Pengembangan Deteksi Suhu dan Kelembaban Laboratorium Elektronika Dengan Menggunakan Metode Fuzzy Logic

Bahrun Niam, Rony Darpono, Martselani Adias Sabara

Abstract


The electronics laboratory is an important place to run the practical activities, especially among electronics students. It is important to protect laboratory equipment and components from the temperature and humidity factors. Whether, the temperature is too cold and the humidity is too high, it caused the corrosion of all electronic components. Thus, it also caused minor until severe damage of the components. Arduino is an open source electronics kit which specially designed to make easier for researcher to develop electronic devices regarding to various sensors and controllers. The laboratory room temperature detection system was carried out by using an Arduino device, which aims to determine the temperature conditions in the laboratory. The method used in this research is the fuzzy logic method. The software used is Arduiono and Matlab, while the hardware is power supply, D1 Mini microcontroller, DHT11 sensor and LCD. The results showed that the temperature data obtained from the DHT11 sensor will be displayed on the LCD. The temperature data obtained is 27 degrees Celsius – 29 degrees Celsius. The system is able to provide information when the temperature and humidity conditions are abnormal and the LED lights up according to room conditions.


Keywords


Microcontroller, Temperature, Fuzzy

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References


Bustanul, A., Nugroho, A A. (2018). Pengendalian Suhu Dalam Ruang Berbasis Logika Fuzzy Dengan Menggunakan National Instrument Myrio 1900. FMIPA UNIMUS 2018. ISBN : 978-602-5614-35-4

Defri, A., Putri, A, R. (2019). Pengembangan Sistem Pengendalian Dan Monitoring Suhu Pada Ruang Inkubator Budidaya Lovebird Berbasis Fuzzy Logic. JOEICT (Jurnal of Education and Information Communication Technology). 03(02), 141 – 149.

Dini, I., Syauqi, D., Prasetio, B, H. (2017). Perbandingan Jumlah Membership Dan Model Fuzzy Terhadap Perubahan Suhu Pada Inkubator Penetas Telur. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer. 1(6), 476-485

Edy, P., Juliasari, N., Ariyani, P, F. (2019). Monitoring Dan Pengontrolan Suhu Serta Kelembaban Penyimpanan Bahan Makanan Berbasis Web Dengan Metode Fuzzy Logic Controller. SINTAK. ISBN: 978-602-8557-20-7.

Keputusan Menteri Kesehatan Republik Indonesia Nomor 1405/Menkes/SK/XI/2002.

Rosdian, A R., Wibowo, A. (2014). Monitoring Suhu Ruangan Server Dengan Fuzzy Logic Metode Sugeno Menggunakan Arduino dan SMS. SWABUMI, I(1). ISSN 2355-990X

Rusli, Mochammad. (2017). Dasar Perancangan Kendali Logika Fuzzy. Malang. UB Media

Sumarjono, Agus. (2018). Sistem Monitoring Dan Pengendalian Suhu Ruangan Di Laboratorium Dengan Menggunakan Labview Berbasis Arduino. Integrated Lab Journal, 06(02), 65-74

Tjolleng, Amir. (2017). Pengantar Pemrograman Matlab. Jakarta. PT. Gramedia

Yuwono. (2016). Arduino Itu Pintar. Jakarta. PT Elex Media Komputindo




DOI: http://dx.doi.org/10.22373/crc.v6i1.10498

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Copyright (c) 2022 Bahrun Niam, Rony Darpono, Martselani Adias Sabara

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Circuit: Jurnal Ilmiah Pendidikan Teknik Elektro
P-ISSN 2549-3698
E-ISSN 2549-3701
Published by Electrical and Engineering Education Department, Education and Teacher Training Faculty, Universitas Islam Negeri Ar-Raniry Banda Aceh, Indonesia
Email: jurnal.circuit@ar-raniry.ac.id 

Creative Commons License
Circuit: Jurnal Ilmiah Pendidikan Teknik Elektro is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.