M. NAGAO, K. HARADA, "Effects on commutation elements in inductor commutation soft-switched PWM inverter and its design equations", IEEE Transactions on Power Electronics, Volume 16, Issue 6, November 2001, pp. 858-865.
Copyright - [Précédente] [Première page] [Suivante] - Home
Article : [ART310]
Titre : M. NAGAO, K. HARADA, Effects on commutation elements in inductor commutation soft-switched PWM inverter and its design equations, IEEE Transactions on Power Electronics, Volume 16, Issue 6, November 2001, pp. 858-865.
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 : Nagao, M.;
Auteur : Harada, K.
Volume : 16
Issue : 6
Date : November 2001
Pages : 858 - 865
Lien : private/Nagao1.pdf - [PDF Full-Text (233 KB)]
Vers : Bibliographie
Abstract :
The inductor commutation soft-switched PWM
inverter (ICSI) and ICSI driven by frequency modulated PWM
signal (FM-ICSI) are analyzed, considering the effects on the
commutation elements for the soft switching. From the analysis,
the design equations for the commutation elements is clarified and
these are verified experimentally.
Index_Terms : Frequency-modulated PWM, inductor commutation, soft-switched PWM inverter, ZCS, ZVS.
References : 15
[1] : D. M. Divan and G. Skibinski, "Zero switching loss inverters for high power applications," ITS Rec., 1987.
[2] : J. S. Lai and B. K. Bose, "Induction motor drive using an improved high frequency resonant DC link inverter," IEEE Trans. Power Electron., vol. 6, pp. 504-513, July 1991.
[3] : S. H. Yang, S. Takizawa, S. Kondo, and F. Harashima, "Realization of the powering/regenerative operation of the induction motor by the parallel resonant power converter and proposal of a novel circuit topology," Trans. Inst. Elect. Eng. Jpn., vol. 113-D, pp. 49-56, Jan. 1993.
[4] : J. G. Cho, D. Y. Hu, and G. H. Cho, "Three phase sine wave voltage source inverter using the soft switched resonant poles," in Proc. IECON, Nov. 1989, pp. 48-53.
[5] : A. Cheriti, et al., "A variable frequency soft commutated voltage source inverter delivering sinusoidal waveforms," IEEE Trans. Ind. Applicat. Syst., pp. 697-702, Oct. 1990.
[6] : H. Matsuo, K. IIda, T. Koga, and K. Harada, "Analysis of the improved soft-commutated PWM inverter by using an AC current transformer," in Proc. IEEE PESC’94, June 1994, pp. 719-726.
[7] : M. Nagao, S. Egami, and K. Harada, "Zero voltage switching for PWM inverter using zero current switching at turn-on," in Proc. 1993 Nat. Con. Rec. IEE Jpn., vol. 48, Aug. 1993, pp. 207-210.
[8] : , "Sine wave PWM inverter using zero current switching at turn-on," Trans. Inst. Elect. Eng. Jpn., vol. 114-D, no. 2, pp. 129-136, Feb. 1994.
[9] : M. Nagao, S. Watanabe, and K. Harada, "Efficiency improvement by frequency modulation of carrier signal for inductor commutation soft-switched PWM inverter," in Proc. IEICE Jpn. C-II, vol. 5, May 1996, J79-C-II, pp. 161-169.
[10] : M. Nagao and K. Harada, "Inductor commutation soft-switched PWM inverter driven by frequency-modulated PWM signal," IEEE Trans. Power Electron., vol. 13, pp. 67-74, Jan. 1998.
[11] : , "Design of commutation elements in inductor commutation soft switched PWM inverter," Trans. Inst. Elect. Eng. Jpn., vol. 117-D, no. 12, pp. 1441-1448, Nov. 1997.
[12] : , "Effects on commutation elements and its design in inductor commutation soft switched PWM inverter," in Proc. IEEE PESC’98 Rec., June 1998, pp. 478-484.
[13] : H. Fujita and H. Akagi, "A zero-current-switching based three-phase PWM inverter," Trans. Inst. Elect. Eng. Jpn., vol. 114-D, no. 5, pp. 561-566, May 1994.
[14] : R. W. De Doncker and J. P. Lyons, "The auxiliary resonant commutated pole converter," IEEE Trans. Ind. Applicat. Syst., pp. 1228-1235, 1990.
[15] : H. Matsuo, K. Iida, and K. Harada, "High power soft switching PWM AC auxiliary power supply system of the electric railway rolling stock and its deadbeat control," in Proc. IEEE PESC’95 Rec., June 1995, pp. 258-263.
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.
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.