Waveshare Industrial USB TO RS485 Bidirectional Converter with Onboard Original CH343G The Waveshare Industrial USB TO RS485 Bidirectional Converter is a robust and reliable solution designed for industrial applications requiring stable and long-distance RS485 communication. Equipped with the original CH343G chip and SP485EEN interface chip, this USB to RS485 converter offers superior stability, compatibility, and data transmission efficiency. Supporting transmission speeds from 300bps to 3Mbps, it allows RS485 communication over distances up to 1.2km and USB connections up to 5 meters. The Waveshare RS485 converter integrates multiple protection circuits, including lightning-proof tube, resettable fuse, ESD, and TVS protection, ensuring safety and durability even in harsh environments. The CH343G RS485 converter also supports automatic identification and adaptive baud rate detection up to 115200bps, making it ideal for upgrading legacy serial devices or MCUs to USB interfaces. This industrial USB RS485 adapter is perfect for demanding industrial systems, automation projects, and communication equipment. Features: Support bidirectional USB-to-RS485 conversion. Fast connectivity, steady and trustworthy, improved compatibility Onboard TVS (Transient Voltage Suppressor), effectively suppress surge voltage and transient spike voltage in the circuit, lightning proof and anti-electrostatic. Onboard resettable fuse and protection diodes ensure steady current/voltage outputs, provide over-current/over-voltage protection, and improve shock resistance. 3 LEDs to indicate the power and transceiver condition.

Waveshare Raspberry Pi Compute Module 4 IO Board with PoE Feature The Raspberry Pi Compute Module 4 IO Board with PoE (Power over Ethernet) functionality is a versatile and robust development platform designed specifically for all variants of the Raspberry Pi Compute Module 4 (CM4). Ideal for prototyping, evaluation, or integration into final products, this IO board provides essential connectivity and interface options, including support for PoE, enabling power and data delivery over a single Ethernet cable. Whether you're a developer testing CM4 capabilities or building an embedded solution, this board offers a reliable foundation with industrial-grade features. Features: Full compatibility with all Raspberry Pi CM4 variants Power over Ethernet (PoE) support for simplified power and data via a single cable Standard Gigabit Ethernet port for high-speed networking Dual HDMI outputs for multi-display support Multiple USB 2.0 ports for peripheral connectivity PCIe Gen 2 x1 slot for expansion (e.g., NVMe SSD, network cards) Camera and display interfaces (CSI and DSI) for multimedia applications Standard GPIO header (40-pin) for hardware interfacing Onboard microSD card slot for CM4 Lite variants (without eMMC) Robust design ideal for industrial and embedded use cases

RoArm-M2-Pro Desktop 4-DOF Robotic Arm Kit Based on ESP32 The RoArm-M2-Pro Desktop 4-DOF Robotic Arm Kit Based on ESP32 designed for innovative applications, featuring a lightweight structure (<900g) and a 0.5kg payload at 0.5m reach. With a 360° omnidirectional base and three flexible joints, it offers a 1-meter workspace, making it ideal for mobile platforms. Its joint direct-drive design enhances precision and reliability, while dual-drive technology boosts shoulder joint torque. Powered by an ESP32 MCU, it supports multiple wireless control modes and seamless integration with various devices via rich communication protocols. The arm includes a user-friendly web application with visualized coordinate control, ROS2 compatibility, and customizable End of Arm Tooling (EoAT) for versatile applications. It also supports wired and wireless communication and comes with extensive tutorials for easy learning. Features: Multiple EoAT mounting methods The EoAT can be used as the fourth degree of freedom or as a clamp and supports a number of mounting techniques. offers open-source DXF and 3D models for secondary development and do-it-yourself projects. Flexible joints × omnidirectional space Adopts 360° rotation base and flexible joints to create an omnidirectional operating space with a 1-meter diameter, allowing the EoAT to move freely in all directions Controlling with a Cross-Platform Web Application is Simple. Access is available after inputting the location; no app installation is necessary. enables users to connect and control RoArm-M2 through the Web App's buttons on PCs, tablets, and smartphones. encourages secondary development of this open-source web application in order to add new features and modify the user interface. Open Source in its Entirety for Secondary Development The Roarm-M2 series' control codes and communication interface papers are fully open source, supporting a variety of languages and secondary development devices. offers simple-to-use, modularized training and examples for novices with no prior experience. Lightweight Construction and Superior Load Capacity Suitable for a variety of mobile robot chassis, the lightweight body weighs less than 900g overall and uses carbon fiber and 5052 aluminum alloy to provide stability under heavy loads. Joint Direct Drive Design the Feedback Precision up to 0.088° A 12-bit high-precision magnetic encoder without any reduction groups can be used to directly extract the joint angle feedback, which is more accurate. The joint angle feedback can then be used to calculate the current target point's real position. Innovative Dual-Drive Technology Doubles the Shoulder Joint Torque We have created a dual-drive control algorithm that greatly increases the power and total load capacity of the RoArm-M2-Pro Series by enabling the two servos at the shoulder joint to efficiently coordinate their output torque. Direct-Drive Clamp Enables Precise Force Control Delicate objects can be clamped without using too much force because to the direct-drive clamp design, which provides fine control over the clamp force in the program. Curve Velocity Control for More Comfortable Motion To eliminate oscillations during start and stop, we employ the curve velocity control method to make the robotic arm operate more smoothly and organically. Other Features: Rubber Band Support for Gravity Compensation: By using the elastic contraction of rubber bands to counteract the effects of gravity and raise the robotic arm's effective load, the SHOULDER and ELBOW joints facilitate the installation of rubber bands to support the arm. Adaptive Force Control: Enabling this function allows you to set a maximum torque limit for each joint. When external force exceeds the threshold, the arm rotates in response and returns to position once the force decreases. One-Click Action Recording: RoArm-M2 saves JSON task files in ESP32 Flash for reliable, repeatable robotic operations. Precise Targeting via Coordinates: Open-source inverse kinematics control enables precise movement in a 3D Cartesian system, calculating joint angles to reach target positions accurately. ESP-NOW Wireless & Low-Delay Control: ESP-NOW enables low-delay wireless control without network infrastructure, supporting broadcast, group, and one-to-one robotic arm control. ESP-NOW Leading-Following Control Mode: In Leading-following mode, the Leader arm sends joint angle data via ESP-NOW to Follower arms, which mimic its actions in real time. Multiple Control Interfaces & Device/Language Support: RoArm-M2 series can be controlled via the WEB app, JSON commands over HTTP, serial, or USB communication for control and feedback. Multiple Installation Methods for Integration: Offers multiple installation schemes and development resources for flexible integration into various projects and applications. Easy To install different peripherals: The upper arm structure features two 1020 European standard aluminum rails with boat nuts and M4 screws for easy installation of additional peripherals. Camera Support for Visual Applications: Includes a camera holder and open-source drawings, allowing direct installation of a compatible camera or others with an adapter. Supports EoAT Expansion for More Functions: Comes with an expansion plate, easy for users to expand and replace different EoAT. Onboard ESP32 Main control board: Adopts ESP32 MCU, supports multiple wireless protocols, and offers extensive open-source resources for innovative application development. ROS2 Compatible with Model Files & Multi-Device Support: Provides communication nodes of ROS2, URDF model description file and zero-based tutorial of ROS2. Extensive Development Tutorials: Complete tutorials and case studies covering functions and applications to help users quickly get started with secondary development. General Driver Board for Robots: Onboard rich interfaces and resources for innovative development and functional expansion. Versatile Onboard Resources & Expansion Support: Integrated TB6612FNG motor drive IC, INA219 battery voltage monitoring, and 9-axis IMU sensor, enabling function expansion and innovation. Mouse drag-and-drop interaction: Offers web and desktop software (open-source Python programs) to set action instructions with mouse press/release for flexible robotic arm control.

Waveshare RoArm-M2-S Desktop 4-DOF Robotic Arm Kit Based on ESP32 The RoArm-M2-S is a 4-DOF smart robotic arm designed for precision and adaptability across various applications. Weighing under 900g, it supports a 0.5kg payload at 0.5m and offers a 1-meter diameter workspace with its 360° omnidirectional base and flexible joints. Its direct-drive joint design and dual-drive technology ensure enhanced torque and accuracy, making it ideal for mobile platforms. Powered by an ESP32 MCU, it supports multiple wireless control modes, ensuring seamless integration with different devices. The user-friendly web app features an intuitive coordinate control mode, making operation effortless for both beginners and experts. Features: Enhanced EoAT Versatility The End-of-Arm Tool (EoAT) can function as the fourth degree of freedom or as a clamp, supporting multiple mounting methods. Includes open-source DXF and 3D models for easy customization and DIY projects. Omnidirectional Motion with Flexible Joints Designed with flexible joints and a 360° rotating platform, the RoArm-M2-S offers a 1-meter operating range, enabling unrestricted movement in all directions. Seamless Cross-Platform Web Control No app installation required—simply enter the robot’s address to connect via PC, tablet, or smartphone. The open-source Web App supports custom UI modifications and feature expansion for advanced users. Fully Open-Source for Custom Development The RoArm-M2 series provides open-source control codes and communication interface documentation, supporting multiple programming languages and hardware platforms. Offers modular training resources, making it beginner-friendly. Lightweight Yet High-Strength Build Weighing less than 900g, the robotic arm is built with carbon fiber and 5052 aluminum alloy, ensuring stability and durability while maintaining compatibility with various mobile robot chassis. High-Precision Joint Feedback (0.088° Accuracy) Equipped with a 12-bit magnetic encoder, the system directly extracts joint angle feedback for enhanced accuracy, allowing for precise positioning of the robotic arm. Dual-Drive Technology for Enhanced Torque A custom dual-drive control algorithm significantly increases shoulder joint torque, enabling higher power output and greater load capacity, ensuring smooth and stable operation. Direct-Drive Clamp for Precise Force Control The direct-drive clamp design allows for fine-tuned force adjustments, ensuring delicate objects are securely gripped without excessive pressure. Curve Velocity Control for Smooth Motion Utilizes an advanced curve velocity control algorithm to minimize oscillations, delivering a natural and fluid movement experience, especially during start and stop operations. Other Features: Rubber Band Gravity Compensation – Uses rubber bands on the shoulder and elbow joints to counteract gravity, increasing the arm’s effective load capacity. Adaptive Force Control – Sets maximum torque limits for joints, allowing the arm to yield when external force exceeds the threshold and return when force decreases. One-Click Action Recording – Saves JSON task files in ESP32 Flash for repeatable and reliable robotic operations. Precision Targeting with Coordinates – Uses inverse kinematics to calculate joint angles for accurate 3D Cartesian positioning. ESP-NOW Wireless & Low-Latency Control – Supports network-free, low-delay control, enabling broadcast, group, and one-to-one communication. ESP-NOW Leader-Follower Mode – The Leader arm transmits joint angle data to Follower arms, allowing real-time synchronized movement. Multiple Control Interfaces – Operates via Web App, JSON commands, HTTP, serial, or USB, supporting various devices and programming languages. Flexible Installation Options – Offers multiple mounting methods and extensive development resources for seamless integration into different projects. Easy Peripheral Installation – Features two 1020 aluminum rails with boat nuts and M4 screws for quick attachment of additional peripherals. Camera Support for Visual Applications – Includes a camera holder and open-source design files for direct camera installation. EoAT Expansion Compatibility – Comes with an expansion plate, making it easy to swap and install different end-effectors (EoAT). ESP32 Onboard Main Control Board – Supports multiple wireless protocols and offers extensive open-source development resources. ROS2 Compatibility – Provides ROS2 communication nodes, URDF model files, and a beginner-friendly ROS2 tutorial. Comprehensive Development Tutorials – Includes detailed guides and case studies for users to quickly start secondary development. General-Purpose Driver Board – Equipped with rich interfaces and expansion options for robotic development and upgrades. Integrated Onboard Resources – Features TB6612FNG motor driver, INA219 battery monitoring, and a 9-axis IMU sensor for enhanced functionality. Mouse Drag-and-Drop Control – Provides a Web and Desktop interface (Python-based) for intuitive action programming via mouse clicks.

Waveshare TTL to RS485 Industrial Isolated Converter Rail-Mount with Multi-Isolation Protection The TTL to RS485 Converter is a professional-grade industrial communication solution that transforms TTL signals to RS485 protocol with complete galvanic isolation. This robust device features 600W lightning protection and multiple isolation barriers that effectively shield your equipment from electrical surges, ground loops, and common mode interference. Designed specifically for industrial environments, it operates reliably across a wide temperature range (-40°C to 85°C) and accepts input voltages from 8V to 36V DC, making it suitable for various power supply conditions in factories, automation systems, and other demanding settings. Installation and setup are straightforward with the converter's DIN rail mounting design and simple DIP switch configuration. No programming is required - just set the baud rate (300bps to 115200bps) using the onboard switches and connect your devices. The converter handles data transmission distances up to 1200 meters, making it ideal for long-distance industrial communication networks. With clear status indicators for power and data transmission, troubleshooting is simplified. This TTL to RS485 converter bridges the gap between modern digital systems and industrial RS485 networks, ensuring reliable communication even in electrically noisy environments where signal integrity is critical. Features: Complete galvanic isolation between TTL and RS485 sides for enhanced safety 600W lightning protection and multi-isolation safeguards against electrical damage Wide operating temperature ranges from -40°C to 85°C for harsh industrial environments Supports communication distances up to 1200 meters for extended range applications Simple DIP switch configuration for baud rates from 300bps to 115200bps Standard 35mm DIN rail mounting design for easy installation in control cabinets Wide voltage input range (8-36V DC) compatible with various industrial power supplies

Waveshare UGV Beast Open-Source Off-Road AI Robot Chassis Kit Suitable for Raspberry Pi 4B/Pi 5 - PI4B AI Kit Acce The UGV Beast is an advanced AI Robot Kit built for exploration and innovation, offering excellent expansion options. It’s an ideal DIY car kit for tech enthusiasts, makers, and beginners eager to explore intelligent robotics and STEM learning. With a high-performance Raspberry Pi AI computer, it efficiently manages complex tasks while fostering creativity. Its dual-controller system combines AI vision processing in the host controller with high-speed operations in the sub-controller, ensuring precise and seamless performance. Featuring a durable robot car chassis kit, this STEM kit is perfect for robotics research, AI development, and secondary programming projects. Easily control it through a browser-based Web Application without installing any software. With real-time video streaming and AI-powered automation, the UGV Beast provides the perfect platform for bringing ideas to life. Note: Raspberry Pi 4 is not included in the package. If you need it for advanced AI applications, you must purchase it separately. Features: Powered by Raspberry Pi Compatible with Raspberry Pi 4B, delivering high-performance computing for enhanced capabilities. 40PIN GPIO Expansion Uses only the UART interface for communication, keeping the 40PIN GPIO header available for additional peripherals and expansion. Advanced Audio Interaction Integrated audio driver board, dual-track speakers, and an onboard microphone. Includes a 3.5mm audio jack for text-to-speech and media playback. Wireless Gamepad Control Comes with a wireless gamepad for flexible operation. Connects via a USB receiver to a PC for remote control over the Internet. Open-source demos allow custom interaction methods 18650 Lithium Battery Support Features a high-efficiency onboard UPS module supporting simultaneous charging and discharging for continuous operation. Spacious Internal Design Supports larger lithium battery packs with an XH2.54 interface, offering a customizable power solution. Open-source drawings provide detailed dimension references. High-Speed Motors with Precision Control Equipped with high-speed motors and high-frequency PID closed-loop speed control, ensuring fast response and smooth operation without burdening the host controller.

Waveshare UGV Beast Open-Source Off-Road AI Robot Chassis Kit  with Raspberry Pi 4B 4GB - PI4B AI Kit The UGV Beast is a cutting-edge AI Robot Kit designed for exploration and innovation, offering extensive expansion possibilities. It’s the perfect DIY car kit for tech enthusiasts, makers, and beginners looking to dive into intelligent robotics and STEM education. Powered by a high-performance Raspberry Pi AI computer, it efficiently handles complex tasks while encouraging creativity. Its dual-controller system integrates AI vision processing in the host controller with high-speed operations in the sub-controller, ensuring smooth and precise performance. Built with a rugged robot car chassis, this STEM kit is ideal for robotics research, AI development, and advanced programming projects. Control it effortlessly through a browser-based Web Application with no software installation required. With real-time video streaming and AI-driven automation, the UGV Beast is an excellent platform for turning innovative ideas into reality. Features: Powered by Raspberry Pi Compatible with Raspberry Pi 4B, delivering high-performance computing for expanded possibilities. 40PIN GPIO Expansion Uses only the UART interface for communication, keeping the Raspberry Pi’s 40PIN header available for additional peripherals and functionality. Versatile Audio Interaction Equipped with an audio driver board, dual-track speakers, and an onboard microphone. Includes a 3.5mm audio jack for text-to-speech and media playback. Wireless Gamepad Control Comes with a wireless gamepad for more flexible operation. Connect the USB receiver to a PC for remote control via the Internet. Includes open-source demos for custom interaction methods. 18650 Lithium Battery Support Features a high-efficiency onboard UPS module that supports simultaneous charging and discharging for uninterrupted operation. Spacious Internal Design Supports larger lithium battery packs with an XH2.54 interface as a replacement for the UPS module. Open-source drawings provide detailed dimensions for customization. High-Speed Motors with Precision Control Equipped with high-speed motors and high-frequency PID closed-loop speed control for fast response without overloading the host controller.

Waveshare UGV Beast Open-source Off-Road AI Robot Chassis Kit with Raspberry Pi 4B and Pan Tilt - PT PI4B ROS2 The UGV Beast ROS2 Kit is a cutting-edge AI robot designed for those interested in exploration, creation, and robotics. Built on ROS 2, it comes equipped with a Lidar and depth camera, making it perfect for both tech enthusiasts and beginners looking to dive into intelligent technology. With its dual-controller design, it combines the power of a host controller for high-level AI functions and a sub-controller for high-frequency operations, ensuring smooth and accurate performance in all tasks. The UGV Beast is easily controlled remotely through a web application—no software installation required—allowing users to begin their journey simply by opening a browser. This robot supports real-time high-frame rate video and a range of AI Computer Vision capabilities, making it an ideal platform to test and bring creative ideas to life. Powered by a Raspberry Pi, the UGV Beast provides the computational power needed for complex functions and exploration, offering endless opportunities to realize your innovative concepts. Features: Based on Raspberry Pi Supports Raspberry Pi 4B, with powerful computing performance to handle more complex tasks, offering more possibilities Dual-Controller Architecture Offers Improved Performance and Effective Teamwork. The sub controller employs an ESP32 for motion control and sensor data processing, while the host controller uses a Raspberry Pi for AI vision and strategy planning. Raspberry Pi OS + ROS2 Docker Guarantees both system compatibility and the robot's enhanced decision-making performance. All AI features of the earlier AI Kit series products are supported. 360° Flexible Omnidirectional Pan-Tilt equipped with 5MP 160° wide-angle camera for capturing every detail All ROS 2 Development Resources are Free Source. All host controller and sub controller demonstrations, including the robot description file (URDF model), the sub controller's sensor data processing node, kinematic control algorithms, and several remote-control nodes, are open source. Multiple Cost-Effective Sensors Adopts multiple sensors with high cost-effectiveness and practicality Auto-Exploration and Mapping Implementing mapping and navigation features concurrently in unfamiliar locations Ising SLAM Toolbox, which streamlines the task execution method. Unmanned applications can benefit from the UGV robot's ability to map and explore new places on its own. Facilitates Communication with Natural Language By using large language model (LLM) technology, users may command the robot using natural language, allowing it to carry out activities including mapping, navigation, and movement. Offers a Web Console Tool Without setting up a virtual machine on your computer, you may use the basic ROS 2 features online. It also works cross-platform on tablets running iOS or Android. To move, map, navigate, and perform other tasks, users only need to launch a web browser. As Night Falls, the Adventure Continues, Supporting Tactical Extension LED light with high brightness to ensure sharp images in low light Recognition, Tracking, and Targeting Built on OpenCV to do automatic targeting and color recognition. allows for extension for additional functionalities and supports automatic LED illumination and one-key pan-tilt control. Other Features: Supports Various ROS 2 Mapping Methods: Meet the needs of mapping in different scenarios ROS2 node command interaction: Users can send control commands via script for operations like moving, location tracking, and navigation, enabling convenient secondary development. Gazebo simulation debugging: Offers Gazebo robot mode and a complete functionality library for simulation debugging, helping verify and test the system in early development stages. Standard Aluminum rail: Includes 2 × 1020 European standard profile rails and allows for the easy expansion of specific operation situations by adding more peripherals via the boat nuts to suit various needs. Supports driving in complex terrain: Enables more stable off-road crossing by utilizing tracked mobile robot chassis with independent suspension systems. Easy Control via Web App: No app needed control via browser on mobile, tablet, or PC with keyboard shortcuts like WASD and mouse support. WebRTC real-time video transmission: Flask-based lightweight web app with WebRTC for ultra-low latency, Python-powered, easily extendable, and OpenCV compatible. Face Detection & Auto Capture: Based on OpenCV to achieve Face recognition, supports automatic photo taking or video recording once a face is recognized. Intelligent Object Recognition: Supports recognizing for many common objects with the default model. Gesture Recognition: AI-Powered Body Interaction: Combines OpenCV and Media Pipe to realize gesture control of Pan-Tilt and LED. More Media Pipe Demos for Easy Video Processing: MediaPipe, an open-source framework by Google, enables high-performance multimedia processing for real-time video analytics in robotics. 40PIN GPIO Extended Header: The robot uses only the Raspberry Pi UART GPIO for communication while providing a 40PIN header for peripheral expansion. Real-Time Data Feedback: Real-time monitoring the operating status of the robot. Web Command Line Tool with Expandable Functions: Quick to set up, easy to expand Easily customize and add new functions without Modifying front-end code. ESP-NOW Wireless Communication for Robots: Using the ESP-NOW protocol, multiple robots can communicate without IP/MAC addresses, enabling multi-device collaboration with 100-microsecond low-latency. Gamepad Control for Enhanced Operation: Includes a wireless gamepad for flexible robot control via USB receiver, with open-source demo for custom interaction methods. Supports 4G/5G Expansion: Supports installing 4G/5G module* for the application scenarios without Wi-Fi. Enables Remote Control via Internet: Our WebRTC-based web demos enable real-time video streaming and remote robot control, with Ngrok tutorials for easy setup. Supports installing smartphone holder: Use a spare phone as a hotspot via a holder for low-cost internet-based remote control. Interactive Tutorials for Hands-on Learning: Supports Jupyter Lab access on mobile and tablets for easy tutorial reading and code editing online. Rich Tutorial Resources: We Provide Complete Tutorials And demos To Help Users Get Started Quickly for Learning and Secondary Development.

Waveshare UGV Beast Open-Source Off-Road AI Robot Chassis with Raspberry Pi 4B and Pan Tilt - PT PI4B The UGV Beast is a versatile AI Robot Kit designed for exploration and innovation, offering excellent expansion capabilities. It’s the perfect DIY car kit for tech enthusiasts, makers, and beginners in programming looking to explore intelligent robotics and STEM learning. Powered by a high-performance Raspberry Pi AI computer, it efficiently handles complex tasks while sparking creativity. Its dual-controller system integrates AI vision processing in the host controller with high-speed operations in the sub-controller, ensuring precise and smooth performance. This STEM kit features a rugged robot car chassis kit, making it ideal for robotics research, AI development, and secondary programming projects. Control it effortlessly via a browser-based Web Application without any software installation. With real-time video streaming and advanced AI-powered automation, the UGV Beast is the perfect platform for turning ideas into reality. Features Powered by Raspberry Pi Supports Raspberry Pi 4B, offering high-performance computing for advanced AI applications, automation, and real-time processing. Enables seamless execution of complex tasks with improved efficiency. Dual-Controller System Utilizes a dual-controller setup for optimized performance. The Raspberry Pi serves as the host controller, handling AI vision and strategic planning, while the ESP32 sub-controller efficiently manages motion control and sensor data processing. Tactical Expansion Capability Designed for tactical upgrades, featuring a 21mm wide rail for mounting additional accessories. Includes a powerful 30KG.CM high-torque bus servo for enhanced precision and control. The integrated high-brightness LED light ensures clear image capture even in low-light conditions. 360° Omnidirectional Pan-Tilt Camera Equipped with a 5MP 160° wide-angle camera, capable of capturing detailed images and videos from multiple angles. The high-torque bus servos offer exceptional flexibility, mimicking the smooth control experience of FPS games for an immersive operational feel. Advanced AI Recognition & Tracking Based on OpenCV, supports color recognition and automatic targeting with one-key Pan-Tilt control and auto LED lighting. Expandable for additional AI functions. Face Detection & Recognition Automatically captures photos or records videos when a face is detected, providing enhanced security and AI interaction. Intelligent Object Recognition Recognizes common objects using a pre-trained AI model, expanding its real-world applications. Gesture Recognition & AI Interaction Utilizes OpenCV and MediaPipe for gesture-based control of the Pan-Tilt and LED lights, allowing intuitive AI interaction through body movements. Cross-Platform Web Control No app installation required! Simply connect via a web browser on mobile, tablet, or PC. Supports WASD keyboard shortcuts and mouse control for seamless navigation. Supports Driving in Complex Terrain Moves smoothly on rough terrain with a tracked chassis and independent suspension for better stability. Vision Line Tracking for Autonomous Driving Integrated with Computer Vision line tracking, allowing the robot to follow a preset path using yellow tape. A simple demo helps users understand the fundamentals of autonomous driving algorithms. ESP-NOW Wireless Communication Between Robots Based on the ESP-NOW communication protocol, multiple robots can communicate without an IP or MAC address, achieving low-latency (100 microseconds) multi-device collaboration for swarm robotics applications. Pan-Tilt Vertical Stabilization for Various Road Conditions Supports camera stabilization using an IMU sensor, ensuring a steady image even on rough terrain. The sub-controller reads and processes IMU data, keeping the Pan-Tilt stable without using host computing resources. Other Features Gamepad Control – Includes a wireless gamepad for enhanced flexibility and remote control via USB receiver. Multi-Functional Mounting Plate – Supports installation of peripherals like D500 lidar, STL-27L lidar, cameras, and other modules, with open-source DXF drawings and 3D models for easy customization. Real-Time High-Frame-Rate Video Transmission – Uses Flask-based WebRTC ultra-low latency streaming and Python integration with OpenCV for seamless AI processing. Advanced MediaPipe Demos – Enables complex video processing with Google’s MediaPipe framework, supporting real-time analytics and multimedia tasks. 40PIN GPIO Extended Header – Uses only the UART interface on Raspberry Pi GPIO, keeping the 40PIN header available for additional peripherals. Multiple Audio Interaction Methods – Built-in audio driver board, dual-track speaker, microphone, and 3.5mm audio jack for text-to-speech and media playback. Real-Time Feedback & Monitoring – Tracks the robot’s operating status in real time. Web Page Command Line Tool – Quick setup, easy expansion, and customizable features without modifying front-end code. 4G/5G Expansion Support – Compatible with 4G/5G modules for connectivity in areas without WiFi. Smartphone Holder Support – Allows users to attach a spare phone for hotspot connectivity and low-cost remote control. Cross-Platform Interactive Tutorial – Access Jupyter Lab on mobile and tablets for on-the-go learning and development. Rich Tutorial Resources – Comprehensive guides and demos for easy learning and secondary development. Long-Lasting Battery – Supports 18650 lithium batteries with an efficient UPS module for simultaneous charging and operation. Spacious Internal Design – Can accommodate larger lithium battery packs with an XH2.54 interface, offering more power capacity. High-Speed Precision Control – Features high-speed motors (up to 1.3m/s) and high-frequency PID closed-loop speed control for accuracy.

Waveshare USB to CAN Adapter with Dual-Channel CAN Analyzer The Waveshare USB to CAN Adapter with Dual-Channel CAN Analyzer is a high-performance industrial-grade device designed to interface with CAN bus systems via USB. This adapter supports a dual CAN bus interface, allowing independent communication on each channel without interference. It uses a high-speed USB 2.0 interface, while also being backward compatible with USB 1.1 and USB 3.0. The CAN bus baud rate is configurable between 10 Kbps and 1 Mbps, with features for baud rate calculation, auto-detection, and settings via a configuration tool. Supporting CAN 2.0A, CAN 2.0B, CANOpen, SAE1939, DeviceNet, ICAN, and ISO 15765 protocols, this adapter is a versatile solution for industrial and automotive applications. Additionally, it provides comprehensive secondary development support for popular platforms such as C++, Python, LabVIEW, and more, making it an ideal tool for integration in a wide range of applications. Features: Compact in size and simple to use. Integrating two distinct channels with electrical isolation and various protection circuits. Supports Windows and Linux platforms and includes drivers. It can be connected to the PC or industrial control host via a USB port to achieve transceiver control.