S. SINGER, R. ERICKSON, "Canonical Modeling of Power Processing Circuits Based on the POPI Concept," IEEE Transactions on Power Electronics, vol. 7, no. 1, January 1992.

S. SINGER, R. ERICKSON, "Canonical Modeling of Power Processing Circuits Based on the POPI Concept," IEEE Transactions on Power Electronics, vol. 7, no. 1, January 1992. Copyright - [Précédente] [Première page] [Suivante] - Home

Article : [99ART087]

Titre : S. SINGER, R. ERICKSON, Canonical Modeling of Power Processing Circuits Based on the POPI Concept, IEEE Transactions on Power Electronics, vol. 7, no. 1, January 1992.

Cité dans :[99DIV045] Recherche sur l'auteur Sigmund SINGER, 20 août 1999.

Auteur : Singer S. (Tel-Aviv Univ, Dep of Interdisciplinary Studies,Tel-Aviv, Isr)
Auteur : Erickson R.

Source : IEEE Transactions on Power Electronics, vol. 7, no. 1.
Date : January 1992.
Info : COMPENDEX Answer Number 19
Stockage : Thierry LEQUEU
Lien : private/Singer3.pdf - 471 Ko.
Pages : 37 - 43
ISSN : 0885-8993

Abstract :
The fundamental power-processing properties of switching
converter circuits are modeled using generalized
power-conservative (POPI) networks. Depending on the application,
it may be most appropriate to model the first-order converter
properties as those of an ideal transformer, gyrator, loss-free
resistor, or other POPI network. These basic functions can be
obtained either through selection of a topology that naturally
possesses the desired characteristics or by addition of a
suitable control network. Some well-known converter topologies
are shown to behave naturally as gyrators, loss-free resistors,
and constant power networks. The application of the gyrator to
network two voltage sources and the use of the loss-free resistor
as a unity power factor rectifier are described.<>

Subject_terms :
canonical modelling; power conservative network; power processing
circuits; POPI concept; switching converter circuits; ideal
transformer; gyrator; loss-free resistor; converter topologies;
unity power factor rectifier; gyrators; nonlinear network
analysis; power convertors; resistors; switching circuits;
transformers

Accession_Number : 4140545

References : 13

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