5.00
(2 Ratings)

Arduino Obstacle Avoiding Course

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About Course

πŸš— Arduino Obstacle Avoiding – Complete Kit
Build your own smart robot that can detect and avoid obstacles automatically using Arduino. This complete kit includes all essential components like Arduino board, sensors, motors, chassis, and wheels, along with step-by-step tutorials. Perfect for beginners, hobbyists, and students working on robotics projects or exhibitions.

βœ… Learn robotics & Arduino programming
βœ… Hands-on practical project
βœ… Ideal for college assignments & science fairs

πŸ“¦ What’s Inside the Kit?

  • Arduino board & motor driver

  • Ultrasonic sensor

  • Robot chassis with wheels & motors

  • Jumper wires & battery holder

  • Codes, Tutorial Videos, and User Manual

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What Will You Learn?

  • βœ… Understand the basics of robotics and Arduino programming
  • βœ… Learn how to use an ultrasonic sensor for distance measurement
  • βœ… Connect and control DC motors using a motor driver module
  • βœ… Assemble a complete robot chassis with wheels and components
  • βœ… Write and upload Arduino code to build an obstacle avoiding robot
  • βœ… Debug, test, and optimize robot performance for smooth operation
  • βœ… Gain hands-on experience in electronics, circuits, and prototyping
  • βœ… Apply knowledge to real-world applications like autonomous robots
  • βœ… Improve project skills for college assignments and exhibitions
  • βœ… Earn a certificate of completion after finishing the course

Course Content

1. Arduino UNO Board

2. Ultrasonic Sensor (HC-SR04)

3. Motor Driver Module (L293D or L298N)
A motor driver module is required because Arduino cannot directly supply enough current to run DC motors. The L293D or L298N motor driver acts as a bridge between Arduino and motors, enabling direction and speed control. It uses an H-Bridge circuit to allow motors to run forward, backward, or stop. In this project, Arduino sends control signals to the driver, which then powers the DC motors accordingly. Without the motor driver, the motors would not function properly. This component ensures safe operation by isolating Arduino from high motor currents while enabling full robot movement.

4. DC Geared Motors

5. Robot Chassis

6. Wheels

7. Jumper Wires

8. Breadboard (Optional)

9. Battery Holder / Power Supply

Circuit Diagram

Working Code.

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Student Ratings & Reviews

5.0
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SD
Sagar Das
4 months ago
It was an amazing experience getting to know about real-world projects related to IOT and Embedded systems. I am keen to learn more. Thank you RoboxCraft for giving me this oppurtunity
4 months ago
Nice short and sweet details of the projects and circuit diagram with code are available thanks RoboxCraft β™₯️