Journal of Electrical Engineering and Technology

  • 제2권2호
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  • Pages.231-240
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  • 2007
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  • 1975-0102(pISSN)
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  • 2093-7423(eISSN)
대한전기학회 (The Korean Institute of Electrical Engineers)
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Validation of Generalized State Space Averaging Method for Modeling and Simulation of Power Electronic Converters for Renewable Energy Systems

  • Rimmalapudi, Sita R. (Department of Electrical and Computer Engineering, Illinois Institute of Technology) ;
  • Williamson, Sheldon S. (Department of Electrical and Computer Engineering, Illinois Institute of Technology) ;
  • Nasiri, Adel (Department of Electrical and Computer Engineering, Illinois Institute of Technology) ;
  • Emadi, Ali (Department of Electrical and Computer Engineering, Illinois Institute of Technology)
  • 발행 : 2007.06.01
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초록

This paper presents an advanced modeling and simulation technique applied to DC/DC power electronic converters fed through renewable energy power sources. The distributed generation (DG) system at the Illinois Institute of Technology, which employs a phase-l system consisting of a photovoltaic-based power system and a phase-2 system consisting of a fuel cell based primary power source, is studied. The modeling and simulation of the DG system is done using the generalized state space averaging (GSSA) method. Furthermore, the paper compares the results achieved upon simulation of the specific GSSA models with those of popular computer aided design software simulations performed on the same system. Finally, the GSSA and CAD software simulation results are accompanied with test results achieved via experimentation on both, the PV-based phase-l system and the fuel cell based phase-2 power system.

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참고문헌

  1. S. Chowdary, B. Wilson, S. Al-Hallaj, and D. Chmielewski, 'Active control of a hybrid fuel cell –battery system' in Proc. 203rd Electrochemical Society Meeting, Paris, France, April 2003
  2. A. Emadi, 'Modeling, analysis, and stability assessment of multi-converter power electronic systems' Ph.D. Dissertation, Texas A&M University, College Station, TX, Aug. 2000
  3. R. D. Middlebrook and S. Cuk, 'A general unified approach to modeling switching converter power stages' in Proc. IEEE Power Electronics Specialist Conf., June 1976, pp. 18-34
  4. P. T. Krein, J. Bentsman, R. M. Bass, and B. Lesieutre, 'On the use of averaging for the analysis of power electronic systems' IEEE Trans. on Power Electronics, vol. 5, no. 2, pp. 182-190, 1990 https://doi.org/10.1109/63.53155
  5. J. Sun and H. Grotstollen, 'Averaged modeling of switching power converters: reformulation and theoretical basis' in Proc. IEEE Power Electronics Specialist Conf., June 1981, pp. 1165-1172
  6. G. Verghese and U. Mukherdji, 'Extended averaging and control procedure' in Proc. IEEE Power Electronics Specialist Conf., June 1981, pp. 329-336
  7. S. R. Sanders, J. M. Noworoski, X. Z. Liu, and G. C. Verghese, 'Generalized averaging method for power conversion circuits' IEEE Trans. on Power Electronics, vol. 6, no. 2, April 1991
  8. J. Mahdavi, A. Emadi, M. D. Bellar, and M. Ehsani, 'Analysis of power electronic converters using the generalized state space averaging approach' IEEE Trans. on Circuits and Systems I: Fundamental Theory and Applications, vol. 44, no. 8, Aug. 1997
  9. A. Emadi, 'Modeling and analysis of multiconverter DC power electronic systems using the generalized state space averaging method' IEEE Transactions on Industrial Electronics, vol. 51, no. 3, pp. 661-668, June 2004 https://doi.org/10.1109/TIE.2004.825339

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