Title :
Design and modeling of nanocrystalline iron core resonant transformers for pulsed power applications
Author :
Seltzman, Andrew H. ; Nonn, Paul D. ; Anderson, J.K.
Author_Institution :
Dept. Phys., Univ. of Wisconsin - Madison, Madison, WI, USA
Abstract :
A high power resonant three phase switch mode power supply has been constructed at University of Wisconsin to drive a klystron tube. Utilization of a resonant transformer with loosely coupled secondaries allows generation of high boost ratios exceeding the turns ratio while providing high efficiency. Use of nanocrystalline iron cores provides high volt seconds while maintaining low loss at high switching frequencies. Analytic models are developed and compared to measured data from two different size resonant transformers and effects of turns ratio, load resistance, and primary are examined and compared to theory.
Keywords :
klystrons; nanostructured materials; power transformers; pulsed power supplies; resonant power convertors; switching convertors; transformer cores; University of Wisconsin; high power resonant three phase switch mode power supply; klystron tube; load resistance; loosely coupled secondary transformer; nanocrystalline iron core resonant transformer; pulsed power application; switching frequency; turn ratio effect; Circuit faults; Inductance; Power transformer insulation; Resistance; Transformer cores; Windings; DC-DC power conversion; HF transformers; Resonant power conversion; klystrons; power conversion; power conversion harmonics; power systems; pulse generation; pulse width modulated inverters; pulse width modulated power converters; pulse width modulation; resonators; voltage transformers;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2013.6571430
