- No Products In The Cart
- start shopping
Product Description
The rapid depletion of fossil fuels and the escalating concerns over environmental pollution have shifted the global focus toward renewable energy sources and electric mobility. Solar energy stands out as the most abundant and accessible form of clean energy, yet static solar panels often suffer from efficiency losses due to the changing position of the sun throughout the day. This project addresses this limitation by implementing an intelligent solar tracking system that utilizes Light Dependent Resistor (LDR) modules to detect the point of maximum light intensity, ensuring the panel remains perpendicular to solar rays for peak power generation. Beyond energy collection, the project introduces a sophisticated wireless automatic EV charging mechanism, which eliminates the need for physical connectors and manual intervention. By using Infrared (IR) sensors to detect the presence of a vehicle at the charging station, the system triggers a wireless power transfer circuit based on inductive coupling. This seamless integration of tracking and charging technologies creates a self-sustaining infrastructure capable of powering the next generation of transportation. The L293D motor driver acts as the bridge between the control logic and the mechanical actuators, providing the necessary torque to reposition the solar array. Ultimately, this system demonstrates a holistic approach to green energy, from high-efficiency generation to the smart, contactless distribution of power for electric vehicles.
Apparatus Required
Solar Panel: To convert sunlight into electrical energy for storage.
LDR Modules (2 units): To sense light intensity and provide input for tracking.
L293D Motor Driver IC: To control the direction of the tracking motors.
DC Gear Motors: To physically move the solar panel assembly.
IR Sensor Module: To detect the presence of the EV at the charging station.
Inductive Charging Coils: A pair of coils for wireless energy transmission.
Rechargeable Battery (12V): To store solar power and provide a steady output.
Voltage Regulator (LM7805): To ensure a stable 5V power supply for the electronics.
Connecting Wires and Breadboard: For establishing circuit connections and prototyping.
Solar tracking system, wireless electric vehicle charging, wireless power transfer, renewable energy project, engineering final year project, Arduino solar tracker, Inductive charging EV, green energy innovations, dual axis solar tracker, wireless EV charging system, DIY engineering projects, sustainable technology, IoT solar tracking, school science fair project, wireless power transmission, clean energy solutions, EV charging technology, mechatronics project, renewable power for EVs, solar energy harvesting.
We also deals with
– Inhouse project training in school and colleges
– Online class/help for invidual projects
– 1000s of readymade projects
– Customized circuits on request
– Both electronics and art n craft materila, retail and wholeselling sale
| Minimum Order Quantity | 1 Piece |
| Usage/Application | School science project |
| Project Subject | Automatic irrigation |
| Suitable For | school students science exbition |
| Motor Type | DC |
| Voltage | 9V |
| Brand | Projectronics |
| Model Code | P003 |
| Power | 5watt |
| Packet contents | Complete circuit As per video with PPT, PDF, Ciode and diagram as softcopyd |
Contents
Background paper, gum, house, trees, moisture sensor with dc pump and solar panel connected, container, cups.
Additional Information:
- Item Code: P-003
- Production Capacity: 10
- Delivery Time: 05Days
- Packaging Details: Background paper, Arduino circuit, Adapter/battery, Trees, House, Flex glue, Cars, Solar Panel
