Other Arduino Codes and Videos by Robojax

Measure Current using Allegro ACS758 Current Sensor with LCD1602 (I2C) for Arduino Robojax.com

Allegro ACS758 Current Sensor with LCD1602 (I2C) for Arduino

This code is to measure current using Allegro ACS758 Current Sensor and display it on LCD1602 I2C

In order to use this code, you must watch the following two videos and get required library and codes


 
/*
 * 
 * Arduino Sketch for Allegro ACS758 Current Sensor with LCD1602 & I2C module
 * this sensor can measure current at range of up to 200A
 * It operates with 3.3 or 5V
 * This video requires you to watch the following 2 videos before using this code:
 * 1- ACS758 Sensor https://www.youtube.com/watch?v=SiHfjzcqnU4
 * 2- LCD1602 with I2C https://www.youtube.com/watch?v=q9YC_GVHy5A
 * 
 * 
 * Written by Ahmad Shamshiri on Tuesday June 19,2018 at 20:40 at Ajax, Ontario, Canada
 * for Robojax.com
 * View the video instruction fro this code at https://youtu.be/tug9wjCwDQA
 * This code has been downloaded from Robojax.com
 */
#define VIN A0 // define the Arduino pin A0 as voltage input (V in)
const float VCC   = 5.0;// supply voltage 5V or 3.3V. If using PCB, set to 5V only.
const int model = 2;   // enter the model (see below)

float cutOffLimit = 1.00;// reading cutt off current. 1.00 is 1 Amper

/*
          "ACS758LCB-050B",// for model use 0
          "ACS758LCB-050U",// for model use 1
          "ACS758LCB-100B",// for model use 2
          "ACS758LCB-100U",// for model use 3
          "ACS758KCB-150B",// for model use 4
          "ACS758KCB-150U",// for model use 5
          "ACS758ECB-200B",// for model use 6
          "ACS758ECB-200U"// for model use  7   
sensitivity array is holding the sensitivy of the  ACS758
current sensors. Do not change.          
*/
float sensitivity[] ={
          40.0,// for ACS758LCB-050B
          60.0,// for ACS758LCB-050U
          20.0,// for ACS758LCB-100B
          40.0,// for ACS758LCB-100U
          13.3,// for ACS758KCB-150B
          16.7,// for ACS758KCB-150U
          10.0,// for ACS758ECB-200B
          20.0,// for ACS758ECB-200U     
         }; 

/*         
 *   quiescent Output voltage is factor for VCC that appears at output       
 *   when the current is zero. 
 *   for Bidirectional sensor it is 0.5 x VCC
 *   for Unidirectional sensor it is 0.12 x VCC
 *   for model ACS758LCB-050B, the B at the end represents Bidirectional (polarity doesn't matter)
 *   for model ACS758LCB-100U, the U at the end represents Unidirectional (polarity must match)
 *    Do not change.
 */
float quiescent_Output_voltage [] ={
          0.5,// for ACS758LCB-050B
          0.12,// for ACS758LCB-050U
          0.5,// for ACS758LCB-100B
          0.12,// for ACS758LCB-100U
          0.5,// for ACS758KCB-150B
          0.12,// for ACS758KCB-150U
          0.5,// for ACS758ECB-200B
          0.12,// for ACS758ECB-200U            
          };
const float FACTOR = sensitivity[model]/1000;// set sensitivity for selected model
const float QOV =   quiescent_Output_voltage [model] * VCC;// set quiescent Output voltage for selected model
float voltage;// internal variable for voltage
float cutOff = FACTOR/cutOffLimit;// convert current cut off to mV

// ======== start of LCD1602 with i2C settings
#include <Wire.h> 
#include <LiquidCrystal_I2C.h>

// Set the LCD address to 0x27 for a 16 chars and 2 line display
LiquidCrystal_I2C lcd(0x27, 16, 2);
// ======= END of  LCD1602 with i2C settings
void setup() {
    //Robojax.com ACS758 Current Sensor 
    Serial.begin(9600);// initialize serial monitor
    Serial.println("Robojax Tutorial");
    Serial.println("ACS758 Current Sensor");
    Serial.println("with LCD1602 & I2C");    
    // initialize the LCD, 
    lcd.begin();   
  // Turn on the blacklight and print a message.
  lcd.backlight(); 
    lcd.clear();
  lcd.print("Robojax");
  lcd.setCursor (0,1); // go to start of 2nd line 
  lcd.print("ACS758 Current Sensor"); 
  delay(2000); 
  lcd.clear();  
}

void loop() {
  //Robojax code ACS758 with LCD1602 and I2C
  float voltage_raw =   (5.0 / 1023.0)* analogRead(VIN);// Read the voltage from sensor
  voltage =  voltage_raw - QOV + 0.007 ;// 0.007 is a value to make voltage zero when there is no current
  float current = voltage / FACTOR;
  if(abs(voltage) > cutOff ){
    Serial.print("V: ");
    Serial.print(voltage,3);// print voltage with 3 decimal places
    Serial.print("V, I: ");
    Serial.print(current,2); // print the current with 2 decimal places
    Serial.println("A");
  //start of loop Robojax code ACS758 with LCD1602 and I2C
  lcd.clear();
  lcd.setCursor (0,0); // set to line 1, char 0  
  lcd.print("Current: ");
  lcd.setCursor (9,0); // go to start of 2nd line
  lcd.print(current);
  lcd.setCursor (15,0); // go to start of 2nd line
  lcd.print("A");

  lcd.setCursor (0,1);    
  lcd.print("Sense V: ");
  lcd.setCursor (9,1); // go to start of 2nd line
  lcd.print(voltage);
  lcd.setCursor (15,1); // go to start of 2nd line
  lcd.print("V");   
  lcd.backlight();
 //end of loopcode Robojax code ACS758 with LCD1602 and I2C


    
  }else{
    Serial.println("No Current");
  lcd.clear();    
  lcd.setCursor (0,0);    
  lcd.print("No Current");    
  }
  delay(500);
}