Title :
Winding design of a high power medium frequency transformer
Author :
Iyer, Kartik V. ; Robbins, William P. ; Mohan, Ned
Abstract :
The availability of improved magnetic materials and higher voltage rating semiconductor devices have made the design of high power medium frequency transformers feasible. The paper presents a simple design procedure to determine the core dimensions based on the area product method. A winding design procedure to use foil conductors in the high voltage side to achieve ac-to-dc resistance ratio close to 1 is also shown, providing a possible replacement to the litz wires having low window utilization factor. The paper demonstrates a design example of 13.8kV/690V, 10kHz, 50kVA transformer to validate the design methodology and the winding losses are validated using 2-D FEM.
Keywords :
design engineering; finite element analysis; magnetic materials; power semiconductor devices; transformer windings; wires (electric); 2D FEM; AC-to-DC resistance ratio; apparent power 50 kVA; area product method; core dimension determination; finite element method; foil conductors; frequency 10 kHz; high power medium frequency transformer; litz wires; magnetic materials; voltage 13.8 kV; voltage rating semiconductor devices; winding design procedure; winding losses; window utilization factor; Circuit faults; Conductors; Power electronics; Power transformers; Resistance; Transformer cores; Windings;
Conference_Titel :
Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 2014 International Symposium on
Conference_Location :
Ischia
DOI :
10.1109/SPEEDAM.2014.6871956
