Title :
Modeling of quantum parallel resonant converters-a new parallel resonant converters controlled by integral cycle mode
Author :
Joung, Gyu B. ; Cho, Gyu H.
Author_Institution :
Dept. of Electr. Eng., Korea Adv. Inst. of Sci. & Technol., Seoul, South Korea
Abstract :
Quantum parallel resonant converters (QPRCs), a dual converter of quantum series resonant converters (QSRCs), and a subset of parallel resonant converters (PRCs) operating on zero-voltage switching conditions are modeled. It is shown that the QPRC can be operated as a Cuk converter with an equivalent capacitor, or as a buck or buck-boost converter with an additional equivalent capacitor. The approach to modeling these converters is verified by analysis and simulation results for the PRC. DC and AC characteristics of the quantum PRCs can be obtained from these models. Therefore, the QPRC can be designed to be similar to the QSRC, i.e. to be controlled with closed-loop feedback and to have advantages such as low device switching stress, reliable high-frequency operation, low electromagnetic interference, etc
Keywords :
closed loop systems; feedback; power convertors; AC characteristics; Cuk converter; DC characteristics; buck convertors; buck-boost converter; closed-loop feedback; dual converter; equivalent capacitor; high-frequency operation; integral cycle mode; low device switching stress; low electromagnetic interference; quantum parallel resonant converters; simulation results; zero-voltage switching; Capacitors; Inductors; Partial response channels; Resonance; Stress control; Switches; Switching converters; Switching loss; Voltage control; Zero voltage switching;
Conference_Titel :
Power Electronics Specialists Conference, 1989. PESC '89 Record., 20th Annual IEEE
Conference_Location :
Milwaukee, WI
DOI :
10.1109/PESC.1989.48555
