H. ERTL, J.W. KOLAR, F.C. ZACH, "A novel multicell DC-AC converter for applications in renewable energy systems", IEEE Transactions on Industrial Electronics, Vol. 49, No. 5, October 2002, pp. 1048-1057.
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Titre : H. ERTL, J.W. KOLAR, F.C. ZACH, A novel multicell DC-AC converter for applications in renewable energy systems, IEEE Transactions on Industrial Electronics, Vol. 49, No. 5, October 2002, pp. 1048-1057.

Cité dans :[REVUE392] IEEE Transactions on Industrial Electronics, Volume 49, Issue 5, October 2002.
Cité dans : [DIV484]  Recherche sur les mots clés HYDROGENE, PANNEAU SOLAIRE, EOLIENNE, SUPERCAPACITE, HYBRID VEHICLES et ENERGIE RENOUVELABLE, janvier 2011.
Cité dans : [DIV189]  Recherche sur l'auteur Thierry MEYNARD, mai 2003.
Auteur : Ertl, H.
Auteur : Kolar, J.W.
Auteur : Zach, F.C. - Power Electron. Sect., Wien Univ., Vienna;

Source : IEEE Transactions on Industrial Electronics
Pages : 1048 - 1057
Volume : 49
Issue : 5
Date : October 2002
ISSN : 0278-0046
INSPEC Accession Number: 7413698
Stockage : Thierry LEQUEU, le 15 mai 2003.
Lien : private/ERTL1.pdf - 10 pages, 369 Ko.

Vers : Bibliographie

Abstract :
This paper presents a novel DC-AC converter for applications in the area of
distributed energy generation systems, e.g., solar power systems, fuel-cell power
systems in combination with supercapacitor or battery energy storage. The
proposed converter is realized using an isolated multicell topology where the total
AC output of the system is formed by series connection of several full-bridge
converter stages. The DC links of the full bridges are supplied by individual DC-DC
isolation stages which are arranged in parallel concerning the dc input of the. total
system. Therefore, all switching cells of the proposed converter can be equipped
with modern low-voltage high-current power MOSFETs, which results in an
improved efficiency as compared to conventional isolated DC-AC converters.
Furthermore, the cells are operated in an interleaved pulsewidth-modulation mode
which, in connection with the low voltage level of each cell, significantly reduces
the filtering effort on the AC output of the overall system. The paper describes the
operating principle, analyzes the fundamental relationships which are relevant for
component selection, and presents a specific circuit design. Finally, measurements
taken from a 2-kW laboratory model are presented.

Index-Terms :
DC-AC power convertors PWM power convertors invertors photovoltaic power systems
power MOSFET 2 kW DC-AC converter battery energy storage distributed energy
generation systems fuel-cell power systems interleaved pulsewidth modulation isolated
multicell topology low-voltage high-current power MOSFETs multicell DC-AC converter
multicell converter renewable energy systems series connection series-resonant topology
solar power systems supercapacitor total AC output


Bibliographie

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References : 18
[1] : C. F. Nayar, S. M. Islam, and H. Sharma, "Power electronics for renewable energy sources," in Power Electronics Handbook, M. H. Rashid, Ed. New York: Academic, 2001, ch. 23.
[2] : N. Mohan, T. M. Undeland, and W. P. Robbins, Power Electronics, 2nd ed. New York: Wiley/Academic, 1995, ch. 17-4.
[3] : R. L. Steigerwald, A. Ferraro, and G. F. Turnbull, "Application of power transistors to residential and intermediate rating photovoltaic array power conditioners," IEEE Trans. Power Electron., vol. 19, pp. 254-267, Mar./Apr. 1983.
[4] : K. H. Edelmoser and F. A. Himmelstoss, "Analysis of a new high-efficiency DC-to-AC inverter," IEEE Trans. Power Electron., vol. 14, pp. 454-459, May 1999.
[5] : R. Naik and N. Mohan, "A novel grid interface for photovoltaic, windelectric and fuel-cell systems with a controllable power factor of operation," in Proc. IEEE APEC’95, vol. 2, 1995, pp. 995-998.
[6] : R. Tymerski, V. Voperian, and F. C. Lee, "DC-to-AC inversion using quasiresonant techniques," IEEE Trans. Power Electron., vol. 4, pp. 381-390, Oct. 1989.
[7] : B. K. Bose, P. M. Szczesny, and R. L. Steigerwald, "Microcomputer control of a residential photovoltaic power conditioning system," IEEE Trans. Ind. Applicat., vol. 21, pp. 1182-1191, Sept./Oct. 1989.
[8] : H. Stemmler, "Power electronics in electric traction applications," in Proc. IEEE IECON’93, vol. 2, 1993, pp. 707-713.
[9] : A. C. Rufer, N. Schibli, and Ch. Briguet, "A direct coupled 4-quadrant multilevel converter for 16(2/3) Hz traction systems," in Proc. 6th Int. Conf. Power Electronics and Variable Speed Drives, Nottingham, U.K., Sept. 23-25, 1996, pp. 448-453.
[10] : N. P. Schibli, T. Nguyen, and A. C. Rufer, "A three-phase multilevel converter for high-power induction motors," IEEE Trans. Power Electron., vol. 13, pp. 978-986, Sept. 1998.
[11] : A. Rufer,M. Veenstra, and G. Gopakumar, "Asymmetric multilevel converter for high resolution voltage phasor generation," in Proc. 8th Eur. Conf. Power Electronics and Applications (EPE), Lausanne, Switzerland, Sept. 7-9, 1999, CD-ROM.
[12] : L. M. Tolbert, F. Z. Peng, and T. G. Habetler, "Multilevel converters for large electric drives," IEEE Trans. Ind. Applicat., vol. 33, pp. 36-44, Jan./Feb. 1999.
[13] : F. Z. Peng, J.-S. Lai, J. W. McKeever, and J. VanCoevering, "A multilevel voltage-source inverter with separate DC sources for static var generation," IEEE Trans. Ind. Applicat., vol. 32, pp. 1130-1138, Sept./Oct. 1996.
[14] : Y. Liang and C. O. Nwankpa, A new type of STATCOM based on cascading voltage-source inverters with phase-shifted unipolar SPWM," IEEE Trans. Ind. Appl., vol. 35, pp. 1118-1123, Sept./Oct. 1999.
[15] : L. M. Tolbert and F. Z. Peng, "Multilevel converters as a utility interface for renewable energy systems," in Proc. IEEE-PES Summer Meeting, Seattle, WA, July 15-20, 2000, pp. 1271-1274.
[16] : R. L. Steigerwald, "A comparison of half-bridge resonant converter topologies," IEEE Trans. Power Electron., vol. 3, pp. 174-182, Apr. 1988.
[17] : Y. Cheron, T. Meynard, and C. Goodman, Soft Commutation. London, U.K.: Chapman & Hall/Kluwer Academic, 1992.
[18] : H. Ertl, J.W. Kolar, and F. C. Zach, "Analysis of a multi-level multi-cell switch-mode power amplifier employing the "flying-battery" concept," IEEE Trans. Ind. Electron., vol. 49, pp. 816-823, Aug. 2002.
  [1] : [LIVRE034] N. MOHAN, T.M. UNDELAND, W.P. ROBBINS, Power Electronics - Converters, Applications and Design, John Wiley & Sons, 1995 second edition, 802 pages.
  [2] :  [PAP158]  -------
  [3] :  [PAP158]  -------
  [4] :  [ART400]  K.H. Edelmoser, F.A. Himmelstoss, Analysis of a new high-efficiency DC-to-AC inverter, IEEE Transactions on Power Electronics, Vol. 14, No. 3, May 1999, pp. 454-460.
  [5] :  [PAP158]  -------
  [6] :  [ART405]  R. Tymerski, V. Vorperian, F.C.Y. Lee, DC-to-AC inversion using quasi-resonant techniques, IEEE Transactions on Power Electronics, Vol. 4, No. 4, October 1989, pp. 381-390.
  [7] :  [PAP158]  -------
  [8] :  [PAP158]  -------
  [9] :  [PAP158]  -------
 [10] :  [ART406]  N.P. Schibli, T. Nguyen, A.C. Rufer, A three-phase multilevel converter for high-power induction motors, IEEE Transactions on Power Electronics, Vol. 13, No. 5, September 1998, pp. 978-986.
 [11] :  [PAP158]  -------
 [12] :  [PAP158]  -------
 [13] :  [PAP158]  -------
 [14] :  [PAP158]  -------
 [15] :  [PAP158]  -------
 [16] :  [PAP158]  -------
 [17] : [LIVRE260] Y. CHERON, T. MEYNARD, C. GOODMAN, Soft commutation, Chapman & Hall, London, UK, 1992, 233 pages.
 [18] :  [PAP158]  -------

D'ou vient cette bibliographie ????
[1] : C. F. Nayar, S. M. Islam, H. Sharma, "Power electronics for renewable energy sources ", Power Electronics Handbook, Academic, New York, 2001.
[2] : K. H. Edelmoser, F. A. Himmelstoss, "Analysis of a new high-efficiency DC-to-AC inverter", IEEE Trans. Power Electron., vol.14, pp.454-459, May 1999.
[3] : R. Naik, N. Mohan, "A novel grid interface for photovoltaic, wind-electric and fuel-cell systems with a controllable power factor of operation", Proc. IEEE APEC'95, vol.2, pp.995- 998, 1995.
[4] : R. Tymerski, V. Voperian, F. C. Lee, "DC-to-AC inversion using quasiresonant techniques", IEEE Trans. Power Electron., vol.4, pp.381 -390, Oct. 1989.
[5] : H. Stemmler, "Power electronics in electric traction applications ", Proc. IEEE IECON'93, vol.2, pp.707-713, 1993.
[6] : A. C. Rufer, N. Schibli, Ch. Briguet, "A direct coupled 4-quadrant multilevel converter for 16(2/3) Hz traction systems", Proc. 6th Int. Conf. Power Electronics and Variable Speed Drives, Nottingham, U.K., pp.448-453, Sept. 23-25, 1996.
[7] : N. P. Schibli, T. Nguyen, A. C. Rufer, "A three-phase multilevel converter for high-power induction motors", IEEE Trans. Power Electron., vol.13, pp.978-986, Sept. 1998.
[8] : L. M. Tolbert, F. Z. Peng, T. G. Habetler, "Multilevel converters for large electric drives", IEEE Trans. Ind. Applicat., vol.33, pp.36-44, Jan./Feb. 1999.
[9] : Y. Liang, C. O. Nwankpa, "A new type of STATCOM based on cascading voltage-source inverters with phase-shifted unipolar SPWM", IEEE Trans. Ind. Appl., vol.35, pp.1118-1123 , Sept./Oct. 1999.
[10] : L. M. Tolbert, F. Z. Peng, "Multilevel converters as a utility interface for renewable energy systems", Proc. IEEE-PES Summer Meeting, Seattle, WA, pp.1271-1274, July 15-20, 2000.
[11] : R. L. Steigerwald, "A comparison of half-bridge resonant converter topologies", IEEE Trans. Power Electron., vol.3, pp.174-182, Apr. 1988.
[12] : H. Ertl, J. W. Kolar, F. C. Zach, "Analysis of a multi-level multi-cell switch-mode power amplifier employing the "flying-battery" concept", IEEE Trans. Ind. Electron., vol.49, pp.816-823, Aug. 2002 .

  [1] :  [PAP158]  -------
  [2] :  [ART400]  K.H. Edelmoser, F.A. Himmelstoss, Analysis of a new high-efficiency DC-to-AC inverter, IEEE Transactions on Power Electronics, Vol. 14, No. 3, May 1999, pp. 454-460.
  [3] :  [PAP158]  -------
  [4] :  [ART405]  R. Tymerski, V. Vorperian, F.C.Y. Lee, DC-to-AC inversion using quasi-resonant techniques, IEEE Transactions on Power Electronics, Vol. 4, No. 4, October 1989, pp. 381-390.
  [5] :  [PAP158]  -------
  [6] :  [PAP158]  -------
  [7] :  [ART406]  N.P. Schibli, T. Nguyen, A.C. Rufer, A three-phase multilevel converter for high-power induction motors, IEEE Transactions on Power Electronics, Vol. 13, No. 5, September 1998, pp. 978-986.
  [8] :  [PAP158]  -------
  [9] :  [PAP158]  -------
 [10] :  [PAP158]  -------
 [11] :  [PAP158]  -------
 [12] :  [PAP158]  -------


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