D.K. TSE, M.H.L. CHOW, M.K.H. CHEUNG, "A family of PFC voltage regulator configurations with reduced redundant power processing", IEEE Transactions on Power Electronics, Volume 16, Issue 6, November 2001, pp. 794-802.
Copyright - [Précédente] [Première page] [Suivante] - Home
Article : [ART309]
Titre : D.K. TSE, M.H.L. CHOW, M.K.H. CHEUNG, A family of PFC voltage regulator configurations with reduced redundant power processing, IEEE Transactions on Power Electronics, Volume 16, Issue 6, November 2001, pp. 794-802.
Cité dans : [DIV367] Les revues IEEE Transactions on Power Electronics, août 2013.
Cité dans :[REVUE363] IEEE Transactions on Power Electronics, Volume 16, Issue 6, November 2001.
Auteur : Tse, D.K.;
Auteur : Chow, M.H.L.;
Auteur : Cheung, M.K.H.
Volume : 16
Issue : 6
Date : November 2001
Pages : 794 - 802
Lien : private/Tse1.pdf - [PDF Full-Text (206 KB)]
Vers : Bibliographie
This paper discusses a systematic method for deriving
basic converter configurations that achieve power factor correction
(PFC) and voltage regulation. The discussion begins with a gen-eral
three-port representation of power supplies that provide PFC
and voltage regulation. Based on this representation and a power
flow consideration, a systematic procedure is derived to generate
all possible minimal configurations. Among these configurations,
only a few have been known previously and used in practice. It is
found that the efficiency of PFC voltage regulators can be improved
by reducing the amount of redundant power to be processed by the
constituent converters. A systematic circuit synthesis procedure is
proposed for creating PFC voltage regulators with reduced redun-dant
power processing. Experimental measurements verify the im-proved
Index_Terms : Circuit synthesis, power factor correction, switching converters, topologies.
References : 12
 : M. H. Kheraluwala, R. L. Steigerwald, and R. Gurmoorthy, "A fast response high power factor converter with a single power stage," IEEE PESC Rec., pp. 769-779, 1991.
 : M. Madigan, R. Erickson, and E. Ismail, "Integrated high-quality rectifier-regulators," IEEE PESC Rec., pp. 1043-1051, 1992.
 : Y. Jiang, G. Hua, W. Tang, and F. C. Lee, "A novel single phase power factor correction scheme," in Proc. IEEE APEC’93, 1993, pp. 287-291.
 : R. Redl, L. Balogh, and N. O. Sokal, "A new family of single-stage isolated power-factor correctors with fast regulation of the output voltage," IEEE PESC Rec., pp. 1137-1144, 1994.
 : R. Redl and L. Balogh, "Design consideration for single stage isolated power factor corrected power supplies with fast regulation of the output voltage," in Proc. IEEE APEC’94, 1994, pp. 569-575.
 : C. K. Tse, "Zero order switching networks and their applications to power factor correction," IEEE Trans. Circuits Syst. I, vol. 44, pp. 667-675, Aug. 1997.
 : K. Schenk and S. C ´ uk, "A single-switch single-stage active power factor corrector with high quality input and output," in Proc. IEEE PESC’97, 1997, pp. 385-391.
 : O. García, J. A. Cobos, P. Alou, R. Preito, J. Uceda, and S. Ollero, "New family of single stage AC/DC power factor correction converters with fast output voltage regulation," IEEE PESC Rec., pp. 536-542, 1997.
 : J. Qian, Q. Zhao, and F. C. Lee, "Single-stage single-switch power-factor-correction AC/DC converters with DC-bus voltage feedback for universal line applications," IEEE Trans. Power Electron., vol. 13, pp. 1079-1088, Nov. 1998.
 : M. H. L. Chow, C. K. Tse, and Y. S. Lee, "An efficient PFC voltage regulator with reduced redundant power processing," IEEE PESC Rec., pp. 87-92, 1999.
 : C. K. Tse and M. H. L. Chow, "A theoretical examination of circuit requirements of power factor correction," IEEE PESC Rec., pp. 1415-1421, 1998.
 : C. K. Tse and M. H. L. Chow, "Theoetical study of switching converters with power factor correction and output regulation," IEEE Trans. Circuits Syst. I, vol. 47, pp. 1047-1055, July 2000.
Mise à jour le lundi 10 avril 2023 à 18 h 46 - E-mail : email@example.com
Cette page a été produite par le programme TXT2HTM.EXE, version 10.7.3 du 27 décembre 2018.
Les informations contenues dans cette page sont à usage strict de Thierry LEQUEU et ne doivent être utilisées ou copiées par un tiers.
Powered by www.google.fr, www.e-kart.fr, l'atelier d'Aurélie - Coiffure mixte et barbier, La Boutique Kit Elec Shop and www.lequeu.fr.