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Reseach Article

Comparative Analysis of Modified Isolated Resonant Converters for Photovoltaic Application using Bidirectional Switch

by N.raja, G.irusapparajan
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 117 - Number 7
Year of Publication: 2015
Authors: N.raja, G.irusapparajan
10.5120/20566-2956

N.raja, G.irusapparajan . Comparative Analysis of Modified Isolated Resonant Converters for Photovoltaic Application using Bidirectional Switch. International Journal of Computer Applications. 117, 7 ( May 2015), 16-20. DOI=10.5120/20566-2956

@article{ 10.5120/20566-2956,
author = { N.raja, G.irusapparajan },
title = { Comparative Analysis of Modified Isolated Resonant Converters for Photovoltaic Application using Bidirectional Switch },
journal = { International Journal of Computer Applications },
issue_date = { May 2015 },
volume = { 117 },
number = { 7 },
month = { May },
year = { 2015 },
issn = { 0975-8887 },
pages = { 16-20 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume117/number7/20566-2956/ },
doi = { 10.5120/20566-2956 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T22:58:42.317047+05:30
%A N.raja
%A G.irusapparajan
%T Comparative Analysis of Modified Isolated Resonant Converters for Photovoltaic Application using Bidirectional Switch
%J International Journal of Computer Applications
%@ 0975-8887
%V 117
%N 7
%P 16-20
%D 2015
%I Foundation of Computer Science (FCS), NY, USA
Abstract

This paper represents a comparative study of isolated resonant topologies for photovoltaic application such as half bridge, full bridge and push pull topology. The performance of these topologies is analyzed with the help of Pulse Width Modulation (PWM) technique. The stressful behavior of the switches is reduced by soft switching technique. So, the primary side switches utilize zero voltage switching (ZVS) and output diodes utilize zero current switching (ZCS). A bidirectional switch is used at the high voltage side to provide voltage regulation over fixed frequency PWM control. Simulation results are performed by using a MATLAB-SIMULINK.

References
  1. Thomas LaBella, Wensong Yu, Jih-Sheng (Jason) Lai, Fellow, Matthew Senesky, and David Anderson, "A Bidirectional-Switch-Based Wide-Input Range High-Efficiency Isolated Resonant Converter for Photovoltaic Applications," IEEE Tans. Power Electron, vol. 29, no. 7, pp. 3473- 3484, July 2014.
  2. D. Cao, S. Jiang, F. Z. Peng, andY. Li, "Lowcost transformer isolated boost half-bridge micro inverter for single-phase grid connected photovoltaic system," IEEE Appl. Power Electron. Conf. Expo. (APEC), pp. 71–78. 2012.
  3. D. Meneses, F. Blaabjerg, O. Garcia, and J. A. Cobos, "Review and comparison of step-up transformerless topologies for photovoltaic AC-module application," IEEE Trans. Power Electron. , vol. 28, no. 6, pp. 2649–2663, Jun. 2013.
  4. Z. Liang, R. Guo, J. Li, and A. Q. Huang, "A high-efficiency PV moduleintegrated DC/DC converter for PV energy harvest in FREEDM systems," IEEE Trans. Power Electron. , vol. 26, no. 3, pp. 897–909, Mar. 2011.
  5. R. Beiranvand, B. Rashidian,M. R. Zolghadri, and S. M. H. Alavi, "Using LLC resonant converter for designing wide-range voltage source," IEEETrans. Ind. Electron. , vol. 58, no. 5, pp. 1746–1756, May 2011.
  6. T. -H. Hsia, H. -Y. Tsai, D. Chen, M. Lee, and C. -S. Huang, "Interleaved active-clamping converter with ZVS/ZCS features," IEEE Trans. PowerElectron. , vol. 26, no. 1, pp. 29–37, Jan. 2011.
  7. W. Yu, B. York, and J. -S. Lai, "Inductorless forward-flybacksoft switching converter with dual constant on-time modulation for photovoltaic applications," IEEE Energy Convers. Cong. Expo. (ECCE), pp. 3549–3555,2012.
  8. Q. Li and P. Wolfs, "A review of the single phase photovoltaic module integrated converter topologies with three different DC link configurations," IEEE Trans. Power Electron. , vol. 23, no. 3, pp. 1320–1333, May 2008.
  9. R. Beiranvand, B. Rashidian, M. R. Zolghadri, and S. M. H. Alavi, "A design procedure for optimizing the LLC resonant converter as a wide output range voltage source," IEEE Trans. Power Electron. , vol. 27, no. 8, pp. 3749–3763, 2012.
  10. B. Gu, J. Dominic, J. -S. Lai, C. -L. Chen, T. LaBella, and B. Chen, "High reliability and efficiency single-phase transformerless inverter for grid connected photovoltaic systems," IEEE Trans. Power Electron. , vol. 28, no. 5, pp. 2235–2245, May 2013.
  11. F. Musavi,M. Craciun, D. S. Gautam,W. Eberle, andW. G. Dunford, "An LLC resonant DC–DC converter for wide output voltage range battery charging applications," IEEE Trans. Power Electron. , vol. PP, no. 99, p. 1-1, Dec. 2013.
  12. H. Hu, X. Fang, F. Chen, Z. J. Shen, and I. Batarseh, "A modified highefficiency LLC converter with two transformers for wide input-voltage range applications," IEEE Trans. Power Electron. , vol. 28, no. 4, pp. 1946– 1960, Apr. 2013.
  13. G. Jun-yin,W. Hong-fei, C. Guo-cheng, and X. Yan, "Research on photovoltaic grid connected inverter based on soft-switching interleaved flyback converter," IEEE Conf. Ind. Electron. Appl. (ICIEA), pp. 1209–1214,2010.
  14. Fariborz Musavi, Marian Craciun, Deepak S. Gautam, and Wilson Eberle, "Control Strategies for Wide Output Voltage Range LLC Resonant DC–DC Converters in Battery Chargers,"IEEE Trans. On vehicular technology, vol. 63, no. 3, March 2014.
  15. Y. Chen, X. Wu, Z. Qian, and W. Zhang, "Design and optimization of a wide output voltage range LED driver based on LLC resonant topology," IEEE 8th Int. Conf. Power Electron. ECCE Asia (ICPE &ECCE), pp. 2831–2837,in Proc. 2011.
  16. B. -G. Chung, K. -H. Yoon, S. Phum, E. -S. Kim, and J. -S. Won, "A novel LLC resonant converter for wide input voltage and load range," IEEE 8th Int. Conf. Power Electron. ECCE Asia (ICPE & ECCE), pp. 2825–2830,in Proc. 2011.
  17. F. Canales, P. Barbosa, and F. C. Lee, "A wide input voltage and load output variations fixed-frequency ZVS DC/DC LLC resonant converter for high-power applications," 37th IAS Ann. Meeting. Conf. Rec. Ind. Appl. Conf. , vol. 4, pp. 2306–2313,in Proc. 2002.
  18. T. LaBella, B. York, C. Hutchens, and J. -S. Lai, "Dead time optimization through loss analysis of an active-clamp flyback converter utilizing GaN devices," IEEE Energy Convers. Cong. Expo. (ECCE), pp. 3882–3889,in Proc. 2012.
  19. M. Jovanovic, K. -H. Liu, R. Oruganti, and F. C. Lee, "State-plane analysis of quasi resonant converters," IEEE Trans. Power Electron. , vol. PE- 2, no. 1, pp. 36–44, Jan. 1987.
  20. B. Yang, F. C. Lee, A. J. Zhang, and G. Huang, "LLC resonant converter for front end DC/DC conversion," in Proc. 17th Annu. IEEE Appl. PowerElectron. Conf. Expo. , vol. 2, pp. 1108–1112, (APEC 2002)
Index Terms

Computer Science
Information Sciences

Keywords

LLC ZVS ZCS MIC PV PWM