Description
LAFVIN Smart Robot Car with camera builds on the open-source platform to spark creativity, nurture interests, and develop hands-on skills in electronics and robotics assembly.
Specifications:
Main Controller: LAFVIN R3 CH340 Development Board
Input: Infrared Photoelectric Sensor, Ultrasonic Sensor, Buttons
Motor Driver:TB6612 Dual-Channel Motor Driver Chip
Motor: DC Motor (1:48)
Camera :OV3660
WIFI Mode:ESP32 S3 WROOM
Communication:UART/WiFi
Output : Motors, LED Lights, Servo
Power Supply: 2 x 18650 Lithium Batteries (Battery not included)
Features:
FPV First-Person View Video Transmission: Provides real-time video streaming via Wi-Fi and enables remote control of the robot car's movements.
Three Interchangeable Control Methods: Supports seamless switching between onboard buttons, an infrared remote, and a mobile app.
Built on the Open-Source Platform: Offers access to a wide range of free learning resources and project tutorials.
Five Intelligent Operation Modes: Includes Obstacle Avoidance, Infrared Remote Control, Line Following, Object Following, and FPV Video Transmission.
DIY Assembly: Requires full vehicle self-assembly, effectively developing hands‑on skills, logical thinking, and concentration.
Error‑Proof Wiring Design: Sensors feature easy‑connect interfaces to minimize incorrect wiring and simplify the build process.
Feature description:
Five intelligent working modes
Obstacle avoidance mode: Automatically detects and avoids obstacles through ultrasonic sensors.
Infrared remote control mode: Use an infrared remote controller for remote operation.
Tracking mode: Based on infrared photoelectric sensors, it identifies the black route and drives along the preset route.
Auto-follow mode: Capable of following the moving target directly ahead.
FPV video transmission mode: Real-time transmission of camera images via WIFI, enabling first-person perspective remote control.
Wireless transmission and control
With the built-in ESP32-S3 module, it supports WIFI connection. Users can receive real-time video streams through mobile devices and remotely control the movement of the vehicle and the angle of the pan-tilt unit.
Open-source learning platform
Based on the open-source ecosystem, it provides a wealth of open-source codes and learning materials, significantly reducing the entry barrier for robot programming.
Educational Practical Value
Development of practical skills: The complete assembly process enhances spatial thinking and fine motor skills.
Logical thinking training: Implementing different functions through programming to cultivate problem-solving skills Introduction to Electronic Knowledge: Getting Started with Basic Electronic Components such as Sensors, Motor Drivers, and Microcontrollers