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Because of the high demand for green and sustainable energy, research on solar energy harvesting has become one of the most popular engineering research topics, particularly on renewable energy. Many research studies are devoted to the design and development of efficient and dependable solar power systems. Solar tracking and control have become one of the most important components of a solar power system for improving and optimising efficiency of solar energy absorption.

This project’s goal is to evaluate the performance of a dual-axis solar tracking system. It is made up of three major structures: the inputs, the controller, and the output. The LDRS provides input, the Arduino serves as the controller, and the servo motor serves as the output. The main controller in this project, the Arduino, receives analogue input from LDRs and converts it to a digital signal using an analog-to-digital (A- D) converter. The controller then sends the signal to the servo motor to determine the position of the solar panel.

 

  • Solar Tracker: – Solar trackers are devices used to orient photovoltaic panels, reflectors, lenses or other optical devices toward the sun. Since the sun’s position in the sky changes with the seasons and the time of day, trackers are used to align the collection system to maximize energy production.
  • Dual-axis trackers: Dual-axis trackers have two degrees of freedom that act as axes of rotation. These axes are typically normal to one another. Dual axis trackers allow for optimum solar energy levels due to their ability to follow the sun vertically and horizontally.

Dual Axis Solar Tracking System

₹5,000.00 Regular Price
₹4,500.00Sale Price
    • Project Hardware/Software
    • Project Report 
    • Project Demo 
    • Free Delivery 
    • Enhanced Customer Support 

Hardware / Software

Project Demo

Project Report

Free Delivery

Customer Support

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