Litcius/Paper detail

Construction and Automation of a Microcontrolled Solar Tracker

Juliano da Rocha Queiroz, Anacreone da Silva Souza, Maurício Klein Gussoli, Júlio César Dainezi de Oliveira, Cid Marcos Gonçalves Andrade

2020Processes16 citationsDOIOpen Access PDF

Abstract

A solar tracker can be defined as an electromechanical system capable of following the apparent path of the Sun, in order to orient an array of solar panels and/or collectors directly to the solar rays, maximizing the collected energy. Accordingly, the present work describes the process of building and automating a micro-controlled solar tracker. Two mobile structures were built, one equipped with high-precision step motors and four luminosity sensors separated in quadrants by a cross structure, and the other equipped with DC motors and the 275 Wp solar panel, allowing the design and evaluation of the behavior of each structure separately. The control and automation system is centralized in an Arduino MEGA2560 microcontroller, which runs the tracking and positioning algorithms. The built prototype allows us to carry out studies of solar tracking strategies based on sensor and control systems applied to DC motors.

Topics & Concepts

Solar trackerMicrocontrollerAutomationPhotovoltaic systemArduinoTracking systemDC motorProcess (computing)Solar energyComputer scienceTracking (education)Solar micro-inverterEngineeringControl engineeringComputer hardwareSimulationElectrical engineeringEmbedded systemMechanical engineeringMaximum power point trackingFilter (signal processing)Operating systemInverterPsychologyPedagogyVoltageSolar Radiation and PhotovoltaicsPhotovoltaic System Optimization TechniquesSolar and Space Plasma Dynamics