S. HAMADA, M. NAKAOKA, "A novel zero-voltage and zero-current switching PWM DC-DC converter with reduced conduction losses", IEEE Transactions on Power Electronics, Volume 17, Issue 3, May 2002, pp. 413-419.
Copyright - [Précédente] [Première page] [Suivante] - Home

Article : [ART272]

Titre : S. HAMADA, M. NAKAOKA, A novel zero-voltage and zero-current switching PWM DC-DC converter with reduced conduction losses, IEEE Transactions on Power Electronics, Volume 17, Issue 3, May 2002, pp. 413-419.

Cité dans :[REVUE345] IEEE Transactions on Power Electronics, Volume 17, Issue 3, May 2002.
Cité dans : [DIV007]  Classement par type de Congrés et de revues IEEE, avril 2003.
Cité dans :[ART603]
Auteur : Satoshi Hamada
Auteur : Mutsuo Nakaoka

Source : IEEE Transactions on Power Electronics
Volume : 17
Issue : 3
Date : May 2002
Pages : 413 - 419
Stockage : Thierry LEQUEU
Lien : private/Nakaoka1.pdf - 333 Ko, 7 pages.
Vers : Bibliographie

Abstract :
A novel zero-voltage and zero-current switching
PWM dc-dc converter with low conduction losses is presented in
this paper. A new interleaved two-switch forward soft-switching
converter topology is developed to minimize circulating current
with no additional auxiliary circuits. This converter has many
advantages such as less components, better efficiency, high power
density and cost effective for high power applications. The prin-ciple
of operation is illustrated together with steady-state analysis.
Moreover, the effectiveness of the proposed converter topology
is verified by implementing a 500 W-100 kHz breadboard using IGBTs.

Index_Terms : Circulating current, conduction losses, dc-dc converter, tapped inductor, zero-current, zero-voltage.


Bibliographie

TOP

REFERENCES : 12
[1] : T. M. Undeland, "Snubbers for pulse width modulated bridge converters with power transistors or GTOs", Proc. Int. Power Electron. Conf. (IPEC’83), pp. 313–323, Mar. 1983.
[2] : O. D. Patterson and D. M. Divan, "Pseudo-resonant full bridge dc/dc converter", in Proc. IEEE PESC Conf., June 1987, pp. 424-430.
[3] : J. A. Sabate, V. Vlatkovic, R. B. Ridley, F. C. Lee, and B. H. Cho, "Design considerations for high-voltage high-power full-bridge zero-voltage switchied PWM converter", Proc. IEEE, pp. 275–284, Mar. 1990.
[4] : S. Hamada, Y. Ogino, and M. Nakaoka, "Saturable reactor assisted soft-switching full-bridge dc-dc power converters", Proc. Inst. Elect. Eng. B, vol. 138, no. 2, pp. 95–103, 1991.
[5] : S. Hamada, Y. Maruyama, and M. Nakaoka, "Saturable reactor assisted soft-switching technique in PWM dc-dc converters", in Proc. IEEE PESC Conf., June 1992, pp. 93–100.
[6] : S. Hamada, M. Michihira, and M. Nakaoka, "Using a tapped inductor for reducing conduction losses in a soft-switching PWM dc-dc con-verter", in Proc. Eur. Conf. Power Electron. Appl. (EPE), Sept. 1993, pp. 130–134.
[7] : J. G. Cho, G. H. Rim, and F. C. Lee, "Zero voltage and zero current switching full bridge PWM converter using secondary active clamp", in Proc. IEEE PESC Conf., June 1996, pp. 657–663.
[8] : J. G. Cho, J. W. Baek, C. Y. Jeong, D. W. Yoo, and K. Y. Joe, "Novel zero-voltage and zero-current-switching full bridge PWM converter using transformer auxiliary winding", IEEE Trans. Power Electron., vol. 15, pp. 250–257, Mar. 2000.
[9] : E.-S. Kim, K.-Y. Joe, M.-H. Kye, Y.-H. Kim, and B.-D. Yoon, "An im-proved soft-switching PWMFB dc/dc converter for reducing conduction losses", IEEE Trans. Power Electron., vol. 14, pp. 258–263, Mar. 1999.
[10] : F. Piccirillo and C. Occhiena, "Off-line switching rectifier for energy plant", in Proc. IEEE INTELEC Conf., Oct. 1989, pp. 1-5.
[11] : S. H. Woo, Y. S. Sun, and H. M. Lee, "A 50 V/100 Amp high frequency switch mode rectifier unit and its application to digital switching system", in Proc. IEEE INTELEC Conf., Oct. 1989, pp. 1–5.
[12] : S. Hamada, T. Morimoto, T. Matsushige, and M. Nakaoka, "A new inverter topology of high-efficient soft-switching PWM dc-dc converter", in Proc. IEEE PESC Conf., June 2000, pp. 597–603.


Mise à jour le lundi 10 avril 2023 à 18 h 46 - E-mail : thierry.lequeu@gmail.com
Cette page a été produite par le programme TXT2HTM.EXE, version 10.7.3 du 27 décembre 2018.

Copyright 2023 : TOP

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.