Recent Trends in Control and Converter

This work deals with the event of a brand new, good distributed DC good grid appropriate for high-penetration, that with efficiency utilizes energy offered from distributed, renewable generators is delineate. This paper deals primarily on solar power. it's shown that energy saving in way over 15 August 1945 is possible mistreatment the projected DC power distribution system in comparison to this approach wherever inverters square measure used. The analysis work conjointly proposes the star trailing system that improves the facility assortment potency of solar battery by a minimum of ninetieth. The projected DC good grid design is hybrid in nature and is definitely scalable to alternative power levels. It’s ideally fitted to residential and industrial applications yet as for powering property communities.

Keywords: Maximum power point tracking, photovoltaic system, buck boost converter, perturb and observe method, direct current, photovoltaic panel.

Femia N., et al. Optimization of Perturb and observe Maximum Power Point tracking Method. IEEE Trans. Power Electron., Vol. 20, 963-973p, July 2005.

Koutroulis E. et al. Development of a Microcontroller-based photovoltaic maximum power tracking control system. IEEE Trans On Power Electron. Vol. 16, No. 1, 46-54p, 2001.

Jiang J.A. et al. Maximum Power Tracking for Photovoltaic Power Systems Tamkang Journal of Science and Engineering. Vol. 8, No. 2, 147-153p, 2005.

Jain S., Agarwal V. A New Algorithm for Rapid Tracking of Approximate Maximum Power Point in Photovoltaic Systems. IEEE Power Electronic Letter. Vol. 2, 16-19p, Mar. 2004.

Xiao W., Dunford W.G. A modified adaptive hill climbing MPPT method for photovoltaic power systems. 35th. Annual IEEE Power Electron. Specialists Conf., 1957-1963p, 2004.

Kuo Y., et al. Maximum power point tracking controller for photovoltaic energy conversion system. IEEE Trans. Ind. Electron., Vol. 48, 594-601p, 2001.

Sera D., Teodorescu R., Hantschel J., Knoll M. Optimized Maximum Power Point Tracker for Fast-Changing Environmental Conditions. IEEE Trans. On Industrial Electronics. Vol. 55, No. 7, 2629−2637p, July. 2008.

Ponniran A., Hashim A., Joret A. A Design of Low Power Single Axis Solar Tracking System Regardless of Motor Speed. International Journal of Integrated Engineering. Vol. 3, No. 3, 5−9p, Oct. 2011.

Xiao W., Lind M.G.J., Dunford W.J., Capel A. Real-Time Identification of Optimal Operating Points in Photovoltaic Power Systems. IEEE Trans. On Industrial Electronics. Vol. 53, No. 4, 1017−1026P, Aug. 2006.