DocumentCode :
3673719
Title :
Figure of Merit of Semiconductor Structures Determination of the impact on the system efficiency of LLC converter
Author :
Boris Kozacek;Michal Frivaldsky;Juraj Kostal;Marek Piri
Author_Institution :
Department of Mechatronics and Electronics, University of Zilina, Institute of Electrical Engineering, Slovakia
fYear :
2015
Firstpage :
115
Lastpage :
120
Abstract :
This article has been realized in order to show simplified design procedure on how to meet the standards for dc-dc converters, which are being constantly increased. Hence we decided to analyze several generations of power semiconductor MOSFET and diode structures. With the use of simulation we´ve analyzed power losses (switching losses and conduction losses) during Zero Voltage Switching commutation mode. Parametric simulations were carried out at the conditions that meet electrical parameters of switched mode power supplies suited for distributed power systems. The aim of determination of switching losses at different conditions during ZVS mode is to see, whether determination of figure of merit (FOM) parameter can be considered as reliable indicator for proper device selection for target application. Consequently the FOM parameter for selected types of transistors and diodes in terms of several FOM methodologies has been determined. This parameter shall represent a measure of semiconductor suitability for high frequency power transistor application. The relevancy of FOM parameter will be finally evaluated in the way of efficiency (one of qualitative indicator) investigation of proposed LLC converter. Based on the evaluation of simulation analysis and on efficiency investigation of proposed LLC converter the confirmation of FOM relevancy will be confirmed.
Keywords :
"Semiconductor diodes","Zero voltage switching","Analytical models","Switching loss","MOSFET"
Publisher :
ieee
Conference_Titel :
Applied Electronics (AE), 2015 International Conference on
ISSN :
1803-7232
Print_ISBN :
978-8-0261-0385-1
Type :
conf
Filename :
7301069
Link To Document :
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