Agility-series-robotic-arm | Foxtech

The Agility A2 is a high-payload dual-arm research robot based on OpenArmX Pro Max, featuring 7-DoF arms, strong load capacity, native ROS2 and NVIDIA Isaac support, and fully integrated hardware and software for embodied AI, robot learning, and dual-arm manipulation.
High-Payload Dual Arms — 7-DoF arms with 5 kg rated / 12 kg peak payload, suitable for real-tool manipulation.

Robust Mechanics & Actuation — Aluminum/stainless steel build, QDD-compatible joints, 48 V drives for smooth, stable motion.

Native Robotics Software — Built-in ROS2 and NVIDIA Isaac support for teleoperation and learning policy deployment.

Open Extensibility & Teleoperation — Connects to VR controllers or exoskeletons for lead-through teleoperation and autonomous ROS2 experiments.

Versatile Applications — Supports embodied AI, dual-arm research, contact-rich tasks, human–robot collaboration, hazardous teleoperation, and education.

Integrated Industrial PC & Software — Preloaded with Ubuntu 22.04, ROS2 Humble, and OpenArmX SDK for ready-to-use deployment.

The Agility A2 VR Teleoperation System combines advanced VR headsets with a dual-arm robot to deliver intuitive, real-time control for complex bimanual tasks. Designed for embodied AI and robot learning, it enables precise motion mapping, high-quality data collection, and seamless deployment with ROS2 and NVIDIA Isaac.

Immersive VR Control — Intuitive teleoperation using VR for natural human–robot interaction.
Real-Time Motion Mapping — Low-latency, precise translation from human motion to robot actions.

Dual-Arm Coordination — Efficient bimanual manipulation for complex tasks.

Embodied AI Ready — Supports VLA, imitation learning, and reinforcement learning workflows.

ROS2 & Isaac Support — Easy integration for development, simulation, and deployment.

High-Quality Data Capture — Reliable data collection for training and research.

Versatile Applications — Ideal for teleoperation, assembly, AI training, and research.

The Agility A2 + ExoArm-7 Kit is a wearable exoskeleton teleoperation system for intuitive dual-arm robot control and high-quality data collection. Combining precise motion capture with low-latency performance, it enables efficient VLA and robot learning workflows in real-world tasks.

Wearable Exoskeleton Control — Intuitive dual-arm teleoperation with natural human motion input.
Low-Latency Operation — Smooth, stable response for precise manipulation tasks.

Real-Time Motion Capture — Accurate tracking for consistent demos and data recording.

VLA Data Collection Ready — Optimized for demonstration data and robot learning workflows.

ROS2 & Isaac Support — Easy integration for development and deployment.

SDK Included — Fast setup and flexible customization.

The Agility A2 Isomorphic Teleoperation Set is a complete leader–follower dual-arm system designed for embodied AI and robot learning. With two synchronized platforms, it enables realistic teleoperation, precise data collection, and seamless deployment using ROS2 and NVIDIA Isaac.

Isomorphic Teleoperation — Dedicated leader–follower setup for real dual-arm workflows.

High-Payload Dual Arms — Powerful bimanual platform for real-world tasks.

Embodied AI Ready — Supports data collection and policy deployment (IL/RL/VLA).

ROS2 & Isaac Compatible — Simplifies integration, control, and simulation.

Integrated System — Built-in PC and full software stack for quick deployment.

Proven Applications — Ideal for manipulation research, assembly, teleoperation, and education.

Agility A1 combines open-source flexibility, human-like dexterity, and high payload capability, making it ideal for advanced robotics research and practical applications.

Fully Open-Source – CAD, firmware, control code, and simulation tools included

Human-Level Dexterity – 7 degrees of freedom for precise, agile motion

High Payload – Supports up to 6 kg peak load

Fast & Precise Control – 1 kHz CAN-FD motion control

Robust & Accurate – DAMIAO motors + cross-roller bearings

Safe Interaction – Compliant, backdrivable joints with real-time gravity compensation

OpenArm-Based – Designed for research and real-world deployment

The DAMIAO Joint Motor System delivers precise, powerful, and modular performance, providing an ideal drive solution for open-source humanoid arms and advanced robotic applications.

Optimized Motor Integration – Combines 43-series and 8009P motors tailored for each joint, from shoulder to wrist

High Torque & Speed – Perfect balance of power and control for humanoid arm motion

Rigid & Accurate – Cross-roller bearing structure ensures stability and precise positioning, even under asymmetric loads

Lightweight & Compact – DAMIAO 4340 motors deliver high torque in a compact form, ideal for tight robotic assemblies

Modular & Reliable – Engineered for seamless integration, coordinated motion, and long-term durability

Professional-Grade Foundation – Supports research, collaborative manipulators, and advanced robotic systems

The DM-J3507-2EC delivers compact, high-performance, and highly precise actuation for robotic arms, combining advanced sensing, flexible control, and reliable operation in one integrated solution.

Dual Encoders – Single-turn absolute position sensing ensures no position loss after power-off

Integrated Design – Motor and driver combined for compact structure and high integration

Flexible Control Modes – MIT mode, Speed mode, and Position mode for precise and smooth motion

PC-Based Debugging & Firmware Upgrade – Easy configuration and maintenance

CAN FD Compatible – Up to 5 Mbps baud rate with real-time feedback of speed, position, torque, and temperature

Dual Temperature Protection – Ensures safe operation under heavy load

High Torque at Low Speed – Optimized for precise actuation and powerful motion