Y. XUE, L. CHANG, S.B. KJAER, J. BORDONAU, T. SHIMIZU, "Topologies of Single-Phase Inverters for Small Distributed Power Generators: An Overview", IEEE Transactions on Power Electronics, Volume 19, Issue 5, September 2004.
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Article : [ART585]
Titre : Y. XUE, L. CHANG, S.B. KJAER, J. BORDONAU, T. SHIMIZU, Topologies of Single-Phase Inverters for Small Distributed Power Generators: An Overview, IEEE Transactions on Power Electronics, Volume 19, Issue 5, September 2004.
Cité dans :[REVUE535] IEEE Transactions on Power Electronics, Volume 19, Issue 5, September 2004.
Cité dans : [DIV367] Les revues IEEE Transactions on Power Electronics, août 2013.
Cité dans :[THESE133]
Auteur : Xue, Y.
Auteur : Chang, L.
Auteur : Kjaer, S.B.
Auteur : Bordonau, J.
Auteur : Shimizu, T.
Volume : 19
Issue : 5
Date : Sept. 2004
Pages : 1305 - 1314
Lien : private/Xue1.pdf - 321 Ko, 10 pages.
Vers : Bibliographie
Abstract : This paper presents an overview of single-phase
inverters developed for small distributed power generators. The
functions of inverters in distributed power generation (DG) sys-tems
include dc-ac conversion, output power quality assurance,
various protection mechanisms, and system controls. Unique
requirements for small distributed power generation systems
include low cost, high efficiency and tolerance for an extremely
wide range of input voltage variations. These requirements
have driven the inverter development toward simpler topologies
and structures, lower component counts, and tighter modular
design. Both single-stage and multiple-stage inverters have been
developed for power conversion in DG systems. Single-stage
inverters offer simple structure and low cost, but suffer from a
limited range of input voltage variations and are often charac-terized
by compromised system performance. On the other hand,
multiple-stage inverters accept a wide range of input voltage
variations, but suffer from high cost, complicated structure and
low efficiency. Various circuit topologies are presented, compared,
and evaluated against the requirements of power decoupling
and dual-grounding, the capabilities for grid-connected or/and
stand-alone operations, and specific DG applications in this paper,
along with the identification of recent development trends of
single-phase inverters for distributed power generators.
Index-Terms : Distributed power generation, multiple-stage inverters, single-phase inverters, single-stage inverters.
REFERENCES : 24
[1] : B. K. Bose, "Energy, environment, and advances in power electronics," IEEE Trans. Power Electron., vol. 15, pp. 688-701, July 2000.
[2] : T. G. Wilson, "The evolution of power electronics," IEEE Trans. Power Electron., vol. 15, pp. 439-446, May 2000.
[3] : T. Boutot and L. Chang, "Development of a single-phase inverter for small wind turbines," in Proc. IEEE Electrical and Computer Engineering Canadien Conf. (CCECE’98), Waterloo, ON, Canada, May 24-28, 1998, pp. 305-308.
[4] : R. O. Cáceres and I. Barbi, "A boost dc-ac converter: analysis, design, and experimentation," IEEE Trans. Power Electron., vol. 14, pp. 134-141, Jan. 1999.
[5] : N. Vázquez, J. Almazan, J. Álvarez, C. Aguilar, and J. Arau, "Analysis and experimental study of the buck, boost and buck-boost inverters," in Proc. IEEE PESC’99, Charleston, SC, June 27-July 1 1999, pp. 801-806.
[6] : N. Kasa, T. Iida, and H. Iwamoto, "An inverter using buck-boost type chopper circuits for popular small-scale photovoltaic power system," in Proc. IEEE IECON’99, San Jose, CA, Nov./Dec. 1999, pp. 185-190.
[7] : M. Nagao and K. Harada, "Power flow of photovoltaic system using buck-boost PWM power inverter," in Proc. IEEE PEDS’97, Singapore, May 26-29, 1997, pp. 144-149.
[8] : M. Kusakawa, H. Nagayoshi, K. Kamisako, and K. Kurokawa, "Further improvement of a transformerless, voltage-boosting inverter for ac mod-ules," Solar Energy Mater. Solar Cells, vol. 67, pp. 379-387, Mar. 2001.
[9] : S. Funabiki, T. Tanaka, and T. Nishi, "A new buck-boost-operation-based sinusoidal inverter circuit," in Proc. IEEE PESC’02, Cairns, Aus-tralia, June 23-27, 2002, pp. 1624-1629.
[10] : J. M. A. Myrzik, "Novel inverter topologies for single-phase stand-alone or grid-connected photovoltaic systems," in Proc. IEEE PEDS’01, Oct. 22-25, 2001, pp. 103-108.
[11] : Z. Yang and P. C. Sen, "A novel switch-mode dc-to-ac inverter with non-linear robust control," IEEE Trans. Ind. Electron., vol. 45, pp. 602-608, Aug. 1998.
[12] : S. Saha and V. P. Sundarsingh, "Novel grid-connected photovoltaic in-verter," Proc. Inst. Elect. Eng., vol. 143, pp. 219-224, Mar. 1996.
[13] : B. K. Bose, P. M. Szczesny, and R. L. Steigerwald, "Microcomputer control of a residential photovoltaic power conditioning system," IEEE Trans. Ind. Applicat., vol. IA-21, pp. 1182-1191, Sept./Oct. 1985.
[14] : M. D. Bellar, T.-S. Wu, A. Tchamdjou, J. Mahdavi, and M. Ehsani, "A review of soft-switched dc-ac converters," IEEE Trans. Ind. Applicat., vol. 34, pp. 847-860, Jul./Aug. 1998.
[15] : C.-M. Wang, "A novel single-stage full-bridge buck-boost inverter," in Proc. IEEE APEC’03, Miami Beach, FL, Feb. 9-13, 2003, pp. 51-57.
[16] : F.-S. Kang, C.-U. Kim, S.-J. Park, and H.-W. Park, "Interface circuit for photovoltaic system based on buck-boost current-source PWM in-verter," n Proc. IEEE IECON’02, Seville, Spain, Nov. 5-8, 2002, pp. 3257-3261.
[17] : K. Chomsuwan, P. Prisuwanna, and V. Monyakul, "Photovoltaic grid-connected inverter using two-switch buck-boost converter," in Proc. 29th IEEE Photovoltaic Specialists Conf., New Orleans, LA, May 19-24, 2002, pp. 1527-1530.
[18] : S. B. Kaer and F. Blaabjerg, "A novel single-stage inverter for the ac-module with reduced low-frequency ripple penetration," in Proc. 10th EPE European Conf. Power Electronics and Applications, Toulouse, France, Sept. 2-4, 2003.
[19] : T. Shimizu, K. Wada, and N. Nakamura, "A flyback-type single phase utility interactive inverter with low-frequency ripple current reduction on the dc input for an ac photovoltaic module system," in Proc. IEEE PESC’02, Cairns, Australia, June 23-27, 2002, pp. 1483-1488.
[20] : S. B. Kjaer and F. Blaabjerg, "Design optimization of a single phase in-verter for photovoltaic applications," in Proc. IEEE PESC’03, Acapulco, México, June 15-19, 2003, pp. 1183-1190.
[21] : A. Beristáin, J. Bordonau, A. Gilabert, and G. Velasco, "Synthesis and modulation of a single phase dc/ac converter with high frequency isola-tion in photovoltaic energy applications," in Proc. IEEE PESC’03, Aca-pulco, México, June 15-19, 2003, pp. 1191-1196.
[22] : Standard for interconnecting distributed resources with electric power systems, STD 1547, June 2003.
[23] : International Energy Outlook 2003, [Online] Available: http://www.eia.doe.gov/oiaf/ieo/electricity.html , May 2003.
[24] : S. Saha and V. P. Sundarsingh, "Grid connected photovoltaic inverter as an industrial product," Eur. Polymer Fed., pp. 46-51, Oct. 1996.
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