Comparative analysis of LLC resonant and quasi resonant converter for photo voltaic emulator

• Autorzy: Iqbal M. T. , Tariq M.

Identyfikatory

DOI

10.22149/teee.v1i2.12

Warianty tytułu

EN

Modeling, analysis and control of different DC-DC converter topologies for photo voltaic emulator

• Języki publikacji: EN

Abstrakty

EN

The paper presents a comparative analysis of the two resonant based converter topologies. The converter topologies selected are LLC resonant converter and the Quasi resonant converter. The modeling, analysis and control of both the converter is done and presented here for the case of the photovoltaic (PV) emulator. A PV emulator is basically a DC-DC converter having same electrical characteristics that of solar PV panel. The emulator helps to achieve real characteristics of PV system in a better way in an environment where using actual PV systems can produce inconsistent results due to variation in weather conditions. The complete system is modelled in MATLAB® Simulink SimPowerSystem software package. The Simulation results obtained from the MATLAB® Simulink SimPowerSystem software package for both topologies under steady and dynamic conditions are analyzed and presented. An evaluation table is also presented at the end of the paper, presenting the effectiveness of each topology.

Słowa kluczowe

EN

buck converter; LLC Resonant Converter; quasi resonant converter; photovoltaic emulator; Simulink

• Wydawca: EEEIC International Publishing
• Czasopismo: Transactions on Environment and Electrical Engineering
• Rocznik: 2016
• Tom: Vol. 1, No. 2
• Strony: 1--5
• Opis fizyczny: Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Iqbal M. T.

• Damodar Valley Corporation, Kolkata, India, 700052

autor

Tariq M.

• School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore, 639798

Bibliografia

• [1] F. Robert, M. Ghassemi, and A. Cota. “Solar energy: renewable energy and the environment”. CRC Press, 2009.
• [2] M. Tariq, S. Bhardwaj and M. Rashid, “Effective battery charging system by solar energy using C programming and microcontroller”, American Journal of Electrical Power and Energy Systems, 2(2), 41-43. 2013.
• [3] M. Tariq and K. Shamsi, “Application of RET to Develop educational infrastructure in Uttar Pradesh”. International Journal of Recent Trend In engineering, ACEEE, Vol. 4, pp 187-190, 2010.
• [4] A. Tariq, M. Asim, and M. Tariq. "Simulink based modeling, simulation and Performance Evaluation of an MPPT for maximum power generation on resistive load." 2nd International Conference on Environmental Science and Technology IPCBEE, Singapore, vol.6, Feb. 2011.
• [5] D.C. Lu Dylan and Q.N. Nguyen, “A photovoltaic panel emulator using a buck-boost DC/DC converter and a low cost micro-controller”, Solar Energy, Elsevier, Volume 86, Issue 5, pp 1477-1484, May 2012.
• [6] S. Yuliang, "A Photo-voltaic array simulator", Acta Energiae Solaris Sinica, vol. 18, pp.448-451, 1997.
• [7] L. Hongliang, H. Mingzhi and Y. Xiaojie, "Investigation of photovoltaic array simulators based on different kinds of PWM rectifiers," Communications, Circuits and Systems, ICCCAS. International Conference on , pp. 737-741, 23-25 July 2009.
• [8] Duran, E., Galán, J., Sidrach-de-Cardona, M., Andujar, J.M., "A New Application of the Buck-Boost-Derived Converters to Obtain the I-V Curve of Photovoltaic Modules," Power Electronics Specialists Conference, 2007. PESC 2007. IEEE, vol., no., pp. 413-417, 17-21 June 2007.
• [9] M. Tariq and S. Yuvarajan. Modeling and Analysis of Self Excited Induction Generator with Electronic load controller supplying static loads. Canadian Journal on Electrical and Electronics Engineering, 4(1), pp. 9-13, 2013.
• [10] M.T. Iqbal, M. Tariq, and M.S.U. Khan, M.S.U, “Fuzzy logic control of buck converter for photo voltaic emulator”. In 2016 4th International Conference on the Development in the in Renewable Energy Technology (ICDRET) (pp. 1-6). IEEE, 2016, January.
• [11] M. Tariq and M.T. Iqbal. Power quality improvement by using multipulse AC-DC converters for DC drives: Modeling, simulation and its digital implementation. Journal of Electrical Systems and Information Technology, 1(3), pp. 255-265, 2014.
• [12] K. Ahmed, T. LaBella and J.S. Lai. "High efficiency photovoltaic source simulator with fast response time for solar power conditioning systems evaluation." Power Electronics, IEEE Transactions on 29.(3) pp 1285-1297, 2014.
• [13] Cirrincione, M., Di Piazza, M.C., Marsala, G., Pucci, M., Vitale, G., "Real time simulation of renewable sources by model-based control of DC/DC converters," Industrial Electronics, 2008. ISIE 2008. IEEE International Symposium on, pp. 1548, 1555, June 30 2008-July 2 2008.
• [14] E.X. Yang, F.C. Lee, and M.M. Jovanovic, “Small-signal modeling of LCC resonant converter,” in Proc. IEEE Power Electron. Spec. Conf., Jun.1992, pp. 941-948.
• [15] J.F. Lazar and R. Martinelli, “Steady-state analysis of the LLC series resonant converter,” in Proc. IEEE Appl. Power Electron.Conf. Expo.Mar. 2001, vol. 2, pp. 728-735.
• [16] V. Vorperian, "Quasi-square-wave converters: topologies and analysis," Power Electronics, IEEE Transactions on , vol. 3, no. 2, pp. 183, 191, Apr 1988.
• [17] F. Yusivar, M.Y. Farabi, R. Suryadiningrat, W.W. Ananduta, W. and Y. Syaifudin, “Buck-converter photovoltaic simulator”. International Journal of Power Electronics and Drive Systems (IJPEDS), 1(2), 156-167, Dec. 2011.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).