Konfigurasi Arduino IDE Untuk Monitoring Pendeteksi Suhu dan Kelembapan Pada Ruang Data Center Menggunakan Sensor DHT11

 (*)M Irsyad Hakiki Mail (Universitas Nasional, Jakarta, Indonesia)
 Ucuk Darusalam (Universitas Nasional, Jakarta, Indonesia)
 Novi Dian Nathasia (Universitas Nasional, Jakarta, Indonesia)

(*) Corresponding Author

Submitted: January 2, 2020; Published: January 29, 2020

DOI: http://dx.doi.org/10.30865/mib.v4i1.1876

Abstract

In this Digital era, Microcontrollers are now growing rapidly and are increasingly in demand in control system applications. Including Arduino Microcontroller, by using this Arduino trying to overcome a problem that often occurs in the Data Center space, namely the problem of temperature and humidity instability that has a major impact on data on each rack in the data center space. This problem occurs if the temperature is too hot or too excessive humidity which results in overheating so that it can damage data stored in the data center. To solve the problem, Arduino detects temperature and humidity using a DHT11 module that can detect clearly and accurately, and can display on the LCD screen, or display the results of temperature and humidity detection on a webbased Thingspeak application and the Blynk application that can be accessed via a smartphone. Internet-based of Things (IoT). With DHT11 processed by Arduino can produce an ideal temperature of 18 ° C - 28 ° C and humidity of 40.00% - 60.00%, and provide Notifications that will be sent to the blynk application if there are problems with temperature and humidity instability.

Keywords


Arduino, DHT11, Internet Of Thing, Monitoring, Smartphone, Thingspeak

Full Text:

PDF


Article Metrics

Abstract View: 516 times | PDF View: 291 times

References

Najmurrokhman, Kusnandar, and Amrulloh, “Prototipe Pengendali Suhu dan Kelembaban untuk Cold Storage Menggunakan Mikrokontroler dan Sensor DHT11” J. Teknol, vol. 10, no. 1, Januari 2018.

R. Rahim, I. K. Sudarsana, and R. Manikandan, “Humidity and Temperature Prototype for Education with Internet Of Thing” Int. J. Pure and Applied Mathematics, vol. 119, no.16, pp. 2487-2491, 2018.

A. H. Saptadi, “Perbandingan Akurasi Pengukuran Suhu dan Kelembaban Antara Sensor DHT11 dan DHT22” J. Infatel, vol. 6, no. 2, November 2016.

[Menkes] Menteri Kesehatan Republik Indonesia. Keputusan Menteri Kesehatan Republik Indonesia Nomor 1405/Menkes /SK/XI/2002 Tentang Persyaratan Kesehatan Lingkungan Kerja Perkantoran dan Industri, Jakarta (2002).

S. Rumalutur, and A. Mappa, “Temperatur and Moisture Monitoring System with Arduino and DHT11” J. Elekt. Luct. vol. 5, no. 2, November 2019.

Y. Wang, and Z. Chi, “System of wireless temperature and humidity monitoring based on Arduino Uno platform” in Proce - 2016 6th Int. Conf. on Instru. and Meas, IMCCC 2016, pp. 770–773, 2016.

M. Z. Irvan, and J. Endri, “Rancang Bangun Pengatur Suhu dan Kelembaban Ruang Server Berbasis IoT” Sem. Nasional, 2 Februari 2019.

K. S. Budi, and Y. Pramudiya, “Pengembangan Sistem Akuisisi Data Kelembaban dan Suhu dengan Menggunakan Sensor DHT11 dan Arduino Berbasis IoT” Pros. Seminar Nasional Fisika, vol. 6, Oktober 2017.

S. I. Jumaila, and S. Maulida, “Pemantauan Suhu dan Kelembaban dan Volume Berbasis Web Secara Real Time” J. Auto. Ktrl. Inst, vol. 9, no.1, 2017

Z. R. S. Elsi, “Perancangan Monitoring Suhu Ruangan Menggunakan Arduino Berbasis Android di PT. Tunggal Idaman Abdi Cabang Palembang” Jti, vol. 8, no. 2, Desember 2016

Bila bermanfaat silahkan share artikel ini

Berikan Komentar Anda terhadap artikel Konfigurasi Arduino IDE Untuk Monitoring Pendeteksi Suhu dan Kelembapan Pada Ruang Data Center Menggunakan Sensor DHT11

Refbacks

  • There are currently no refbacks.


Copyright (c) 2020 JURNAL MEDIA INFORMATIKA BUDIDARMA

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.



JURNAL MEDIA INFORMATIKA BUDIDARMA
STMIK Budi Darma
Sekretariat : Jln. Sisingamangaraja No. 338 Telp 061-7875998
email : mib.stmikbd@gmail.com

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.