Page 185 - Advances in Renewable Energies and Power Technologies
P. 185
158 CHAPTER 4 Performance of MPPT Techniques of Photovoltaic Systems
[15] W. Wu, N. Pongratananukul, W. Qiu, K. Rustom, T. Kasparis, I. Batarseh, DSP-based
multiple peak power tracking for expandable power system, Appl. Power Electron.
Conf. Expo. (2003).
[16] Y.-T. Hsiao, C.-H. Chen, Maximum power tracking for photovoltaic power system, in:
Conf. Record 37th IAS Annu. Meeting Ind. Appl. Conf, 2002, pp. 1035e1040.
[17] Y. Jung, G. Yu, J. Choi, J. Choi, High-frequency DC link inverter for grid-connected
photovoltaic system, in: Conf. Record Twenty-ninth IEEE Photovoltaic Spec. Conf,
2002, pp. 1410e1413.
[18] S. Jain, V. Agarwal, A new algorithm for rapid tracking of approximate maximum po-
wer point in photovoltaic systems, IEEE Power Electron. Lett. 2 (1) (March 2004)
16e19.
[19] T. Tafticht, K. Agbossou, Development of a MPPT method for photovoltaic systems, in:
Canadian Conf. Elect. Comput. Eng., 2004, pp. 1123e1126.
[20] N. Femia, G. Petrone, G. Spagnuolo, M. Vitelli, Optimization of perturb and observe
maximum power point tracking method, IEEE Trans. Power Electron. 20 (4) (July
2005) 963e973.
[21] P.J. Wolfs, L. Tang, A single cell maximum power point tracking converter without a
current sensor for high performance vehicle solar arrays, in: Proc. 36th Annu. IEEE Po-
wer Electron. Spec. Conf., 2005, pp. 165e171.
[22] V.B. Ioan, I. Marcel, Comparative analysis of the perturb-and-observe and incremental
conductance MPPT methods, in: 8th International Symposium on Advanced Topics in
Electrical Engineering May 23e25, Bucharest, Romania, 2013.
[23] H. Rezk, A.M. Eltamaly, A comprehensive comparison of different MPPT techniques
for photovoltaic systems, Sol. Energy 112 (2015) 1e11.
[24] A. Al-Diab, C. Sourkounis, Variable step size P&O MPPTalgorithm for PV systems, in:
Optimization of Electrical and Electronic Equipment (OPTIM), 12th IEEE Interna-
tional Conference, 2010, pp. 1097e1102.
[25] B. Amrouche, M. Belhamel, A. Guessoum, Artificial intelligence based P&O MPPT
method for photovoltaic systems, Rev. Des. Energies Renouvelables ICRESD-07 Telm-
cen 11e16 (2007).
[26] K. Kobayashi, I. Takano, Y. Sawada, A study on a two stage maximum power point
tracking control of a photovoltaic system under partially shaded insolation conditions,
in: IEEE Power Eng. Soc. Gen. Meet., 2003, pp. 2612e2617.
[27] M.A. Mohamed, A.M. Eltamaly, A.I. Alolah, PSO-based smart grid application for
sizing and optimization of hybrid renewable energy systems, PLoS One 11 (8)
(2016) e0159702.
[28] J. Ho Lee, H.S. Bae, Bo H. Cho, Advanced incremental conductance MPPT algorithm
with a variable step size, in: Power Electronics and Motion Control Conference, 2006.
EPE-PEMC 2006. 12th International at Portoroz, August 2006, pp. 603e607.
[29] J. Kouta, et al., Improving the incremental conductance control method of a solar energy
conversion system, Int. Conf. Renew. Energy Power Qual. VI (2008). Santander: [sn].
[30] A.M. Eltamaly, H.H. El-Tamaly, P. Enjeti, An improved maximum power point
tracker for photovoltaic energy systems, in: 2nd Minia International Conference for
Advanced Trends in Engineering, (MICATE’ 2002) Elminia, Egypt, March 16e18,
2002.
[31] K. Siri, K.A. Conner, Parallel-connected converters with maximum power tracking, in:
IEEE conf., APEC 2002 vol. 1, March 2002, pp. 419e425.
