Smart Home Energy Monitoring System

EasyChair Preprint no. 10206

Abstract

By eliminating overload-related electrical accidents, the Smart Energy Management System described in this paper offers a clever and user-friendly way to lower electricity costs while also ensuring safety. The system employs an Arduino Nano, an LCD16X2, an ACS712 30A current sensor, a 10k potentiometer, a 2.2k resistor, a blank PCB board, male and female headers, and a soldering iron to track and manage the power usage of household appliances and notify the user of any irregularities. The design and execution of the system, together with the hardware and software components employed, testing, and outcomes, are covered in this paper. Also covered are the system's advantages, possible uses, and advancements in the future.By eliminating overload-related electrical accidents, the Smart Energy Management System described in this paper offers a clever and user-friendly way to lower electricity costs while also ensuring safety. The system employs an Arduino Nano, an LCD16X2, an ACS712 30A current sensor, a 10k potentiometer, a 2.2k resistor, a blank PCB board, male and female headers, and a soldering iron to track and manage the power usage of household appliances and notify the user of any irregularities. The design and execution of the system, together with the hardware and software components employed, testing, and outcomes, are covered in this paper. Also covered are the system's advantages, possible uses, and advancements in the future.

Keyphrases: ACS712, Arduino IDE, Arduino Nano, current sensor, Microprocessor

@Booklet{EasyChair:10206,
  author = {Sriman Dhar and Richard Victor Biswas and Taiaba Rahat Ritu},
  title = {Smart Home Energy Monitoring System},
  howpublished = {EasyChair Preprint no. 10206},

  year = {EasyChair, 2023}}