Indra Mukromin, Radian (2019) Implementasi Charging Dan Switching Baterai Berbasis Pengendalian Logika Fuzzy Pada Buck Converter Menggunakan Cyber Physics System. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Komponen buck converter menjadikan tegangan masukan menjadi lebih kecil. Penelitian bertujuan mendapatkan hasil tanggapan sistem pengendalian logika fuzzy untuk charging masukan panel surya dan hasil tanggapan switching baterai menggunakan cyber physics system. setpoint buck converter berupa tegangan sebesar 15,60 Volt. Masukan kendali logika fuzzy berupa error dan vin. Keluaran elemen kendali berupa sinyal pulse width modulation simulasi dan perhitungan dengan rata rata error sebesar 0,074 %. Hasil uji performansi sampling data sebesar 1 menit diperoleh karakteristik respon peak sebesar 15,82 Volt, max overshoot sebesar 1,15 %, time peak 46 menit, rise time sebesar 11 menit, settling time sebesar 55 menit, dan performance switching sesuai pada setpoint kapasitas baterai 100 % relay akan memutus charging. Waktu yang dibutuhkan 3 jam untuk charging dengan arus masukan sebesar 1,3 Ampere pada saat kapasitas baterai 1 dan 2 sebesar 50 %. Hasil pengukuran ketidakpastian UA1 untuk kontrol tegangan keluaran buck converter 15,582 ±0,0084 Volt, arus keluaran buck converter sebesar 1,170 ±0,015 Ampere, dan power keluaran buck converter 18,230 ±0,232 Watt.
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Buck converter component makes the input voltage small. The purpose of the research is to get the results of the response of the fuzzy logic control system to charge solar panel input and the results of the battery Switching responses using cyber physics system. The buck converter setpoint is a voltage of 15,60 Volt. Input of fuzzy logic control in the form of error and vin. The output of the control element is a pulse width modulation signal simulation and calculation with an average error of 0,074 %. The 1 minute data sampling performance test results get response characteristics peak of 15,82 Volts, max overshoot of 1,15 %, 46 minutes time peak, rise time of 11 minutes, settling time of 55 minutes, and switching performance according to setpoint of 100 % battery capacity relay will disconnect charging. The time needed is 3 hours for charging with an input current of 1.3 Amps when the battery capacity is 1 and 2 by 50 %. The results of UA1 uncertainty measurement for buck converter kelle control 15,582 ± 0,0084 Volt, buck converter flow current of 1,170 ± 0,015 Ampere, and buck converter power kel 18,230 ± 0,232 Watt.
| Item Type: | Thesis (Other) |
|---|---|
| Additional Information: | RSF 621.312 42 Muk i-1 2019 |
| Uncontrolled Keywords: | Buck Converter, Fuzzy Logic Controller, Switching, Charging, CPS (Cyber Physics System). |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1001 Production of electric energy or power |
| Divisions: | Faculty of Industrial Technology > Physics Engineering > 30201-(S1) Undergraduate Thesis |
| Depositing User: | Radian indra mukromin |
| Date Deposited: | 13 Nov 2024 03:28 |
| Last Modified: | 13 Nov 2024 03:28 |
| URI: | http://repository.its.ac.id/id/eprint/69819 |
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