Manufacture of Solar Panel with 300W Inverter for Household Electricity Needs

 Abstract views: 290

Authors

  • Yanatra Budi Pramana
  • Akhmad Solikin Universitas PGRI Adi Buana Surabaya
  • Akhmad Faisal Universitas PGRI Adi Buana Surabaya
  • Djoko Adi Walujo Universitas PGRI Adi Buana Surabaya
  • Rusdiyantoro Universitas PGRI Adi Buana Surabaya
  • Manik Ayu Titisari Universitas PGRI Adi Buana Surabaya

DOI:

https://doi.org/10.36456/tibuana.5.01.4604.41-45

Keywords:

solar panels, PLTS

Abstract

Solar panels are semiconductor elements that can convert solar energy into electrical energy. This Research on Solar Power Plants (PLTS) assemble with materials such as solar panels, 3000 W inverters, batteries, relays and control chargers, after that the load calculations are carried out, then implementation and testing is carried out. This research also aims as a renewable electric power in the future. From the results of the PLTS load test carried out at the researcher's house, the highest load was 405.32 watts, while the highest load test results used PLN electricity, which was

267.06 watts. So it can be said that this research is successful in meeting the electricity needs of household scale.

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References

Anwar Ilmar Ramadhan, ED. Analysis of 50 W Capacity Solar Power Generation System Design. Journal of Engineering UNDIP, 59-63. 2016.

Gifson, A., Siregar, M. R., Pambudi, M. P. DESIGN AND CONSTRUCTION OF SOLAR POWER PLANT (PLTS). TESLA, 23. 2020.

H Kristiawan, The Potential of Solar Power Generation on the Roof of a School Building in Denpasar City. SPECTRUM Journal Vol. 6, No. December 4, 2019, 66-70.2019.

Khairul Azmi, ID. Design and Analysis of Single Phase Inverter Using Arduino-Based SPWM Method. Vol.2 No.4 2017: 36-44, 2, 36-44. 2017

M. Suparian, AS. PROTOTYPE OF BATTERY CHARGE CONTROLLER SOLAR HOME SYSTEM IN ULAK KEMBAHANG 2 VILLAGE, BEST PULUTAN SUB-DISTRICT, OGAN ILIR REGENCY. AvoER XI 2019 National Seminar, 658-665.2019.

Osep Prasetyo, PP. POWER CALCULATION SYSTEM IN HOUSEHOLDS TO PREDICATE ELECTRICITY COST SAVINGS AND KNOW THE MINIMUM POWER THAT SHOULD BE SUPPLIED BY SOLAR PANELS. e-Proceeding of Engineering : Vol.6, No.2 August 2019, 3126- 3133.2019.

Venny Yusiana, HM (2017). DESIGN OF SOLAR PANEL USING TRANSISTOR (2N3055 & MJ2955) WITH SUN REFLECTION EFFECT FOR OPTIMIZATION OF ELECTRICITY GENERATED. Civronlit Journal of Batanghari University Vol.2 No.2 October 2017, 47-53.

Andi Julisman, ID (2017). PROTOTYPE OF UTILIZATION OF SOLAR PANELS AS A SOURCE OF ENERGY ON THE AUTOMATION SYSTEM OF THE BALL STADIUM ROOF. Online Journal of Electrical Engineering Vol.2 No.1 2017: 35-42, 35-42.

Evan Permana, AD (2015). DESIGN OF CHARGER WITH SOLAR CHARGING BAG USING QUALITY FUNCTION DEPLOYMENT (QFD). Online Journal of the National Institute of Technology No.04 Vol.03 October 2015, 97-107.

Sandro Putra, CR (2016). INDEPENDENT SOLAR POWER GENERATION PLANNING FOR RESIDENTAL HOUSES. 2016 Scholars National Seminar, 231-237

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Published

2022-01-31

How to Cite

Yanatra Budi Pramana, Solikin, A., Faisal, A. ., Walujo, D. A. ., Rusdiyantoro, & Titisari, M. A. . (2022). Manufacture of Solar Panel with 300W Inverter for Household Electricity Needs. Tibuana, 5(01), 41–45. https://doi.org/10.36456/tibuana.5.01.4604.41-45

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