Abstract—Solar energy is one of the alternative energy that is environmentally friendly and cheap raw materials and available throughout the year as a substitute for conventional energy whose raw materials are getting thinner and have a bad impact on the environment such as air pollution, noise and hazardous waste for the environment over a long period of time, solar energy has great potential as an independent solar power plant, which offers solutions to provide electricity to meet electricity needs, especially in areas not yet covered by the electricity grid of the National Electric Company. The 1300 W solar power plant is planned to use polycrystalline solar panels with a capacity 100 WP, combined with battery components and inverters, it can generate AC current for daily electricity needs. The greater the electrical load, the faster the battery life. This research shows that it takes 60 polycrystalline solar panels for 12 hours, 26 Solar Chargers 15 A, 9 batteries with a capacity of 150 Ah, and 15 Inverters 1300 W

REFERENCES

M. Nassereddine, M. Nagrial, J. Rizk, and A. Hellany, “PV solar system for residential homes: PV panel tracking system using electronic circuits,” 3rd Int. Conf. Electr. Biomed. Eng. Clean Energy Green Comput. EBECEGC 2018, pp. 39–42, 2018.

W. Ali, H. Farooq, A. U. Rehman, Q. Awais, M. Jamil, and A.Noman,“Design considerations of stand-alone solar photovoltaic systems,” 2018 Int. Conf. Comput. Electron. Electr. Eng. ICE Cube 2018, no. February 2019, pp. 1–6,2019.

J. Aggarwal and M. L. Aggarwal, “Harnessing Solar Energy for Every Home: Energy Saving Applications,” Conf. Pap. Sci., vol. 2014, pp. 1–3, 2014

D. a Aremu, “Design Of Stand-Alone Solar Photovoltaic System For Residential Buildings,” Int. J. Sci. Technol. Res., vol. 2, no. 12, pp. 187–194, 2013.

J. Orebiyi, B. Barnes, and K. S. Das, “Dye-sensitized solar cells,” Proc. LACCEI Int. Multi-conference Eng. Educ. Technol., vol. 2018-July, 2018.

Electrical properties mono- and polycrystalline silicon solar cells,” J. Achiev. Mater. Manuf. Eng., vol. 59, no. 2, pp. 67–74, 2013.

A.Le Donne, A. Scaccabarozzi, S. Tombolato, S. Binetti, M. Acciarri, and A. Abbotto, “Solar Photovoltaics: A Review Solar Photovoltaic: A Review,” Am. Sci. Publ., vol. 2., no. November 2014, pp. 1–9, 2013.

C. A. Osaretin and F. O. Edeko, “Design and Implementation of a Solar Charge Controller with Variable Output,” J. Electr. Electron. Eng., vol. 12, pp. 40–50, 2015.

F. Faithpraise, D. Bassey, M. Charles, O. Osahon, M. Udoh, and C Chatwin, “Experimental design and construction of an enhanced solar battery charger,” IOSR J.. Electron. Eng., vol. 11, no. 2, pp. 11–16, 2016.

M. I. T. Electric and V. Team, “A Guide to Understanding Battery Specifications,” 7 Decembers, 2008.

C. S. kanya, L. P. anga, K. J. hanan, and T. S. P. admanabhan, “A New Self-Balancing Cascaded Multilevel Inverter for Level

Doubling Application,” Int. J. Adv. Res. Electr. Electron. Instrum. Eng., vol. 04, no. 02, pp. 795–802, 2015.