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.
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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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