PROtek : Jurnal Ilmiah Teknik Elektro
Vol 13 No 2 (2026): Protek : Jurnal Ilmiah Teknik Elektro

Implementation of an IoT-Based Control and Monitoring System for Neon Box Conditions in the Electrical Engineering Building

Hikmatul Amri (Politeknik Negeri Bengkalis)
Zulkifli Zulkifli (Politeknik Negeri Bengkalis)
Stephan Stephan (Politeknik Negeri Bengkalis)
Hardi B (Politeknik Negeri Bengkalis)
Ilham Haris (Politeknik Negeri Bengkalis)
Azzahra Zulaika (Politeknik Negeri Bengkalis)
Riski Kurniansyah (Politeknik Negeri Bengkalis)
Jefri Lianda (Politeknik Negeri Bengkalis)
Marzuarman Marzuarman (Politeknik Negeri Bengkalis)



Article Info

Publish Date
17 May 2026

Abstract

The implementation of an Internet of Things (IoT)-based control and monitoring system for the neon box at the Electrical Engineering Department Building aims to improve operational efficiency, installation safety, and the effectiveness of outdoor lighting maintenance. As an information medium and building identity, the neon box requires real-time monitoring of power, voltage, current, light intensity, and operational status. In this study, a system was designed and implemented using a NodeMCU ESP8266 microcontroller as the main controller, a PZEM-004T sensor to measure voltage, current, and power, a TSL2561 lux sensor to read the light intensity produced by the neon box, and a relay module as an actuator to control the neon box lamp. The Blynk IoT platform is used as the interface to display monitoring data and control the neon box remotely. The system is capable of sending data periodically to the server and displaying information such as voltage, current, power, energy, and illumination levels through a digital dashboard, allowing users to monitor the neon box condition at any time via a smartphone. In addition to monitoring functions, the relay module integrated with the IoT system enables operators to remotely turn the neon box on or off through the Blynk IoT application. The Blynk IoT interface successfully displays four main parameters: voltage, electrical power, lumen, and neon box status at the Electrical Engineering Building. The PZEM-004T sensor achieved an average reading error of 0.66% for voltage and 2.53% for current, while the TSL2561 sensor had an average error of 1.42%. The system can detect lamp failure through combined voltage and power readings, with a response time of 0.856 seconds on the Blynk IoT application, which is influenced by internet network quality.

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Journal Info

Abbrev

protk

Publisher

Subject

Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy

Description

PROtek adalah jurnal ilmiah teknik elektro yang pertama kali dipublikasikan pada September 2013. Jurnal PROtek berada di bawah asuhan Program Studi Teknik Elektro Fakultas Teknik Universitas Khairun, yang merupakan wadah ilmiah untuk menyebarluaskan hasil-hasil penelitian dan kajian analisis yang ...