In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for frequencies up to half the switching frequency. The new model is obtained by using the sampled-data modeling combined with the usual small-signal linearization of the average model of the converter power stage. All of the main dynamic characteristics of one-cycle control are correctly predicted by the proposed model; the reference-to-output transfer function of the system is also given. The theoretical predictions are confirmed by the results of suitable numerical simulations and laboratory experiments on a one-cycle controlled buck switching converter operating both in CCM and DCM
Dynamic Model of One-Cycle control for converters operating in CCM and DCM
EGIZIANO, Luigi;FEMIA, Nicola;FORTUNATO, MARIO;SPAGNUOLO, Giovanni;PETRONE, GIOVANNI;
2006
Abstract
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for frequencies up to half the switching frequency. The new model is obtained by using the sampled-data modeling combined with the usual small-signal linearization of the average model of the converter power stage. All of the main dynamic characteristics of one-cycle control are correctly predicted by the proposed model; the reference-to-output transfer function of the system is also given. The theoretical predictions are confirmed by the results of suitable numerical simulations and laboratory experiments on a one-cycle controlled buck switching converter operating both in CCM and DCMI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
