Trybotics Logo

DIY Solar Tracker Arduino Project ITA

DESCRIPTION

DIY Solar Tracker Arduino Project ITA

Hi everyone, in this article we are going to make a Solar Tracker ("Solar Tracker") using Arduino. A solar tracker is a mechanical-automatic device that through sensors can understand the position of the Sun that thanks to the motors you can follow it so as to store more solar energy. Let's see how it builds !!

Needs:

To carry out this project we need the following materials:

• Arduino UNO;

• 4 220 Ω resistors;

• 4 photoresistors;

• 2 Servomotors;

• Breadboard;

• Solar Panel ;

JOIN THE YOUTUBE CHANNEL = https://bit.ly/2Chdph2

For more information visit this website = http://www.ingeimaks.it/solartracker.html

Description:

3drag
3D Printer (generic)

Description:

DIY Solar Tracker Arduino Project ITA

Hi everyone, in this article we are going to make a Solar Tracker ("Solar Tracker") using Arduino. A solar tracker is a mechanical-automatic device that through sensors can understand the position of the Sun that thanks to the motors you can follow it so as to store more solar energy. Let's see how it builds !!

Needs:

To carry out this project we need the following materials:

• Arduino UNO;

• 4 220 Ω resistors;

• 4 photoresistors;

• 2 Servomotors;

• Breadboard;

• Solar Panel ;

JOIN THE YOUTUBE CHANNEL = https://bit.ly/2Chdph2

For more information visit this website = http://www.ingeimaks.it/solartracker.html

Description:

CodeC/C++
//Ingeimaks
#include <Servo.h>
//definiamo i servomotori orizzontale e verticale
Servo servohori;
int servoh = 0;
int servohLimitHigh = 160;
int servohLimitLow = 60;

Servo servoverti; 
int servov = 0; 
int servovLimitHigh = 160;
int servovLimitLow = 60;
//Pin fotoresistenze
int ldrtopl = 2; //top left 
int ldrtopr = 1; //top right 
int ldrbotl = 3; // bottom left 
int ldrbotr = 0; // bottom right 

 void setup () 
 {
  servohori.attach(10);
  servohori.write(60);
  servoverti.attach(9);
  servoverti.write(60);
  Serial.begin(9600);
  delay(500);
  
 }

void loop()
{
  servoh = servohori.read();
  servov = servoverti.read();
  //Valore Analogico delle fotoresistenza
  int topl = analogRead(ldrtopl);
  int topr = analogRead(ldrtopr);
  int botl = analogRead(ldrbotl);
  int botr = analogRead(ldrbotr);
  // Calcoliamo una Media
  int avgtop = (topl + topr) ; //average of top 
  int avgbot = (botl + botr) ; //average of bottom 
  int avgleft = (topl + botl) ; //average of left 
  int avgright = (topr + botr) ; //average of right 

  if (avgtop < avgbot)
  {
    servoverti.write(servov +1);
    if (servov > servovLimitHigh) 
     { 
      servov = servovLimitHigh;
     }
    delay(10);
  }
  else if (avgbot < avgtop)
  {
    servoverti.write(servov -1);
    if (servov < servovLimitLow)
  {
    servov = servovLimitLow;
  }
    delay(10);
  }
  else 
  {
    servoverti.write(servov);
  }
  
  if (avgleft > avgright)
  {
    servohori.write(servoh +1);
    if (servoh > servohLimitHigh)
    {
    servoh = servohLimitHigh;
    }
    delay(10);
  }
  else if (avgright > avgleft)
  {
    servohori.write(servoh -1);
    if (servoh < servohLimitLow)
     {
     servoh = servohLimitLow;
     }
    delay(10);
  }
  else 
  {
    servohori.write(servoh);
  }
  delay(50);
}

Description:

solar_tracker_arduino_3ZnPz08B5v.ino

Description:

Connection
Schema wct3riduon
Connection_2
Solartracker bb spats7l3rh


YOU MIGHT ALSO LIKE