IOT fault-finding in Underground Cable using Arduino | ECE EEE Engineering Projects
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- Опубликовано: 10 фев 2025
- #engineering #finalyearprojects #arduinoproject
IoT fault-finding underground cable,
Arduino cable fault detection,
IoT underground cable system,
Cable fault detection iot based project,
#engineeringproject #capstone Project #major Project
for EEE ECE Mechanical Science Exhibition project
To Buy/ Make this project with training
contact us:
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Ph.D., M.Tech, B.Tech in ECE
🎓Lecturer 🚀#Researcher #Drone #Robotics
Whatsapp : + 91-9810326343
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1. Synopsis/ Documents
2. Block diagram and circuit diagram with explanation.
3. Bill of material.
4. Components Specification list
5. Working principle of the project.
6. Datasheet of all components.
7. Program/code of Arduino with training.
8. Complete Working principle description.
9. Complete interfacing description.
10. you can get the project by courier.
11. viva preparation
ask us if other things needed.
**Description**
This system detects faults in three paths using a module with switches and resistors. When a fault occurs, it causes a voltage drop detected by a voltmeter, and the Arduino displays the fault's location and distance on a 16x2 LCD. Also providing ESP8266-01 Wi-Fi module for internet connectivity system can be expanded to include features like sending fault information via GSM.
**Objectives**
• To identify faults in three distinct paths using a fault detection module with switches and resistors.
• To utilize a voltmeter to detect voltage drops caused by faults in the switches and resistors.
• To show the fault location and distance (in kilometres) on a 16x2 LCD for easy identification
• To connect the fault detection module to a relay and voltmeter circuit to accurately monitor and signal faults.
**Components required**
Arduino (Microcontroller)
4 Channel relay
Fault detection module
LCD 16X2
5V regulator
Battery
ESP8266-01 Wi-Fi
Connecting wires
**Block diagram**
**Methodology**
In this project, the system starts by powering up with a battery, which is regulated to 5V by a 7805-voltage regulator to ensure proper functioning of the Arduino and other components. Once the Arduino initializes and runs its code, it monitors a fault detection module having three paths, each with four switches connected in series with resistors between each one of them. This module relates to a relay that connects to a voltmeter circuit. When any switch in any path is pressed, it causes a voltage drop detected by the voltmeter, indicating a fault in that path. The Arduino processes this information and displays the fault’s line and distance (in kilometres) on a 16x2 LCD screen. An ESP 8266-01 wifi module is present in the system which provides connectivity with a web server and also inform about the fault. The system is designed to be expandable, with potential future features including sending the exact fault location via GSM and additional enhancements.
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