Automatic Fan Control Device Assembly Using Atmega8 Microcontroller

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Ajeng Tiara Wulandari
Jati Sumarah
Bagoes Bambang Prayitno

Abstract

The fan is a tool that is needed to rotate air circulation. In the market, fans are usually controlled manually by turning the control switch. The research problem is how to make a fan tool that can automatically turn on when there is a change in temperature. The purpose of this research is to facilitate users in using the fan. The method used is Research and Development. The stages of Research and Development include: data collection, design, and testing. The automatic fan control circuit consists of an atmega8 microcontroller integrated with a temperature sensor, button and relay. The circuit can display the temperature and can control the fan. The automatic fan control circuit is made on a PCB whose PCB layout is made using a computer with the PCB manufacturing process still using screen printing techniques. The conclusion is that the manufacture of automatic fan control devices integrated with temperature sensors, buttons and relays can facilitate the control of fans so that users do not need to control when the temperature changes.

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How to Cite
Ajeng Tiara Wulandari, Jati Sumarah, & Bagoes Bambang Prayitno. (2023). Automatic Fan Control Device Assembly Using Atmega8 Microcontroller. Jurnal E-Komtek (Elektro-Komputer-Teknik), 7(1), 52-58. https://doi.org/10.37339/e-komtek.v7i1.1158

References

Adriansyah, Andi dan Oka Hidayatma. (2013). Rancangan Bangun Prototipe Elevator Menggunakan Microcontroller Arduino ATMega 328. Jurnal. Teknik Elektro Universitas Mercu Buana

Anugrah, Anggi, & Putra Jaya. (2019). Perancangan Dan Pembuatan Sistem Kendali Kipas Angin Otomatis Berbasis Mikrokontroler Atmega 32. Jurnal Voteteknika. Vol 7, No 2.

Hanafie, Ahmad. (2019). Perancangan Sistem Pengontrolan Kipas Angin Berbasis Mikrokontroller. ILTEK, Volume 14, Nomor 01, April 2019.

Wibowo, Ari. (2011). Pengaturan Kipas Berbasis Mikrokontroller Dengan Menggunakan Sensor Suhu. Tugas Akhir. Teknik Elektro Universitas Negeri Semarang

Rombekila, Aryani. (2021). Rancang Bangun Sistem Kendali Kipas Otomatis Berbasis Arduino Uno Pada Laboratorium Politeknik Amamapare Timika. Jurnal DINAMIS Volume 18 Nomor 1, Juli 2021.

Setiadi, Teguh, Laksaman Haidar, Muhamad Fadlan. (2022). Prototype Rancang Bangun Sistem Lampu Dan Kipas Otomatis Menggunakan Sensor Pir Gerak Suhu Dan Cahaya Berbasis Arduino Uno. Journal of Computer Science and Technology JCS-TECH Vol.2, No.2, November 2022, PP 31-39

Setiawan Fajar Malik Ibrahim, Asep Wasid. (2021). Perancangan Home Automation Dalam Mengontrol Lampu, Kipas, Dan Jemuran Pakaian Menggunakan Blynk Dan Ifttt Berbasis Arduino Uno. Jurnal Informatika & Komputasi Vol. 15 - Nomor 1 - Oktober 2021

Sudrajat, Rakhmat & Fahimatu Rofifah. (2023). Rancang Bangun Sistem Kendali Kipas Angin dengan Sensor Suhu dan Sensor Ultrasonik Berbasis Arduino Uno. Remik: Riset dan E-Jurnal Manajemen Informatika Komputer ,Volume 7, Nomor 1, Januari 2023.

Petrus, S, Ramdan, D, Swandana, M & Petrus. (2019). Design Of Automatic Control Of Wind Flask Based On Space Temperature And Human Motion. JESCE (Journal of Electrical and System Control Engineering), Vol. 2 (2) Februari 2019. Pp. 43-53.

Purnamasari, Indah & Muhammad Rezasatria. (2019). Rancang Bangun Pengendali Kipas Angin Berbasis Mikrokontroller Atmega 16 Melalui Aplikasi Android Dengan Bluetooth. Simetris : Jurnal Teknik Mesin, Elektro dan Ilmu Komputer. Vol 10, No 1 (2019).

A. Tafrikhatin dan DS Sugiyanto, “Handsanitizer Otomatis Menggunakan Sensor Ultrasonik Berbasis Atmega 328 Guna Pencegahan Penularan Virus Corona,” Jurnal E-Komtek , vol. 4, tidak. 2, Des. 2020.

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