Nugroho, Muhamad Ari and Agung Setia Budi, S.T., M.T., M.Eng., Ph. D (2024) Rancang Bangun Automatic Transfer Switch (ATS) Pada Sistem Irigasi Otomatis Berbasis Internet of Things. Sarjana thesis, Universitas Brawijaya.
Abstract
Teknik mina padi mengintegrasikan budidaya ikan dengan padi, memberikan keuntungan ganda bagi petani. Keberhasilan teknik ini sangat bergantung pada kualitas dan debit air yang memadai. Inovasi sistem irigasi berbasis Internet of Things (IoT) menawarkan solusi untuk memantau dan mengatur pasokan air secara real-time, membantu petani menghemat tenaga dan memastikan kondisi optimal bagi padi dan ikan. Namun, penerapan IoT di area persawahan sering kali terhambat oleh keterbatasan sumber energi. Panel surya sebagai sumber listrik alternatif memiliki keterbatasan akibat fluktuasi intensitas radiasi matahari. Oleh karena itu, penggunaan generator set (genset) sebagai cadangan diperlukan. Automatic Transfer Switch (ATS) mengalihkan sumber listrik secara otomatis antara panel surya dan genset, namun tetap memerlukan monitoring manual. Integrasi ATS dengan IoT memungkinkan pemantauan dan pengaturan sistem secara otomatis dan real-time. Sistem ini menggunakan sensor arus dan tegangan untuk mendeteksi tegangan baterai, serta modul relay untuk mengaktifkan genset. Pengguna dapat memantau operasional genset, tegangan baterai, deteksi kegagalan sistem, dan mode sumber energi yang digunakan oleh beban. Dengan integrasi ini, sistem irigasi mina padi berbasis IoT dapat beroperasi tanpa gangguan, memastikan keberhasilan budidaya padi dan ikan. Inovasi ini meningkatkan efisiensi dan produktivitas pertanian, serta mendukung keberlanjutan energi di sektor pertanian.
English Abstract
The mina padi technique integrates fish farming with rice, providing double benefits to farmers. The success of this technique relies heavily on adequate water quality and discharge. Internet of Things (IoT)-based irrigation system innovations offer solutions to monitor and regulate water supply in real-time, helping farmers save labor and ensure optimal conditions for rice and fish. However, the application of IoT in rice fields is often hampered by limited energy sources. Solar panels as an alternative source of electricity have limitations due to fluctuations in the intensity of solar radiation. Therefore, the use of a generator set (genset) as a backup is necessary. Automatic Transfer Switch (ATS) switches the power source automatically between solar panels and generators, but still requires manual monitoring. The integration of ATS with IoT allows for automatic and real-time monitoring and regulation of the system. The system uses current and voltage sensors to detect battery voltage, and a relay module to activate the generator set. Users can monitor generator set operation, battery voltage, system failure detection, and the energy source mode used by the load. With this integration, the IoT-based rice mina irrigation system can operate without interruption, ensuring the success of rice and fish farming. This innovation improves agricultural efficiency and productivity, and supports energy sustainability in the agricultural sector.
| Item Type: | Thesis (Sarjana) |
|---|---|
| Identification Number: | 052415 |
| Uncontrolled Keywords: | Automatic Transfer Switch, irigasi, Genset, PLTS, Internet of Things, Mina Padi |
| Divisions: | Fakultas Ilmu Komputer > Teknik Komputer |
| Depositing User: | S Sucipto |
| Date Deposited: | 13 Feb 2025 04:31 |
| Last Modified: | 13 Feb 2025 04:31 |
| URI: | http://repository.ub.ac.id/id/eprint/236635 |
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