Hybrid Power generation with Wireless EV and Phone charging

Description

Hybrid Power Generation System with Wireless EV and Phone Charging, an innovative solution designed to provide versatile power generation and charging capabilities. This system combines renewable energy sources, such as solar panels, with traditional power sources to enable efficient charging of electric vehicles (EVs) and mobile phones wirelessly. With a comprehensive array of components and features, it offers sustainable and convenient charging solutions for various applications.

Features:

• Utilizes ATMega328P microcontroller and 16 MHz Crystal Oscillator for intelligent control and management of power generation and charging processes.
• Incorporates a switch, 22 pF capacitor, and 7805 voltage regulator for stable power supply and control.
• Features an LCD Display (16×2) and potentiometer for user interface and monitoring of system parameters.
• Includes a soldering iron, solder wire, LED light, resistor, transformer, diodes, and electrolytic capacitor for circuit assembly and integration.
• Utilizes piezoelectric sensors and rectifier circuit for harvesting energy from mechanical vibrations and converting it into electrical energy.
• Equipped with a storage battery and power management system for storing and distributing generated energy efficiently.
• Includes a mobile charging cable and battery for wirelessly charging mobile phones.
• Utilizes a transistor, switch, copper coils, LED, and charging circuit for wireless EV charging.
• Features a car model with wireless charging coil and LEDs for demonstrating wireless charging functionality.
• Includes a 7 Segment Voltmeter for monitoring voltage levels during charging.
• Incorporates a solar panel for harnessing renewable solar energy to supplement power generation.

Components:

1. ATMega328P microcontroller
2. 16 MHz Crystal Oscillator
3. Switch
4. 22 pF Capacitor
5. LCD Display (16×2)
6. Potentiometer
7. 7805 Voltage Regulator
8. LED Light
9. Resistor
10. Transformer
11. Diodes
12. Electrolytic Capacitor
13. Piezoelectric Sensors
14. Rectifier Circuit
15. Storage Battery
16. Power Management System
17. Mobile Charging Cable
18. Battery
19. Transistor
20. Switch
21. Copper Coils
22. Charging Circuit
23. PCB
24. Car Model with wireless charging coil and LED’s
25. 7 Segment Voltmeter
26. Solar Panel

Working:

1. The ATMega328P microcontroller manages the operation of the hybrid power generation system, coordinating energy harvesting, storage, and distribution.
2. Solar panels harness sunlight to generate electricity, which is then stored in the storage battery for later use or immediate consumption.
3. Piezoelectric sensors harvest energy from mechanical vibrations, such as footsteps or vehicle movements, converting it into electrical energy.
4. The rectifier circuit converts harvested AC energy into DC, suitable for charging batteries and powering electronic devices.
5. The power management system regulates the flow of energy, optimizing efficiency and ensuring stable power supply to connected devices.
6. Wireless charging circuits, consisting of copper coils and transistors, enable wireless charging of electric vehicles and mobile phones.
7. The LCD display and 7 Segment Voltmeter provide real-time feedback on system parameters, such as voltage levels and charging status.
8. Users can interact with the system through the potentiometer and switch, adjusting settings and initiating charging processes.
9. The car model with wireless charging coil and LEDs demonstrates the wireless charging functionality, providing a visual representation of the technology in action.

Application:

• Residential Charging Stations: Provides convenient and sustainable charging solutions for electric vehicles and mobile phones in residential settings.
• Public Charging Infrastructure: Enhances public charging infrastructure with versatile and efficient charging options, promoting the adoption of electric vehicles and renewable energy.
• Emergency Power Backup: Serves as a reliable backup power source during emergencies, ensuring uninterrupted power supply for critical devices and appliances.
• Educational Demonstrations: Offers an engaging platform for educational purposes, allowing students and enthusiasts to learn about hybrid power generation and wireless charging technologies.