RANCANG BANGUN SISTEM PENGISIAN DAYA BATERAI MENGGUNAKAN BOOST CONVERTER SEBAGAI MAXIMUM POWER POINT TRACKING CONTROLLER BERSUMBER SOLAR CELL PADA MOBIL LISTRIK KAMPUS

Cahyo, Ervan Dilla Dwi (2020) RANCANG BANGUN SISTEM PENGISIAN DAYA BATERAI MENGGUNAKAN BOOST CONVERTER SEBAGAI MAXIMUM POWER POINT TRACKING CONTROLLER BERSUMBER SOLAR CELL PADA MOBIL LISTRIK KAMPUS. Tugas Akhir thesis, Institut Teknologi Nasional.

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Abstract

“RANCANG BANGUN SISTEM PENGISIAN DAYA BATERAI MENGGUNAKAN BOOST CONVERTER SEBAGAI MAXIMUM POWER POINT TRACKING CONTROLLER BERSUMBER SOLAR CELL PADA MOBIL LISTRIK KAMPUS” (Ervan Dilla Dwi Cahyo 1752015 Teknik Listrik DIII) (Dosen Pembimbing 1 : Ir. Eko Nurcahyo, MT) (Dosen Pembimbing 2 : Bima Romadhon Parada Dian Palevi. ST.,MT) ABSTRAK Mobil listrik dapat memanfaatkan energi matahari sebagai solusi alternatif pengisian baterai. Sistem pengisian daya baterai dibuat dengan topologi Boost Converter yang difungsikan sebagai MPPT Controller. Maximum Power Point Tracking (MPPT) untuk menjaga titik kerja panel surya, boost converter sebagai pengatur tegangan keluaran dari panel surya untuk menjaga titik kerja panel surya tetap pada titik MPP. Sistem pengisian daya baterai menggunakan mikrokontroler sebagai pusat kendali untuk menaikkan tegangan luaran solar cell secara otomatis. Tegangan output dari sistem pengendali ini dijaga sesuai standar tegangan pengisian baterai. Adapun hasil dari penelitian yang dilakukan sistem yang dirancang berjalan dengan baik. pengujian sistem pengisian daya baterai mencapai efisiensi 80 % saat intensitas matahari tinggi yaitu pada pukul 10.00 sampai 14.00. Setelah pemasangan boost converter MPPT controller, dapat mempertahankan tegangan keluaran dari modul solar cell disekitar nilai maksimum 1-2 V dari tegangan actual baterai dan mampu mengisi baterai hingga 16.97 %. Kata Kunci : solar cell, mikrokontroler, boost converter, MPPT, baterai “DESIGN AND BUILD A BATTERY CHARGING SYSTEM USING BOOST CONVERTER AS A MAXIMUM POWER POINT TRACKING CONTROLLER WITH SOLAR CELL SOURCE ON CAMPUS ELECTRIC CARS” (Ervan Dilla Dwi Cahyo 1752015 Teknik Listrik DIII) (Dosen Pembimbing 1 : Ir. Eko Nurcahyo, MT) (Dosen Pembimbing 2 : Bima Romadhon Parada Dian Palevi. ST.,MT) ABSTRACT Electric cars can use solar energy as an alternative solution for charging batteries. The battery charging system is made with a Boost Converter topology which functions as an MPPT Controller. Maximum Power Point Tracking (MPPT) to maintain the working point of the solar panels, Boost Converter as a regulator of the output voltage of the solar panels to keep the working point of the solar panels at the MPP point. The battery charging system uses a microcontroller as a control center to increase the solar cell output voltage automatically. The output voltage of this control system is maintained according to the battery charging voltage standard. The results of the research conducted by a system that is designed to run well. testing of the battery charging system reaches an efficiency of 80% when the sun's intensity is high, from 10:00 to 14:00. After installing the boost converter MPPT controller, it can maintain the output voltage of the solar cell module around a maximum value of 1-2 V of the actual battery voltage and can charge the battery up to 16.97%. Keywords : solar cell, microcontroller, Boost Converer,MPPT, Battery

Item Type: Thesis (Tugas Akhir)
Uncontrolled Keywords: solar cell, microcontroller, Boost Converer,MPPT, Battery
Subjects: Engineering > Electrical Engineering
Divisions: Fakultas Teknologi Industri > Teknik Listrik DIII > Teknik Listrik DIII(Tugas Akhir)
Depositing User: Ms Nunuk Yuli
Date Deposited: 25 Sep 2020 03:33
Last Modified: 25 Sep 2020 03:33
URI: http://eprints.itn.ac.id/id/eprint/5097

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