Description
Arduino Obstacle Avoiding Robot Kit for Learning Robotics
The Arduino Obstacle Avoiding Robot Kit is a hands-on educational robotics project designed for beginners, students, and hobbyists. This smart robot uses an ultrasonic sensor to detect obstacles and automatically changes direction to avoid collisions, demonstrating real-world automation and sensor-based decision making.
Powered by a pre-programmed Arduino board, this kit allows users to quickly assemble and run the robot while also offering the flexibility to modify code and expand functionality. With a sturdy 2-wheel chassis, motor driver, servo motor, and rechargeable power setup, this kit is ideal for learning the fundamentals of robotics, electronics, and embedded programming.
Perfect for STEM education, school projects, workshops, and DIY learning.
Key Features
- Arduino board for quick setup
- Ultrasonic obstacle detection and automatic navigation
- Educational STEM robotics learning kit
- 2-wheel smart robot chassis for stability and mobility
- Servo motor for sensor movement and scanning
- Expandable and reprogrammable Arduino platform
- Ideal for beginners, students, and hobbyists
- Hands-on introduction to automation and robotics
Technical Specifications
| Specification | Details |
| Controller | Arduino |
| Sensor | Ultrasonic Sensor SR04 |
| Motor Driver | L298N Dual H-Bridge |
| Servo Motor | SG90 |
| Chassis Type | 2-Wheel Smart Robot Chassis |
| Power Source | 2 Li-Ion Batteries with Holder 3.7V 18650mah battery |
| Connectivity | Jumper Cables |
| Programming | Arduino IDE (Reprogrammable) |
| Skill Level | Beginner to Intermediate |
Kit Contents
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Pre-Programmed Arduino Board
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2-Wheel Smart Robot Chassis
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Li-Ion Batteries
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Battery Cell Holder
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SG90 Servo Motor
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Ultrasonic Sensor SR04
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L298N Motor Driver
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3D Printed Clamps
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Jumper Cables
Applications
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STEM education and robotics learning
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School and college projects
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DIY robotics and automation practice
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Arduino programming training
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Robotics workshops and labs
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Beginner embedded systems learning
Precautions
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Ensure correct battery polarity before powering on
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Do not short-circuit battery terminals
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Avoid forcing motors or wheels manually
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Keep electronics away from moisture
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Supervise children during assembly
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Upload code only via the supported Arduino IDE