M.M. JOVANOVIC, "A Technique for Reducing Rectifier Reverse-Recovery-Related Losses in High-Power Boost Converters", IEEE Transactions on Power Electronics, Vol. 13, No. 5, September 1998, pp. 932-941.
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Article : [ART409]
Titre : M.M. JOVANOVIC, A Technique for Reducing Rectifier Reverse-Recovery-Related Losses in High-Power Boost Converters, IEEE Transactions on Power Electronics, Vol. 13, No. 5, September 1998, pp. 932-941.
Cité dans :[REVUE402] IEEE Transactions on Power Electronics, Volume 13, Issue 5, September 1998.
Cité dans : [DIV367] Les revues IEEE Transactions on Power Electronics, août 2013.
Auteur : Milan M. Jovanovic
Source : IEEE Transactions on Power Electronics
Volume : 13
Issue : 5
Date : September 1998
Pages : 932 - 941
Stockage : Thierry LEQUEU
Lien : private/JOVANOVIC1.pdf - 275 Ko, 10 pages.
Abstract :
A circuit technique that reduces the boost-converter
losses caused by the reverse-recovery current of the rectifier is
described. The losses are reduced by inserting an inductor in
the series path of the boost switch and rectifier to control the
di=dt di=dt di=dt rate of the rectifier during its turn off. The energy from
the inductor after the boost switch turn off is returned to the
input or delivered to the output via an active snubber.
Index-Terms : Active snubber, boost converter, power factor correction, reverse-recovery loss, zero-voltage switching.
REFERENCES : 11
[1] : Y. Khersonsky, M. Robinson, and D. Gutierrez, "New fast recovery diode technology cuts circuit losses, improves reliability," Power Con-version & Intelligent Motion (PCIM) Magazine, vol. 18, no. 5, pp. 16-25, May 1992.
[2] : R. Streit and D. Tollik, "High efficiency telcom rectifier using a novel soft-switched boost-based input current shaper," in Int. Telecommunica-tion Energy Conf. (INTELEC) Proc., Oct. 1991, pp. 720-726.
[3] : G. Hua, C. S Leu, and F. C. Lee, "Novel zero-voltage-transition PWM converters," in IEEE Power Electronics Specialists’ Conf. (PESC) Rec., June 1992, pp. 55-61.
[4] : J. Bassett, "New, zero voltage switching, high frequency boost converter topology for power factor correction," in Int. Telecommunication Energy Conf. (INTELEC) Proc., 1995, pp. 813-820.
[5] : C. M. C. Duarte and I. Barbi, "A new family of ZVS-PWM active-clamping dc-to-dc boost converters: Analysis, design, and experimenta-tion," in Int. Telecommunication Energy Conf. (INTELEC) Proc., 1996, pp. 305-312.
[6] : K. Harada and H. Sakamoto, "Switched snubber for high frequency switching," in IEEE Power Electronics Specialists’ Conf. (PESC) Rec., June 1990, pp. 181-188.
[7] : P. Vinciarelli, "Optimal resetting of the transformer’s core in single ended forward converters," U.S. Patent 4 441 146, Apr. 3, 1984.
[8] : B. Carsten, "Design techniques for transformer active reset circuits at high frequencies and power levels," in High Frequency Power Conversion (HFPC) Conf. Proc., 1990, pp. 235-246.
[9] : R. Watson, F. C. Lee, and G. C. Hua, "Utilization of an active-clamp circuit to achieve soft switching in yback converters," IEEE Trans. Power Electron., vol. 11, no. 1, pp. 162-169, 1996.
[10] : M. van der Berg and J. A. Ferreira, "A family of low EMI, unity power factor correctors," in IEEE Power Electronics Specialists’ Conf. (PESC) Rec., June 1996, pp. 1120-1127.
[11] : K. M. Smith and K. M. Smedley, "A comparison of voltage mode soft switching methods for PWM converters," in IEEE Applied Power Electronics Conf. (APEC) Proc., Mar. 1996, pp. 291-298.
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