Inspiration
First of all, during the transform and rain seasons in an area, the transform wire is cut and falls down in many places, people do not know that the wire is cut and fell down in that area, so many lives are lost. If the wire is cut somewhere, the transformer current should be cut immediately and the alert should go to the EB office.
What it does
Next, how about alert will come for that worker, the moment the wire is cut in the transformer, the current automatic ha off, like the sensor and wire cut, the machine in the EB office will be alerted and the labor mobile will also be alerted. Immediately the workers will go to the spot and change the new wire and turn on the current
How we built it
Benefits of IoT Based Transformer Wire Fault Alert System to People
Reduced power outage time
Wire cut or fault is detected immediately
- Electricity is restored faster
Improved public safety
Live fallen wires are identified quickly
Risk of electric shock accidents is reduced
Prevention of fire accidents
Overload and short-circuit are detected early
Helps avoid transformer and line fires
Protection of home appliances
- Voltage fluctuations are controlled
Reduces damage to electrical devices
Better electricity service
EB office receives alerts without public complaints
Faster maintenance response
Very useful during rainy seasons
Frequent line faults are handled automatically
Ensures continuous power supply
Economic benefits
- Less loss for shops, industries, hospitals, and schools
Transformer - Power supply source
Current Sensor (CT) - Detects wire cut and overload conditions
Voltage Sensor - Detects voltage drop and phase missing
Temperature Sensor - Detects overheating of transformer
ESP32 Controller - Processes sensor data and makes fault decisions
Relay Unit - Switches OFF the transformer during a fault
Internet/Cloud - Sends fault data to the EB office
Mobile App - Provides alert and alarm notification to EB staff mobile phones
Challenges we ran into
Detecting the exact wire cut without false alarms is difficult.
Sensors must work properly in heavy rain, wind, and heat.
The system should cut transformer power instantly for safety.
Providing backup power is necessary during faults.
Devices must be waterproof and weather-resistant.
Lightning and voltage surges can damage electronics.
Strong network connectivity is needed for quick alerts to the EB office.
Installation cost can be high for multiple transformers.
Regular maintenance is required to keep the system reliable.
Approval and safety compliance are needed before real-world implementation.
Accomplishments that we're proud of
Developed a safety-focused idea that helps protect people from electrical accidents.
Created a system to detect wire faults quickly and respond immediately.
Designed an automatic power cut feature to reduce risk.
Planned a real-time alert system to inform the EB office without delay.
Focused on preventing dangerous situations during rainy and storm seasons.
Combined sensors and smart technology for better monitoring.
Proposed a solution that can improve public safety in residential areas.
Built an innovative project with practical real-world application.
Strengthened problem-solving and engineering design skills through this idea.
Contributed toward a smarter and safer electrical infrastructure.
What we learned
Safety First: Immediate power cut when a wire breaks can prevent electric shocks and save human lives.
Use of Sensors: Current and voltage sensors help detect faults like wire cuts, overload, or phase loss quickly.
Automation: A smart controller (like ESP32 or microcontroller) can automatically switch OFF the transformer without waiting for manual action.
Real-time Alerts: Sending instant notifications to the EB office or staff helps them respond faster and fix the problem.
Smart Power Management: Combining technology with the electrical system makes power distribution safer, smarter, and more reliable.
What's next for FIRING SEQUENCE
Do Basic Research Check if similar smart fault-detection systems already exist. Learn how electric line fault detection works.
Define Your Solution Clearly Explain how your system will detect a wire cut, stop the current, and send an alert. Keep the idea simple and practical.
Create a Block Diagram Show parts like sensors → controller → relay → alert system. This makes your idea easier for others to understand.
Build a Small Prototype Use safe, low-voltage components for testing (never experiment with real high-voltage lines). Demonstrate how the alert and auto cut-off work.
Test and Improve Check if the system reacts quickly and avoids false alarms. Improve reliability.
Present Your Idea You can submit it as a college/school project, innovation contest, or science exhibition. It also looks strong for engineering fields like EEE
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