulators (Spice, AnalogWorkBench, Saber ...), and comparisons between measured and simulated results are shown, both in time domain and in AC sweep, which verify the model accuracy. The model described in this paper allows designers to deal with key issues in the design of high-frequency magnetic components (copper losses, leakage inductance, skin and proximity effects) by using analog simulators, which are usually more familiar to them than finite-element analysis tools.
Keywords :
electrical engineering computing; electromagnetic fields; equivalent circuits; high-frequency transformers; inductors; transformer windings; AC sweep; EM fields; Maxwell´s equations; analog simulators; computer simulation; copper losses; core models; equivalent electric circuit; frequency effects; geometry effects; high frequency inductors; high frequency transformers; high-frequency magnetic components; leakage inductance; multiwinding modeling method; one-dimensional distributions; proximity effects; skin effects; time domain; Circuit simulation; Electric fields; Frequency; Geometry; Inductors; Magnetic cores; Magnetic domains; Maxwell equations; Solid modeling; Transformer cores;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2003.810839
