Keywords
Rain sensor
Smart home technology
Electrical circuit
Weather-responsive system
How to Cite
Abstract
The research on the design and development of an automatic window covering system using a rain sensor presents significant findings and implications. Through the integration of innovative technologies like the rain sensor and direct current motor GW4632-370, the system effectively responds to weather changes by automatically closing windows when it rains, thereby preventing water ingress into indoor spaces. The study's findings underscore the feasibility and practicality of implementing such systems to enhance convenience and protect interior spaces from adverse weather conditions. Moreover, the successful creation of a 3D window frame design and the establishment of the electrical current circuit demonstrate the potential for broader applications in smart home and office automation. However, further research is warranted to optimize the system's efficiency, explore alternative power sources, and assess its long-term durability and reliability in real-world settings.
Highlight:
- Integration of rain sensor: Enables automatic window closure during rain.
- Utilization of smart home technology: Enhances convenience and weather protection.
- Development of electrical circuit: Facilitates seamless operation and energy efficiency.
Keywoard: Automatic window covering, Rain sensor, Smart home technology, Electrical circuit, Weather-responsive system
References
R. D. Nasution, “Pengaruh Perkembangan Teknologi Informasi Komunikasi terhadap Eksistensi Budaya Lokal,” J. Penelit. Komun. dan Opini Publik, vol. 21, no. 1, pp. 30–42, 2017.
G. A. Dwinata, “Pengaruh perkembangan di zaman modern,” 2013.
S. Bambang, “Pengembangan Trainer Sensor Jarak Dan Warna Sebagai Media Pembelajaran Pada Mata Kuliah Komponen Elektronika Di Universitas Negeri Surabaya,” J. Pendidik. Tek. Elektro, vol. 4, no. 1, pp. 125–129, 2014.
A. Asrul, S. Sahidin, and D. Arista, “Prototype Perancangan Sistem Otomatis Penutup Jendela Kaca dan Penggerak Wiper Pada Mobil Berbasis Arduino Uno R3,” Jutkel J. Telekomun. …, 2020. [Online]. Available: https://ummaspul.e-journal.id/Jutkel/article/download/358/193
M. Ridwan, D. Indra, and E. I. Alwi, “655-Rancang Bangun Alat Jemur Pakaian Otomatis Menggunakan Microkontroler Arduino,” vol. 1, no. 4, pp. 251–258, 2020.
A. Faroqi, E. P. Hadisantoso, D. K. Halim, and M. S. WS, “Perancangan alat pendeteksi kadar polusi udara menggunakan sensor gas MQ-7 dengan teknologi wirelles HC-05,” J. ISTEK, vol. 10, no. 2, pp. 33–47, 2016. [Online]. Available: https://journal.uinsgd.ac.id/index.php/istek/article/view/1476
R. L. Singgeta and R. Rumondor, “Rancang Bangun Dispenser Otomatis Menggunakan Sensor Ultrasonik Berbasis Mikrokontroller Atmega2560,” J. Ilm. Realt., vol. 14, no. 1, pp. 31–36, 2018, doi: 10.52159/realtech.v14i1.113.
H. Tjahjono, “Studi Literatur Pengaruh Keadilan Distributif dan Keadilan Prosedural pada Konsekuensinya dengan Teknik Meta Analisis,” J. Psikol., vol. 35, no. 1, pp. 21–40, 2008.
D. Surani, “Studi literatur: Peran teknolog pendidikan dalam pendidikan 4.0,” Pros. Semin. Nas. Pendidik. FKIP, vol. 2, no. 1, pp. 456–469, 2019.
H. Pujiyanto, “Metode Observasi Lingkungan dalam Upaya Peningkatan Hasil Belajar Siswa MTs,” JIRA J. Inov. dan Ris. Akad., vol. 2, no. 6, pp. 749–754, 2021, doi: 10.47387/jira.v2i6.143.
Y. Tiandho, “Miskonsepsi gaya gesek pada mahasiswa,” J. Pendidik. Fis. dan Keilmuan, vol. 4, no. 1, p. 1, 2018, doi: 10.25273/jpfk.v4i1.1814.
H. Firdaus, “RANCANG BANGUN PENGGERAK PINTU PAGAR GESER MENGGUNAKAN 12 VOLT DIRECT CURRENT (DC) POWER WINDOW MOTOR GEAR,” Univ. Galuh, 1999.
N. Nugroho and S. Agustina, “Analisa Motor Dc ( Direct Current ) Sebagai Penggerak Mobil Listrik,” Mikrotiga, vol. 2, no. 1, pp. 28–34, 2015.
J. T. Mesin, F. Teknik, and U. B. Belitung, “EKSENTRIK MESIN PENUMBUK BERAS ARUK,” pp. 1–5, 2018.
G. Mercado, “Peril,” Filmmak. Eye Lang. Lens, vol. 4, no. 1, pp.
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