Haqqi Dudayef, Ahmad (2019) Implementasi Sistem Discharging Tegangan Baterai Menggunakan Kontrol Logika Fuzzy Berbasis Cyber Physics System. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Daya pada baterai jika dilakukan secara terus menerus maka akan mengakibatkan berkurang nya lifetime dari baterai itu sendiri, selain itu mengakibatkan kerusakan pada beban. Penelitian ini bertujuan mendapatkan hasil parameter sistem pengendalian logika fuzzy untuk keluaran teganngan inverter dan respon switching baterai saat discharging berbasis CPS (Cyber Physics System). Masukan kendali logika fuzzy berupa variabel error dan delta error. Hasil tanggapan sistem pengendalian tegangan pada inverter menggunakan algoritma logika fuzzy mempunyai nilai error steady state sebesar 0,18 %, rise time sebesar 0,39 menit, respon peak sebesar 227,04 volt, maksimum overshoot sebesar 1,25 %, peak time sebesar 3 menit, settling time sebesar 49,23 menit. Waktu yang dibutuhkan untuk discharging saat kapasitas baterai 1 dan 2 sebesar 35 % yaitu 1 jam 5 menit dengan daya yang digunakan sebesar 23 watt, kapasitas baterai 1 dan 2 sebesar 53 % yaitu 2 jam 34 menit dengan daya sebesar 27 watt, kapasitas baterai 1 dan 2 sebesar 80 % yaitu 4 jam 30 menit dengan daya sebesar 30 watt, kapasitas baterai 1 dan 2 sebesar 90 % yaitu 5 jam 5 menit dengan daya sebesar 30 watt. Hasil nilai dari karateristik daya keluaran inverter yaitu untuk nilai ketidapastian pengukuran tegangan keluaran inverter dari pemerikasaan UA1 sebesar 0,434 Volt, arus keluran inverter pemeriksaan UA1 sebesar 0,002 Ampere, dan daya keluran inverter pemeriksaan UA1 sebesar 0,408 Watt.
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Power on the battery if carried out continuously will result in a reduced lifetime of the battery itself, besides causing damage to the load. This study aims to obtain the results of fuzzy logic control system parameters for inverter straight output and battery switching response during discharging based on CPS (Cyber Physics System). Fuzzy logic control input in the form of error and delta error variables. The results of the voltage control system response on the inverter using fuzzy logic algorithm have steady state error value of 0,18 %, rise time of 0,39 minutes, peak response of 227,04 volts, maximum overshoot of 1,25 %, peak time of 3 minutes, settling time of 49,23 minutes. The time needed for discharging when the battery capacity is 1 and 2 is 35 % which is 1 hour 5 minutes with the power used at 23 watts, the battery capacity of 1 and 2 is 53 % which is 2 hours 34 minutes with a power of 27 watts, 1 battery capacity and 2 by 80 % which is 4 hours 30 minutes with a power of 30 watts, battery capacity 1 and 2 by 90 %, which is 5 hours 5 minutes with a power of 30 watts. The results of the characteristics of inverter output power are for the uncertainty value of the inverter output voltage measurement of UA1 examination of 0,434 volts, the inverter flow curve UA1 examination of 0,002 Ampere, and the UA1 inverter welding power of 0,408 Watts
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Switching, discharging, tegangan, pengendali logika fuzzy, Inverter, CPS (Cyber Physics System) |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK2692 Inverters T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK2945 Lead-acid batteries. |
| Divisions: | Faculty of Industrial Technology > Physics Engineering > 30201-(S1) Undergraduate Thesis |
| Depositing User: | Ahmad Haqqi Dudayef |
| Date Deposited: | 17 Oct 2024 03:42 |
| Last Modified: | 17 Oct 2024 03:42 |
| URI: | http://repository.its.ac.id/id/eprint/68813 |
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