Title :
A large-signal model for the PRC-LCC resonant topology with a capacitor as output filter
Author :
Martin-Ramos, J.A. ; Diaz, J. ; Pernia, Alberto M. ; Prieto, M.J. ; Linera, F.F.
Author_Institution :
A.T.E, Univ. de Oviedo, Gijon, Spain
Abstract :
In this paper, two mathematical models are presented to approximate, accurately enough, the large signal dynamical behaviour and the steady state behaviour of the PRC-LCC resonant topology with a capacitor as output filter. The method used to obtain these models is based on applying of the extended describing function and the generalised averaging modelling techniques. Therefore, the evolution of the topology waveforms, most of them sinusoidal, is approximated by their corresponding envelope. These envelopes are expressed by a set of nonlinear differential equations which are solved numerically with the help of a computer. The resulting algorithm is faster than a straight PSpice simulation and free of convergence problems. Finally, the good concordance between the models and the practice is verified with a wide set of experimental results.
Keywords :
SPICE; capacitors; nonlinear differential equations; resonant power convertors; PRC-LCC resonant topology; PSpice simulation; capacitor; convergence problems; extended describing function; generalised averaging modelling techniques; large signal dynamical behaviour; large-signal model; mathematical models; nonlinear differential equations; output filter; steady state behaviour; topology waveforms evolution; Capacitors; Differential equations; Electronic mail; Filters; Mathematical model; Nonlinear equations; Resonance; Steady-state; Topology; Voltage;
Conference_Titel :
Power Electronics Congress, 2002. Technical Proceedings. CIEP 2002. VIII IEEE International
Print_ISBN :
0-7803-7640-4
DOI :
10.1109/CIEP.2002.1216636
