SISTEM KENDALI LAMPU DAN MONITORING SUHU PADA RUANG LABORATORIUM MEKATRONIKA DAN ROBOTIKA FT UNJ BERBASIS IoT (INTERNET of THINGS)

DHANI ROHMADON, . (2023) SISTEM KENDALI LAMPU DAN MONITORING SUHU PADA RUANG LABORATORIUM MEKATRONIKA DAN ROBOTIKA FT UNJ BERBASIS IoT (INTERNET of THINGS). Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Tujuan dari penelitian ini adalah untuk merancang sistem kendali lampu dan monitoring suhu pada ruang laboratorium mekatronika dan robotika FT UNJ berbasis IoT (Internet of Things) upaya meminimalisir terjadinya lonjakan tagihan listrik akibat lupa mematikan lampu dalam ruangan dan untuk memudahkan monitoring intensitas cahaya, suhu serta kelembaban udara pada ruangan. Perancangan ruangan dilakukan dengan membuat alat yang dilengkapi dengan sistem monitoring. Penelitian dilakukan dengan menggunakan metode Research & Development. Sistem yang diusulkan menggunakan ESP32 sebagai microcontroller. Penggunaan sensor PIR HC-SR501, relay 4 channel, sensor BH1750, sensor DHT22 dan ESP32-Cam yang diintegrasikan dengan Blynk sebagai IoT (Internet of Things). Keunggulan sistem bersifat mudah digunakan dan dapat diakses dari jarak jauh secara real time. Hasil penelitian menunjukan bahwa sistem yang dibuat mampu melakukan kendali lampu, yaitu menyalakan atau mematikan lampu berdasarkan keberadaan seseorang dalam ruangan dan monitoring suhu serta mengirimkan data secara langsung kepada pengguna. Kinerja sensor PIR HC-SR501 dapat mendeteksi keberadaan seseorang di dalam ruangan sebagai input sehingga memiliki output tegangan 3,315V DC (High) dan saat tidak ada orang yang terdeteksi dalam ruangan memiliki output tegangan 0V DC (Low). Kinerja sensor BH1750 memiliki nilai intensitas cahaya dari 71,67 lx (minimal) sampai 75,83 lx (maksimal) dengan persentase error sebesar 0,010%. Kinerja sensor DHT22 memiliki nilai suhu dari 25,00°C (minimal) sampai 26,6°C (maksimal) dengan persentase error sebesar 0,005% dan tingkat nilai kelembaban udara dari 38,8%RH (minimal) sampai 53,4%RH (maksimal) dengan persentase error sebesar 0,075%. ***** The purpose of this research is to design a light control system and temperature monitoring in the mechatronics and robotics laboratory room FT UNJ based on IoT (Internet of Things). air in the room. The design of the room is done by making a tool that is equipped with a monitoring system. The research was conducted using the Research & Development method. The proposed system uses ESP32 as a microcontroller. Using the HC-SR501 PIR sensor, 4 channel relay, BH1750 sensor, DHT22 sensor and ESP32-Cam which are integrated with Blynk as an IoT (Internet of Things). The advantage of the system is that it is easy to use and can be accessed remotely in real time. The results of the study show that the system created is capable of controlling lights, namely turning on or turning off lights based on someone's presence in the room and monitoring temperature and sending data directly to the user. The performance of the HC-SR501 PIR sensor can detect the presence of someone in the room as input so that it has an output voltage of 3.315V DC (High) and when no one is detected in the room it has an output voltage of 0V DC (Low). The performance of the BH1750 sensor has a light intensity value of 71.67 lx (minimum) to 75.83 lx (maximum) with an error percentage of 0.010%. The performance of the DHT22 sensor has a temperature value of 25.00°C (minimum) to 26.6°C (maximum) with an error percentage of 0.005% and a humidity level of 38.8%RH (minimum) to 53.4%RH (maximum) with an error percentage of 0.075%.

Item Type: Thesis (Sarjana)
Additional Information: 1). Dr. Muhammad Yusro, M.Pd, M.T. Ph.D ; 2). Drs. Jusuf Bintoro, M.T.
Subjects: Teknologi dan Ilmu Terapan > Teknik Elektronika
Divisions: FT > S1 Pendidikan Teknik Elektronika
Depositing User: Users 16873 not found.
Date Deposited: 24 Feb 2023 05:55
Last Modified: 24 Feb 2023 05:55
URI: http://repository.unj.ac.id/id/eprint/37081

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