Title :
Modeling of capacitor impedance in switching converters
Author :
Kimball, Jonathan W. ; Krein, Philip T. ; Cahill, Kevin R.
Author_Institution :
Grainger Center for Electr. Machinery & Electromech., Univ. of Illinois, Urbana, IL, USA
Abstract :
Switched capacitor (SC) converters are gaining acceptance as alternatives to traditional, inductor-based switching power converters. Proper design of SC converters requires an understanding of all loss sources and their impacts on circuit operation. In the present work, an equivalent resistance method is developed for analysis, and equivalent resistance formulae are presented for various modes of operation. Quasiresonant converters are explored and compared to standard SC converters. Comparisons to inductor-based switching power converters are made. A number of capacitor technologies are evaluated and compared for applications to both SC converters and inductor-based converters. The resulting model can be used to accurately predict and optimize converter performance in the design phase.
Keywords :
circuit optimisation; resonant power convertors; switched capacitor networks; switching convertors; capacitor impedance modeling; equivalent resistance method; inductor-based converters; optimization; power converter; quasi-resonant converter; switched capacitor converters; switching power converters; Capacitors; Circuits; Design optimization; Frequency conversion; Impedance; Predictive models; Switches; Switching converters; Topology; Voltage; Capacitor model; converter model; quasiresonant; switched capacitor;
Journal_Title :
Power Electronics Letters, IEEE
DOI :
10.1109/LPEL.2005.863603
