FUZZY LOGIC CONTROLLER IMPLEMENTATION FOR PHOTOVOLTAIC STATION

Solar panels have a nonlinear voltage-current characteristic, with a distinct maximum power point (MPP), which depends on the environmental factors, such as temperature and irradiation. In order to continuously harvest maximum power from the solar panels, they have to operate at their MPP despite the inevitable changes in the environment. This is why the controllers of all solar power electronic converters employ some method for maximum power point tracking (MPPT ). Over the past years many MPPT techniques have been published and based on that the main paper’s objective is to analyze one of the most promising MPPT control algorithms: fuzzy logic controller.

1. E. Koutroulis, F. Blaabjerg, «A New Technique for Tracking Global Maximum Power Point of PV Arrays Operating Under Partial-Sheding Conditions» IEEE JORNAL OF PHOTOVOLTAICS, vol. 2, no.2, April 2012.

2. Трещ, А. М. Система управления фотоэлектрической установкой при автономном использовании / Ю. Н. Петренко, А. М. Трещ // Наука и техника. Международной научно-технической журнал. Минск 2013 № 1. С. 53–56.

3. M. Azab, «A New Maximum Power Point Tracking for Photovoltaic Systems,» in WASET. ORG, vol. 34, 2008, pp. 571–574.

4. D. P. Hohm and M. E. Ropp, «Comparative Study of Maximum Power Point Tracking Algorithms», Prog. Photovolt: Res. Appl. 2003; 11:47–62 (DOI:1002/pp.459).

5. Petrenko, Y. N. Fuzzy logic and genetic algorithm technique for non-liner system of overhead crane / Y. N. Petrenko, S. E. Alavi Computational Technologies in Electrical and Electronics Engineering (SIBIRCON), 2010 IEEE Region 8 International Conference, 11–15 July 2010. pp. 848–851.

6. Алави, С. Э. Fuzzy logic controller for non-linear system design / С. Э. Алави, Ю. Н. Петренко // Информационные технологии в промышленности: сборник тезисов пяти Международной научно-технической конференции ITI*2008, г. Минск, 22–24 октябрь 2008. – С. 214–215.

7. Alavi, S. E. System control, based on the artificial intelligence techniques / S. E. Alavi, Y. N. Petrenko // Информационные технологии в промышленности: сборник тезисов шестой Международной научно-техни чес кой конференции ITI*2010, г. Минск, 28–29 октябрь 2010. – С. 170–171.

8. Лобатый А. А., Шейников А. А., Белегов А. Н. Диагностика стартер-генераторов постоянного тока с использованием теории нечёткой логики // Энергетика, 2011 № 5 С. 17–24.

9. Elzein, I. Fuzzy Logic Controller Design for Photovoltaic System / I. Elzein, Y. N. Petrenko// Information Technologies and Systems 2014 (ITS 2014), Proceedings of the Int. Conf.(BSUIR, Minsk, Belarus, 29 th October, 2014)

10. I. A. Elzein, Y. N. Petrenko. A study of maximum power point tracking algorithm for photovoltaic system using a fuzzy logic controller. WIT Transaction on Engineering Sciences, Vol.96, WIT Press, 2014, pp.409–419.

11. Электронный ресурс. http://www.dz863.com/datasheet. Дата доступа 16.01.2015.