Analisa Efisiensi Penjejak Sinar Matahari Dengan Menggunakan Kontrol ATMEGA16

DOI: https://doi.org/10.21070/jeee-u.v2i1.1172

Author (s)


(1) * Agus Supriyadi   (Program Studi Teknik Elektro Universitas Muhammadiyah Sidoarjo)  
        Indonesia
(2)  Jamaaluddin Jamaaluddin   (Program Studi Teknik Elektro Universitas Muhammadiyah Sidoarjo)  
        Indonesia
(*) Corresponding Author

Abstract


Solar cells known so far still have many shortcomings in terms of Mounting and positioning against the sun, so the performance of solar cells in Battery charging is not maximal. There fore additional tools are required As a support for the solar cell to work optimally, and the electric current Is generated larger. Sunlight tracking with LDR system as As the sensor to direct to the sunlight rays will be compared With a passive system. Atmega16 as motor control and auto carger, LDR As a recipient of sunlight, DC motor as a direction player Sunlight. Solar cell is used with a capacity of 20 WP.And auto carger system using microcontroller is more cost-efficient and installation. After the two systems will be compared first in order Know the difference how much power generated by solar system Cell using a tracker and a passive one. Data retrieval will be Implemented for one week with sytem tracker and one week with Passive system. With the results of data to be in can be analyzed system comparison And known how much efficiency. Expected with a solar tracker system Cell can increase battery charging faster than with Passive position.



Keywords

Solar Cell; Sun Tracker; Microcontroller.



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References


[1] Jamaaluddin Jamaaluddin;Imam Robandi, “Short Term Load Forecasting of Eid Al Fitr Holiday By Using Interval Type – 2 Fuzzy Inference System ( Case Study : Electrical System of Java Bali in Indonesia ),” in 2016 IEEE Region 10, TENSYMP, 2016, vol. 0, no. x, pp. 237–242.

[2] U. M. Sidoarjo, “Petunjuk praktis perancangan pentanahan sistem tenaga listrik,” pp. 1–22, 2017.

[3] F. Afifudin and F. S. Hananto, “SOLAR CELL MENGGUNAKAN LENSA PEMFOKUS.”

[4] E. B. Raharjo and I. Setiawan, “MENGGUNAKAN MIKROKONTROLER ATMEGA8535,” pp. 1–10.

[5] E-educativa es, “Motor Dc,” 2012.

[6] H. Torque, “MG996R,” no. 6 V, pp. 7–8.

[7] “ACS712 Module Measures Currents up to 30A for as Low as $1 Shipped.” .

[8] K. I. Sram, “with 16K Bytes Programmable ATmega16 ( L ).”

[9] D. Electronic, “M1632 module lcd 16 x 2 baris (m1632),” no. 0100 0001.

[10] F. S. Agung and M. Farhan, “Sistem Deteksi Asap Rokok Pada Ruangan Bebas Asap Rokok Dengan Keluaran Suara,” pp. 1–9, 2009.

[11] D. Information, “L293x Quadruple Half-H Drivers,” 2016.


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10.21070/jeee-u.v2i1.1172


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