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All Journal INFOKUM Jurnal Scientia Fidelity : Jurnal Teknik Elektro Jurnal Pengabdian Masyarakat Bestari (JPMB)
Mhd Erpandi Dalimunthe
Universitas Pembangunan Panca Budi Sumatera Utara, Medan, Indonesia
Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Industrial & Manufacturing Engineering Mathematics Social Sciences

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Journal : Jurnal Scientia

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A SOCIALIZATION OF HOUSEHOLD ELECTRICAL INSTALLATIONS ACCORDING TO SNI STANDARDS (INDONESIAN NATIONAL STANDARD) TO PREVENT FIRE Ahmad Faisal; Mhd Erpandi Dalimunthe; Trinidad Daniel Silalahi
Jurnal Scientia Vol. 12 No. 03 (2023): Education, Sosial science and Planning technique, 2023 (June-August)
Publisher : Sean Institute

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Abstract

The more sophisticated and prosperous human civilization along with the development of technology. The rapid development of technology has resulted in the need for electrical energy sources also increasing. The source of electrical energy is one of the supporting factors for human survival, especially for household or residential electricity needs. One of the functions of electricity in the house is as lighting, apart from that electricity functions as a support for other technologies such as turning on TVs, computers, blenders, cellphone chargers and other electronic equipment. However, the use of electricity often results in accidents such as fires, explosions and damage to electronic equipment caused by several factors such as electrical installation errors in residential homes and improper or non-standard use. This socialization aims to provide understanding to the public to understand the importance of household electrical installation standards in accordance with the Indonesian National Standard (SNI) or General Electrical Installation Requirements (PUIL) to prevent fires and other hazards.
An Implementation Iot Weather Station Based On ESP 32 Beni Satria; Rahmaniar, Rahmaniar; M. Erpandi Dalimunthe
Jurnal Scientia Vol. 13 No. 04 (2024): Education and Sosial science, September-December 2024
Publisher : Sean Institute

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This study discusses the development of an Internet of Things (IoT)-based weather station using NodeMCU ESP32, BMP280 sensor, and DHT11. This weather station is designed to collect real-time temperature, humidity, and atmospheric pressure data, and transmit them to an online platform for further analysis. NodeMCU ESP32 is used as the main microcontroller tasked with controlling and collecting data from both sensors. The BMP280 sensor is used to measure atmospheric pressure and temperature, while the DHT11 sensor is used to measure air humidity. The collected data is sent via a Wi-Fi connection to the Blynk server for storage and analysis. Through the use of IoT technology, this weather station provides the ability to monitor weather conditions in real time and take necessary actions based on the collected data. Integration with an online platform allows remote data access, allowing users to monitor weather conditions from anywhere. Thus, this study not only illustrates the implementation of IoT technology in monitoring weather but also opens up opportunities for broader applications in environmental monitoring and resource management.
Co-Authors Ahmad Faisal Bahtiar Siregar Beni Satria Berthauli. S Dwi Permata Sari Eddy Sutejo M. Fadlan M. Iqbal Parlin Siagian Rahmaniar Rahmaniar, Rahmaniar Ridho Anggu Frasasti Trinidad Daniel Silalahi