RANCANG BANGUN PENGATUR SUHU RUANG LABORATORIUM TELEKOMUNIKASI BERBASIS IoT

Authors

  • Slamet Widodo Politeknik Negeri Semarang
  • Thomas Agung Setyawan Politeknik Negeri Semarang
  • Sindung Hadwi Widi Sasono Politeknik Negeri Semarang
  • Ari Sriyanto Politeknik Negeri Semarang
  • Suhendro Suhendro Politeknik Negeri Semarang
  • Aline Nindya Chrismono Sudhibjo Politeknik Negeri Semarang
  • Wenti Aprilia Fitrotunnufus Politeknik Negeri Semarang

Keywords:

Temperature controller, DHT22, Node MCU ESP8266, IoT, AC

Abstract

The comfort of the laboratory space is needed to support the success of the learning process in the laboratory. Therefore we need a system that can regulate the laboratory temperature to stay comfortable. In addition, setting the laboratory temperature will help maintain equipment so that it can function longer. In this study, the design of an IoT-based telecommunications laboratory room temperature control system will be carried out. This system is built using DHT22 as a room temperature and humidity detector which is connected to the NodeMCU ESP8266 which acts as a microcontroller. The control system uses a relay module to connect the AC remote control and as an automatic switch. Temperature and humidity settings are carried out via the IoT network using the Cayenne dashboard. The test results show that the sensor can record data accurately and can be well integrated with transmitter and receiver devices and can be monitored via an android smart phone. Sending sensor data to the database has an average delay of 21 seconds and sending sensor data to the database has a data loss quality of 9.68% in 10 minutes. The average room temperature of the telecommunications laboratory is 24 °C with 60% humidity,

References

Abizar Rachman, Zainal Arifin, Septya Maharani (2020), Sistem Pengendali Suhu Ruangan Berbasis Internet of Things (IoT) Menggunakan Air Conditioner (AC) Dan NodeMCU V3 ESP8266, Prosiding SAKTI

CV ASTRO. (2015). Cara Kerja Sistem AC Ruangan. Retrieved from cvastro.com: https://cvastro.com/cara-kerja-sistem-ac-ruangan.htm

Gunawan, F. A. (2012). Perancangan Sistem Pengendali Suhu dan Kelembaban Untuk Budidaya Jamur Kuping. Surakarta.

Menteri Kesehatan. (2002). Keputusan Menteri Kesehatan Republik Indonesia Nomor 1405/Menkes/SK/XI/2002 mengenai Persyaratan Kesehatan Lingkungan Kerja Perkantoran dan Industri. 1-6.

Patel, K. K., & Patel, S. M. (2016). Internet of Things-IOT: Definition, Characteristics, Architecture,. International Journal of Engineering Science and Computing, 6126.

Putra, C. A. (2011, January 30). http://www.candra.web.id/arsitektur-android-os/. Retrieved from http://www.candra.web.id/: http://www.candra.web.id/

Wicaksana Irsandi Satria dkk, (2018), Perancangan Sistem Monitoring Suhu Gudang Berbasis IoT, CIASTECH, Universitas Widya Gama Malang.

Downloads

Published

2022-05-12