Beam Photoelectric Infrared Count Slot Sensor Module 5 Mm
Rs. 37.00 Rs. 45.00
- Product Code: SEN-SPEED
- SKU -
- Availability: In Stock
- For Bulk Order
9962060070
Quick support on WhatsApp (+919962060070) only between morning 11am-4pm, no call will be answered
| SPECIFICATIONS: | |
| Main Chip | optocoupler H2010 LM393 |
| Operating Voltage Range | 3.6~5 VDC |
| Average Current Consumption (mA) | 33 mA |
OVERVIEW:
-Single signal output
-The circuit board output switch!
-The output valid signal is low.
-Can be used for workpiece counts
-It can also be used for industry counting, motor speed testing
PACKAGE INCLUDES:
1 PCS x Beam Photoelectric Infrared Count Slot Sensor Module 5Mm
//SOURCE CODE TAKEN FROM BELOW LINK
//https://create.arduino.cc/projecthub/hardyedela/measurement-of-mobile-robots-with-arduino-and-lm393-sensors-16c5b6
#define LM_pos 9 // left motor
#define LM_neg 8 // left motor
#define RM_pos 10 // right motor
#define RM_neg 11 // right motor
#define joyX A2
#define joyY A3
float radius_of_wheel = 0.033; //Measure the radius of your wheel and enter it here in cm
void setup()
{
rotation = rpm = pevtime = 0; //Initialize all variable to zero
Serial.begin(9600);
lcd.begin(16, 2); //Initialise 16*2 LCD
lcd.print("Bot Monitor"); //Intro Message line 1
lcd.setCursor(0, 1);
lcd.print("-CircuitDigest "); //Intro Message line 2
delay(2000);
lcd.clear();
lcd.print("Lt: Rt: ");
lcd.setCursor(0, 1);
lcd.print("S: D: A: ");
pinMode(LM_pos, OUTPUT);
pinMode(LM_neg, OUTPUT);
pinMode(RM_pos, OUTPUT);
pinMode(RM_neg, OUTPUT);
digitalWrite(LM_neg, LOW);
digitalWrite(RM_neg, LOW);
attachInterrupt(digitalPinToInterrupt(2), Left_ISR, CHANGE); //Left_ISR is called when left wheel sensor is triggered
attachInterrupt(digitalPinToInterrupt(3), Right_ISR, CHANGE);//Right_ISR is called when right wheel sensor is triggered
}
void Left_ISR()
{
left_intr++;delay(10);
}
void Right_ISR()
{
right_intr++; delay(10);
rotation++;
dtime=millis();
if(rotation>=40)
{
timetaken = millis()-pevtime; //timetaken in millisec
rpm=(1000/timetaken)*60; //formulae to calculate rpm
pevtime = millis();
rotation=0;
}
}
int xValue = analogRead(joyX);
int yValue = analogRead(joyY);
int acceleration = map (xValue, 500, 0, 0, 200);
if (xValue<500)
{
analogWrite(LM_pos, acceleration);
analogWrite(RM_pos, acceleration);
}
else
{
analogWrite(LM_pos, 0);
analogWrite(RM_pos, 0);
}
if (yValue>550)
analogWrite(RM_pos, 80);
if (yValue<500)
analogWrite(LM_pos, 100);
v = radius_of_wheel * rpm * 0.104; //0.033 is the radius of the wheel in meter
distance = (2*3.141*radius_of_wheel) * (left_intr/40);
int angle_left = (left_intr % 360) * (90/80) ;
int angle_right = (right_intr % 360) * (90/80) ;
angle = angle_right - angle_left;
lcd.setCursor(3, 0); lcd.print(" "); lcd.setCursor(3, 0); lcd.print(left_intr);
lcd.setCursor(11, 0); lcd.print(" "); lcd.setCursor(11, 0);lcd.print(right_intr);
lcd.setCursor(2, 1); lcd.print(" "); lcd.setCursor(2, 1);lcd.print(v);
lcd.setCursor(9, 1); lcd.print(" "); lcd.setCursor(9, 1);lcd.print(distance);
lcd.setCursor(13, 1); lcd.print(" "); lcd.setCursor(13, 1);lcd.print(angle);
15 days