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Line Following Sensor 5 Array

#RGBD-107 Category: sensor
line followingir sensor
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Product Description

Line Following Sensor 5 Array


Achieve Precise Line Tracking for Robotics

The Line Following Sensor 5 Array, available at Robogearbd.com, is designed to provide accurate and reliable line tracking capabilities for robotics and automation projects. With its array of five sensors, this module enables precise detection of lines and edges, making it ideal for line-following robots, autonomous vehicles, and intelligent navigation systems.

Why Choose Line Following Sensor 5 Array?

  • Enhanced Detection: Five sensor elements offer improved line detection and tracking accuracy.
  • High Sensitivity: Capable of detecting lines with high precision, even in varying lighting conditions.
  • Compact Design: Small and lightweight, making it easy to integrate into various robotic platforms.
  • Versatile Applications: Perfect for line-following robots, automated guided vehicles (AGVs), and other navigation systems.
  • Easy Integration: Simple interface with microcontrollers using analog outputs for each sensor.

Product Specifications

Specification Details
Operating Voltage 5V
Current Consumption 50 mA
Number of Sensors 5
Sensor Type Infrared (IR) reflectance sensors
Detection Range Up to 2 cm
Output Type Analog (one output per sensor)
Interface Pins VCC, GND, 5 Analog Outputs
Dimensions 70 x 25 x 10 mm
Weight Approximately 15 grams

How to Get Started?

  1. Power the Sensor: Connect the VCC pin to a 5V power source and the GND pin to ground.

  2. Connect to a Microcontroller: Connect the five analog output pins to the analog input pins on your microcontroller. These outputs correspond to each sensor in the array.

  3. Calibrate the Sensors: Place the sensor above a line and adjust the calibration to ensure accurate detection. This may involve tuning the thresholds for line detection based on your specific application.

  4. Read Sensor Values: Use your microcontroller to read the analog values from each sensor. The values will vary depending on whether the sensor is detecting a line or the background.

  5. Implement Line Following Logic: Develop algorithms to interpret the sensor readings and control your robot's motors accordingly. This typically involves creating rules to follow the line based on the position of the detected line relative to the sensors.

  6. Test and Adjust: Test the sensor array with your robot or vehicle to ensure it follows the line accurately. Fine-tune the calibration and control algorithms as needed for optimal performance.


Optimize your robotic navigation with the Line Following Sensor 5 Array. Visit Robogearbd.com to purchase and start building precise line-following systems today!

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