AI Single-Board Computer
OrangePi 5 PRO-based Ubuntu-Linux platform for advanced AI processing
Industrial Robotics Platform
Industrial Robotics. Autonomous by Design.
From Mechatronics Robotics Education to Industrial Prototypes
A robot platform with real industrial principles. Autonomous and AI-driven.
Hands-On Industrial Platform
Built with real industrial components and principles for authentic learning experiences
Embedded Microcontroller
RP2040 with UARTs, digital I/O, ADC inputs, I2C/SPI for sensors and actuators
CAN-Bus Architecture
Industrial-grade communication connecting motor drivers, controllers, and sensors
Vision System
USB-connected camera for image processing and AI-powered vision tasks
Ethernet & Connectivity
Support for LiDAR, IMU (I2C), and various industrial sensors
Power Management
Integrated battery system with voltage monitoring and brushless motor drivers
Python Programming
Easy-to-use Python platform for rapid development and prototyping
Complete Documentation
Comprehensive guides covering principles, schematics, and software implementation
Product Variants
Choose Your Kit
Select the perfect starting point for your robotics education journey
Hardware Kit
Maximum flexibility Build From Scratch
Complete component set for building your own custom robotic platform. Perfect for hands-on learning and custom configurations.
What's Included:
- OrangePi 5 PRO AI computer
- RP2040 microcontroller
- CAN-bus motor drivers
- Brushless motors & encoders
- IMU, sensors & connectivity modules
- Full documentation & schematics
Popular
Ready Robot Kit
Fastest learning Start Immediately
Pre-assembled platform ready to code and deploy. Includes everything from the hardware kit plus assembled chassis and working examples.
What's Included:
- Fully assembled robot platform
- Pre-configured electronics
- Battery & power management
- Camera & sensor suite installed
- Pre-loaded Python examples
- Quickstart tutorial included
Both kits include full access to documentation, Python libraries, and community support.
Drive Systems
Three pre-configured wheel-based platforms to explore different robotics principles
Differential Drive
Classic two-wheel independent drive system for precise maneuvering and rotation
- Independent wheel control
- Zero-radius turning
- Simple kinematics
Ackermann Steering
Car-like steering mechanism with gimbal-gear-motor and magnetic 360° encoder
- Realistic vehicle dynamics
- Precision steering control
- Industrial-grade encoder
Mecanum Wheels
Omnidirectional movement with holonomic drive capabilities
- Move in any direction
- Strafe and rotate simultaneously
- Advanced control systems
Educational Excellence
Ideal For Learning
Comprehensive hands-on education in modern robotics and automation
Wheel-Based Robotic Systems
Master the mechanics and control of various wheel configurations
Hardware Interfaces
Learn CAN-bus, SPI, I2C protocols for industrial robotics communication
Image Processing
Implement computer vision and real-time image processing for robotics
AI for Robotics
Deploy AI models for autonomous navigation and decision-making
Hands-On Workshops Included
Comprehensive teaching materials and guided workshops to accelerate your learning journey
Ready to Run
Real Working Examples
Production-ready Python implementations you can use and modify immediately
Motor Control Python
Steering motors forward/reverse with precise control
Person Detection Python Live Demo
AI-powered autonomous follow-me robot with real-time tracking
Gesture Control Python
Hand detection and gesture-based robot control using AI
Start Building Today
Get hands-on with industrial robotics principles and AI-driven autonomous systems