Sumber Tenaga BLDC Motor Water Pump Menggunakan Energi Cahaya Matahari pada Penyiraman Tanaman Cabai dalam Greenhouse

Putri, Baby Ayu Cahaya (2018) Sumber Tenaga BLDC Motor Water Pump Menggunakan Energi Cahaya Matahari pada Penyiraman Tanaman Cabai dalam Greenhouse. Diploma thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Budidaya cabai membutuhkan irigasi yang baik dan tepat guna agar mendapatkan hasil produksi yang optimal. Energi yang dibutuhkan untuk menjalankan sistem irigasi didapatkan dari cahaya matahari yang dikonversikan menjadi energi listrik dengan photovoltaic agar dapat memberikan suplai pada BLDC motor water pump. Kestabilan luaran photovoltaic dapat diperbaiki dengan sebuah stabilisator berupa dc to dc converter. Pada tugas akhir ini dirancang dc to dc converter berupa Non-Inverting Buck Boost (NIBB) converter yang berasal dari photovoltaic. Rangkaian NIBB converter dengan tegangan input antara 7 volt sampai dengan 11,99 volt dari photovoltaic membuat mode boost aktif sehingga tegangan output stabil 13,8 volt. Sedangkan, rangkaian NIBB converter dengan tegangan input antara 14,01 volt sampai dengan 23,00 volt dari photovoltaic membuat mode buck aktif sehingga tegangan output stabil 13,8 volt. Tegangan output buck boost converter yang telah stabil dapat mengisi accu 12 volt. Selanjutnya tegangan output accu dinaikkan menjadi 24 volt oleh modul boost converter agar dapat mensuplai BLDC motor water pump 24 volt.=========================================================================================== Pepper plant cultivation requires proper and efficient irrigation to get optimal yield. The energy required to run the irrigation system is derived from sunlight converted to electrical energy by photovoltaic in order to supply the BLDC motor water pump. The stability of the photovoltaic output can be improved with a stabilizer of dc to dc converter. In this final project designed dc to dc converter is a Non-Inverting Buck Boost (NIBB) converter that comes from solar. NIBB converter circuit with input voltage between 7 volts up to 11,99 volts from photovoltaic makes boost mode active so that the output voltage is stable at 13.8 volts. Meanwhile, NIBB converter circuit with input voltage between 14.01 volt up to 23.00 volts from photovoltaic makes the buck mode active so that the output voltage is stable at 13.8 volts. The output voltage of a stable buck boost converter can charge 12 volt accu. Furthermore the output voltage accu be raised to 24 volts by boost converter module in order to supply BLDC motor water pump 24 volts.

Item Type: Thesis (Diploma)
Uncontrolled Keywords: arduino uno, non-inverting buck boost converter, photovoltaic
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1001 Production of electric energy or power
T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1087 Photovoltaic power generation
T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1322.6 Electric power-plants
Divisions: Faculty of Vocational > 36304-Automation Electronic Engineering
Depositing User: Baby Ayu Cahaya Putri
Date Deposited: 21 Jul 2021 23:00
Last Modified: 21 Jul 2021 23:00
URI: https://repository.its.ac.id/id/eprint/57650

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