Research Application and Development of Key Control Technologies of Semiconductor Lighting with Solar Photovoltaic
With the development of the society, energy development and utilization become more and more important, solar electronic products is developing very rapidly, such as solar street lamps, etc., but there are lots of defects for its control. This article proposes a new type multiple tracking fuzzy logic control network (fuzzy logic control) photovoltaic technology, semiconductor lighting driving part adopts the efficient high power constant current driver circuit controlled by efficient double loop and driven by BOOST, with features of strong anti-interference, fast response speed, high steady state accuracy and so on.
KeywordsSolar photovoltaic Semiconductor lighting Key control technology Application and development
This research was supported by key planning research projects of Hunan department of science and technology (Grant NO. 2016GK2015) and reform project of Jiangxi provincial department of education (Grant NO. JXJG-17-27-3). Education planning project of Jiangxi province (Grant NO. 17YB252). Scientific research start-up funding (Grant NO. NGRCZX-17-01).
- 1.Dyble, M., Narendran, N., Bierman, A.: Impact of dimming white LEDs: chromaticity shifts due to different dimming methods. Proc. SPIE 35(4), 1–9 (2008)Google Scholar
- 2.Hwu, K., Chou, S.: A simple current-balancing converter for LED lighting. IEEE Appl. Power Electron. Conf. Wash. DC USA 35(9), 16–19 (2010)Google Scholar
- 3.Nishikawa, M., Morihori, K., Ishizuka, Y.: Static characteristics of a drive circuit for LED with constant-current control. Annu. Conf. IEI-J 32(7), 251–253 (2009)Google Scholar
- 7.Hiren, P., Vivek, A.: Maximum power point tracking scheme for PV systems operating under partially shaded conditiongs. IEEE Trans. Ind. Electron. 55(4), 1689–1698 (2011)Google Scholar
- 8.Stjepanovic, A.,Softic, F.,Bundalo, Z., et al.: Solar tracking system and modeling on PV module. In: Proceedings of the 33rd International Convention MIPRO, pp. 105–109 (2012)Google Scholar
- 9.Liu, F.R., Duan, S.X., Liu, B.Y., et al.: A variable step size INC MPPT method for PV systems. IEEE Trans. Ind. Electron. 55(7), 2622–2628 (2010)Google Scholar
- 10.Nabil, A.A., Masafumi, M.A., et al.: Novel maximum power point tracking for photovoltaic applications under partially shaded insolation conditions. Electr. Power Syst. Res. 78(5), 777–784 (2014)Google Scholar