- Stock: In Stock
- Product code: As2 Edu-U2
- Weight Brutto: 18.00kg
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Unitree As2 Edu-U2 Robo-Dog for Developers and Education
Unitree As2 Edu-U2 is a robo-dog for education, research, and secondary development, designed to work with AI algorithms, autonomous movement, and industrial application tasks, with a computational module of 100 TOPS, a depth camera, and a 648 Wh battery. The Unitree As2 robo-dog is suitable for universities, laboratories, engineering teams, and companies that need a mobile robotic platform for testing, patrolling, logistics, and demonstration projects. The model has 12 joint motors, weighs approximately 18 kg with the battery, reaches a speed of over 5 m/s without load, and provides a joint torque of about 90 Nm. It supports secondary development, technical materials, robot models, simulation interfaces, and work in Isaac Sim. The robot can overcome a step forward up to 25 cm, climb a vertical platform up to 50 cm, move on a slope of about 40°, and has IP54 protection.
Main Advantages of Unitree As2 Edu-U2
- The Edu-U2 version is prepared for AI algorithm development. The robo-dog has a built-in computational expansion module of 100 TOPS. This provides resources for local data processing and testing autonomous solutions on a real robot.
- Unitree As2 Edu-U2 supports secondary development. Technical materials, development manuals, and ecosystem support are available for work. The team can work with robot models, simulation interfaces, and application testing scenarios.
- Autonomy reserve for field tests. The 648 Wh battery provides over 4 hours of operation without load and a route of over 20 km. With a load, the robot operates for over 2.5 hours and covers over 13 km.
- The quadruped robot is designed for movement with a load. The working load during walking is approximately 15 kg. In a standing position, the static load can reach 65 kg.
- Overcomes complex routes. The robot overcomes a step forward up to 25 cm, a vertical platform up to 50 cm, and a slope of about 40°. This is useful for testing autonomous movement on uneven surfaces.
- The design combines low weight and rigidity. The weight with the battery is approximately 18 kg. The body is made of aluminum alloy and high-strength engineering plastic.
- The platform has open possibilities for developers. Unitree As2 supports working with large AI models for interaction and autonomous solutions. OTA updates are also available for software updates.
Platform for Education and Development
Unitree As2 Edu-U2 is designed as an educational robot by Unitree for engineering courses, laboratory work, research in autonomous movement, and applied robotics. The version includes all the features of AS2 Edu Standard U1 and adds a computational expansion module of 100 TOPS.
The platform supports secondary development and technical support for AI algorithms. Developers can work with materials, manuals, robot models, and simulation interfaces. Simulators, including Isaac Sim, are supported for preparation and testing scenarios.
Unitree As2 Edu-U2 is suitable for teams testing navigation, spatial perception, autonomous solutions, and interaction with large AI models. It is a robo-dog for developers who need a physical platform with open possibilities for research and applied tasks.
Maneuverable Bionic Movement and High Dynamics
Unitree As2 Edu-U2 is designed for active movement: running, climbing, jumping, and overcoming obstacles within confirmed parameters. The speed without load reaches over 5 m/s, the robot can climb a vertical platform up to 50 cm, and move on a slope of about 40°.
Adaptation to Weather Conditions
The robot has IP54 protection, making it suitable for operation in dusty conditions and water splashes within this class. This is important for tests not only in the laboratory but also on test sites, industrial facilities, and patrol routes.
Long Autonomy for Long Routes
The 648 Wh battery, or 15,000 mAh, provides over 4 hours of continuous walking without load and a route of over 20 km. With a 15 kg load, the Unitree As2 Edu-U2 operates for over 2.5 hours and covers over 13 km, which is useful for long tests of autonomous movement, logistics, and patrolling.
Powerful Motors and Load Handling
Unitree As2 Edu-U2 has 12 degrees of freedom and 12 joint motors responsible for stable quadruped movement and work under load. The maximum joint torque is approximately 90 Nm, and the working load during walking is about 15 kg. In a standing position, the robot withstands a static load of up to 65 kg.
Applications of Unitree As2 Edu-U2
- Educational Laboratories. Robotics for education becomes practical with a real quadruped platform.
- University Research. Unitree As2 Edu-U2 is suitable for testing movement algorithms, navigation, and spatial perception.
- AI Algorithm Development. The 100 TOPS module provides resources for local computations and autonomous solution tests.
- Autonomous Movement Testing. The robot allows testing routes, overcoming obstacles, and behavior on slopes.
- Patrolling. The quadruped robot can perform observation routes at facilities.
- Logistics. The platform is suitable for testing scenarios of moving loads up to 15 kg during walking.
- Demonstration Projects. The Unitree robo-dog is convenient for showcasing robotic solutions at events and in laboratories.
- Industrial Tasks. Unitree As2 Edu-U2 can be applied for practical scenarios in production and technical processes.
Components and Configuration
Unitree As2 Edu-U2 is delivered as an educational and development configuration for working with algorithms, simulation, and application scenarios. The version is oriented towards teams that need 100 TOPS computations, a depth camera, and access to development materials.
- Unitree As2 Edu-U2 robot.
- Built-in computational expansion module 100 TOPS.
- Depth camera x1.
- AS2 Edu Standard U1 functions.
- Technical support for AI algorithms.
- Materials and manuals for development.
- Support for robot models and simulation interfaces.
Technical Specifications of Unitree As2 Edu-U2
| Parameter | Value |
| Standing Dimensions | 720 x 378 x 457 mm |
| Lying Dimensions | 776 x 378 x 233 mm |
| Weight with Battery | approximately 18 kg |
| Body Materials | Aluminum alloy and high-strength engineering plastic |
| Number of Degrees of Freedom / Joint Motors | 12 |
| Joint Bearings | Industrial crossed roller bearings with high precision and load capacity |
| Joint Motors | PMSM with low inertia, fast rotor, improved response, and heat dissipation |
| Maximum Joint Torque | Approximately 90 Nm |
| Joint Movement Range | body: −45°–45°; thigh: −115°–200°; shin: −159°–47° |
| Power Supply Voltage | 36–50.4 V |
| Joint Encoders | Dual encoders |
| Cooling System | Local air cooling |
| Power Source | Lithium battery |
| Battery Capacity | 648 Wh, 15000 mAh |
| Wi-Fi 6, Bluetooth 5.2 | supported |
| Speaker | Yes |
| Microphone | Yes |
| Front Light | Yes |
| Tracking System | ISS 3.0 Intelligent Follow System |
| GPS | Present, off by default; activated after user authorization |
| 4G | Present, off by default; activated after user authorization |
| HD Camera | Present |
| Depth Camera Edu-U2 | 1 unit in standard configuration |
| Ultra-Wide Angle LiDAR | Industrial LiDAR 64–128 lines |
| Processor | 8-core high-performance CPU |
| Computational Module Edu-U2 | Built-in computational expansion dock 100 TOPS |
| External Interfaces | Gigabit Ethernet x1, SBUS x1, BAT power output |
| Operating Temperature | −20 °C…50 °C |
| Operating Time Without Load | Over 4 hours of continuous walking |
| Route Without Load | approximately 20 km |
| Operating Time With Load | Over 2.5 hours with a 15 kg load |
| Route With Load | approximately 13 km |
| Maximum Static Load | approximately 65 kg |
| Working Load During Walking | approximately 15 kg |
| Slope Angle | approximately 40° |
| Step Height Forward | up to 25 cm |
| Speed | 0–3.7 m/s; up to approximately 5 m/s without load |
| Protection | IP54 |
| Secondary Development | Supported; technical materials, development manuals, and ecosystem support provided |
| AI Support | Technical support for AI algorithms |
| Simulation | Supported robot models, simulation interfaces, Isaac Sim, and other simulation platforms |
| OTA Updates | Supported |
Buy Unitree As2 Edu-U2
Order Unitree As2 Edu-U2 at a favorable price. Our specialists will provide detailed consultation, help you determine the configuration, and choose the optimal solution according to your tasks. We will explain the features of the models, technical specifications, and available options so you can make an informed choice.
