Analisa Optimasi Photovoltaic(PV) 100 W Menggunakan MPPT dengan Alogaritma Perturb dan Observe

Puji Setiyawan, Sukarno Budi Utomo, Agus Adhi Nugroho

Abstract


This article reviews the optimization of energy generated by solar panels using MPPT. The need for increased power that
can be done using MPPT with the P&O algorithm that goes to the load is proven because of the addition of influencing factors.
MPPT A technique for keeping solar panels working. to stay within the Maximum Power point (MPP) area. MPP is a point
or point in the VI curve or VP curve in the solar panel where the solar panel works at maximum efficiency and releases
maximum power. The P&O algorithm is used to keep the MPPT power out panel always in the MPP area by changing the
voltage value before MPPT and after the MPPT Comparison of the results of modeling with the use of techniques developed
and special computer programs that have shown satisfactory results. Through comparison of the output power that comes out
of the solar panel using MPPT 16.86406 W and without using MPPT of 13.63239 or experiencing an increase of 23%.


Keywords


P&O, Solar Panel, MPPT

Full Text:

PDF

References


M. G. Ramadhan, A. Muttaqin, and Z. Abidin, “Maximum Power Point Tracker ( MPPT ) Sebagai Metode Pemaksimalan Daya Solar Cell Untuk Charging Baterai Eco Solar Boat,” pp. 107–110, 2017.

C. Mufit, “Rancang Bangun Solar Charge Controller Dengan Mode Fast PWM Menggunakan Atmega 16,” p. 87, 2017.

N. Sabbaha, E. Susanto, E. Kurniawan, F. T. Elektro, U. Telkom, and T. Angin, “Pembangkit Listrik Tenaga Hybrid Surya Dan Angin Untuk Design and Implementation of Converter for Hybrid Solar Panel and,” vol. 4, no. 2, p. 9, 2016.

E. A. Suri, F. T. Elektro, and U. Telkom, “RANCANG BANGUN MPPT BOOST CONVERTER PADA POMPA AIR TENAGA SURYA DESIGN OF MPPT BOOST CONVERTER TO SOLAR CELL WATER PUMP,” vol. 3, no. 3, pp. 4065–4073, 2016.

A. Agung and G. Maharta, “Analisis Perbandingan Output Daya Listrik Panel Surya Sistem Tracking Dengan Solar Reflector,” J. Ilm. Spektrum, vol. 3, no. 1, pp. 7–13, 2016.

K. Belajar and B. D. Teori, “A . Tujuan a . Mahasiswa diharapkan dapat memahami karakteristik switching dari mosfet b . Mahasiswa diharapkan dapat menggambarkan kurva karakteristik v-i masukan dan keluaran mosfet . c . Mahasiswa diharapkan dapat memahami konsep kendali gate MOSFET de.”

A. Ainuddin, S. Manjang, and F. A. Samman, “Sistem Pengendali Pengisian Baterai pada Pembangkit Listrik Tenaga Surya,” J. Penelit. Enj., vol. 21, no. 2, pp. 16–24, 2018, doi: 10.25042/jpe.112017.03.

M. H. Fadhilah, E. Kurniawan, and U. Sunarya, “Perancangan Dan Implementasi Mppt Charge Controller Pada Panel Surya Menggunakan Mikrokontroler Untuk Pengisian Baterai Sepeda Listrik Design and Implementation Mppt Charge Controller on Solar Panel Using Microcontroller for Electric Bicycle ’ S Battery C,” vol. 4, no. 3, pp. 3164–3170, 2017.

F. H. Hasan, “Rancang Bangun MPPT Dengan DC-DC Buck Converter Pada Panel Surya dengan Beban Pompa Air DC,” pp. 1–43, 2017.




DOI: http://dx.doi.org/10.26623/elektrika.v13i1.2984

Refbacks

  • There are currently no refbacks.


Office: Ruang Dekanat, Gedung A Fakultas Teknik, Universitas Semarang, Jalan Soekarno - Hatta, Tlogosari, Semarang - Jawa Tengah Telp:(024) 6702757 Fax: (024) 6702272, Email : elektrika@usm.ac.id

View My Stats

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License