Title :
Minimizing winding losses in foil windings using field shaping techniques
Author :
Kutkut, Nasser H.
Author_Institution :
Soft Switching Technol. Corp., Middleton, WI, USA
Abstract :
High frequency foil windings offer a good solution to realize high power/high frequency magnetic components. The surface area available for cooling is quite large thus improving the thermal capacity of these windings and allowing higher current densities. However, at high frequencies, additional losses are incurred within foil windings due to the eddy currents induced by skin, proximity, fringing and other AC effects. In addition, the winding structure greatly affects the distribution of losses within the windings. This paper presents a technique to reduce high frequency AC losses in foil windings. By shaping and controlling the field distribution in a given foil design, the current distribution can be improved which results in an improvement in the winding losses
Keywords :
current distribution; high-frequency transformers; inductors; losses; magnetic variables control; skin effect; transformer windings; cooling; current distribution improvement; distribution losses; field distribution control; field distribution shaping; field shaping techniques; foil windings; fringing effect; high frequency AC losses reduction; high frequency magnetic components; high power magnetic components; higher current densities; impedance distribution; inductance distribution; inductors; proximity effect; skin effect; surface area; thermal capacity improvement; transformers; winding losses minimisation; Conductors; Current density; Differential equations; Equivalent circuits; Magnetic fields; Maxwell equations; Strips; Surface impedance; Surface resistance; Voltage;
Conference_Titel :
Power Electronics Specialists Conference, 1997. PESC '97 Record., 28th Annual IEEE
Conference_Location :
St. Louis, MO
Print_ISBN :
0-7803-3840-5
DOI :
10.1109/PESC.1997.616788
