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xArm 2.0 – Intelligent Programmable Robotic Arm
The xArm 2.0 is a collaborative 6-axis robotic arm designed for precision automation, industrial assembly, and educational robotics applications with advanced kinematics and real-time control capabilities. Professional engineers, automation technicians, and research institutions use this system to develop complex motion control solutions, implement pick-and-place operations, and prototype advanced robotic applications with minimal programming overhead. This intelligent arm solves the critical challenge of achieving high-precision, repeatable movements in constrained spaces while maintaining ease of programming through intuitive software interfaces and modular design architecture.
Product Overview
The xArm 2.0 represents a significant advancement in collaborative robotic systems, featuring a compact 6-DOF (degrees of freedom) design that enables complex three-dimensional motion patterns with exceptional accuracy. The arm operates on a distributed servo motor architecture with integrated joint encoders, allowing real-time feedback control and adaptive motion planning. Each joint incorporates independent torque sensing capabilities, enabling force-feedback applications and safe human-robot interaction protocols. The system communicates via Ethernet-based real-time control protocols, supporting both proprietary and ROS (Robot Operating System) middleware for seamless integration into existing automation ecosystems.
The xArm 2.0 distinguishes itself through its modular end-effector interface, supporting rapid tool changes between grippers, vacuum cups, and custom attachments without requiring system recalibration. The arm's forward kinematics calculations are processed through an onboard industrial-grade controller running deterministic real-time firmware, ensuring response times under 10 milliseconds for critical control loops. Built-in safety features include configurable joint velocity limits, workspace boundary enforcement, and automatic collision detection algorithms that prevent unintended contact with surrounding equipment or personnel. The system's repeatability specification of ±0.03mm makes it suitable for precision assembly tasks, micro-component handling, and quality inspection applications requiring consistent positioning accuracy.
Key Specifications
| Specification | Details |
| Product Type | 6-Axis Collaborative Robotic Arm |
| Brand | xArm (UFactory) |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
| Reach/Payload | 700mm reach, 2kg rated payload at full extension |
| Repeatability | ±0.03mm (ISO 9283 standard) |
| Joint Speed | Maximum 180 degrees per second per joint |
| Control Interface | Ethernet-based real-time control, ROS compatible |
| Power Requirements | 24V DC, 10A maximum draw |
| Operating Temperature | 0°C to 45°C ambient |
Key Features
- 6-Axis Collaborative Design: Full range of motion with six independent joints enabling complex 3D trajectory planning and dexterous manipulation tasks
- Integrated Force/Torque Sensing: Built-in joint torque sensors across all axes provide real-time feedback for compliance control and impact detection
- Modular End-Effector Interface: Quick-change coupling system supports multiple tool attachments without requiring recalibration or system restart
- Real-Time Control Architecture: Deterministic firmware with sub-10ms response time ensures precise trajectory execution and adaptive motion control
- ROS Middleware Support: Native compatibility with Robot Operating System enables integration with vision systems, safety controllers, and higher-level planning algorithms
- Workspace Boundary Enforcement: Programmable virtual boundaries prevent arm motion beyond defined operational zones, enhancing safety in shared workspaces
- Collision Detection Algorithm: Automatic torque monitoring detects unexpected contact and triggers immediate motion halt to protect equipment and personnel
- Intuitive Programming Interface: Drag-and-drop motion planning software reduces programming time from hours to minutes for standard applications
Applications and Use Cases
- Precision Assembly Operations: Electronic component placement, PCB assembly, and micro-connector installation requiring repeatability within ±0.03mm tolerances
- Industrial Pick-and-Place Tasks: Automated material handling in manufacturing lines with adaptive gripper control for variable product geometries
- Quality Inspection and Measurement: Automated visual inspection systems mounted on the end-effector for dimensional verification and defect detection
- Educational Robotics and Research: University laboratories and vocational institutions use xArm 2.0 for teaching kinematics, control theory, and advanced automation concepts
- Machine Tending Applications: Automated loading and unloading of CNC machines and injection molding equipment with synchronized cycle timing
- Pharmaceutical and Laboratory Automation: Liquid handling, sample preparation, and reagent dispensing in controlled laboratory environments
- Collaborative Manufacturing: Safe human-robot collaboration in small-batch production environments with integrated force-limiting safety features
How to Use
Begin setup by mounting the xArm 2.0 on a stable industrial workbench or mounting plate using the provided M6 mounting bracket, ensuring the base is secured with vibration-damping isolators to minimize positioning errors from external vibrations. Connect the 24V DC power supply to the controller unit, then establish Ethernet connectivity to your programming workstation. Launch the xArm Studio software and perform the initial calibration routine by moving each joint through its full range of motion while the system records encoder reference positions. This calibration typically requires 5-10 minutes and must be repeated if the arm experiences unexpected power loss or collision events.
For motion programming, use the graphical interface to define waypoints by either manually positioning the arm using the teach pendant or entering precise joint angle coordinates. The software automatically calculates smooth trajectories between waypoints using cubic spline interpolation, preventing jerky movements that could damage sensitive components. Test all programs in simulation mode before execution on physical equipment. For advanced applications requiring force control or vision-guided picking, integrate ROS nodes through the provided middleware bridge, which exposes joint states and command topics at 100Hz update frequency. Always define workspace boundaries and enable collision detection before operating near personnel or valuable equipment.
Frequently Asked Questions
What is the maximum payload capacity and how does it affect positioning accuracy?
The xArm 2.0 has a rated payload of 2kg at full 700mm extension. Heavier loads reduce positioning accuracy due to increased joint deflection under gravity and inertial forces. For loads exceeding 2kg, positioning accuracy degrades to approximately ±0.1mm. We recommend using a counterbalance mechanism or mounting the arm horizontally if you need to handle payloads between 2-3kg while maintaining precision specifications.
Is the xArm 2.0 compatible with third-party grippers and end-effectors?
Yes, the xArm 2.0 features a standardized modular interface with M6 threaded mounting points and integrated electrical connectors for tool I/O signals. Most industrial collaborative robot grippers from manufacturers like Schunk, Piab, and OnRobot are compatible through simple mechanical adapters. The system supports up to 8 digital I/O channels for gripper control signals, allowing seamless integration of vacuum cups, parallel grippers, and magnetic pick-up tools without firmware modifications.
Can the xArm 2.0 operate in continuous production environments 24/7?
The xArm 2.0 is rated for continuous operation within specified ambient temperature ranges of 0-45°C. For 24/7 production use, implement preventive maintenance every 2000 operating hours including joint bearing lubrication, encoder calibration verification, and thermal stress testing. Ensure adequate cooling around the controller unit and avoid prolonged operation at maximum joint velocities, which generates significant heat in the servo motors. Most customers report 3-5 year service life with proper maintenance protocols in continuous manufacturing environments.
How does the force/torque sensing feature improve application performance?
The integrated joint torque sensors enable compliance control algorithms that allow the arm to adapt its motion based on environmental feedback. This is particularly useful for assembly tasks where parts must be inserted with controlled force to prevent damage, or for deburring operations where consistent contact pressure is critical. The sensors detect collision events within 5-10ms, enabling rapid safety responses. This feature also enables force-limited collaborative operation, allowing safe human-robot interaction without physical barriers.
What programming languages and development environments are supported?
The xArm 2.0 supports multiple programming approaches: the proprietary xArm Studio GUI for visual programming, Python through the official SDK for scripting, and C++ for real-time control applications. Full ROS support enables integration with MoveIt motion planning framework and standard robotics middleware. The system exposes a REST API for HTTP-based remote control, making it compatible with web-based automation platforms and cloud robotics architectures.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Engineer Store
- Genuine Products: Sourced directly from authorized distributors with authentication
- Expert Team: Our technical team validates every product before listing
- Fast Shipping: Dispatched within 1-5 days from our Bengaluru warehouse
- Pan-India Delivery: 7-8 days to Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata
- Payment Options: COD, UPI, credit/debit cards, net banking, EMI available
- Technical Support: 24/7 expert guidance via email and WhatsApp
- Returns: 7-day return policy on manufacturing defects only
Buy xArm 2.0 – Intelligent Programmable Robotic Arm Online in India
Purchase the xArm 2.0 – Intelligent Programmable Robotic Arm online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat. Get the best price on xArm 2.0 – Intelligent Programmable
xArm 2.0 – Intelligent Programmable Robotic Arm
The xArm 2.0 is a collaborative 6-axis robotic arm designed for precision automation, industrial assembly, and educational robotics applications with advanced kinematics and real-time control capabilities. Professional engineers, automation technicians, and research institutions use this system to develop complex motion control solutions, implement pick-and-place operations, and prototype advanced robotic applications with minimal programming overhead. This intelligent arm solves the critical challenge of achieving high-precision, repeatable movements in constrained spaces while maintaining ease of programming through intuitive software interfaces and modular design architecture.
Product Overview
The xArm 2.0 represents a significant advancement in collaborative robotic systems, featuring a compact 6-DOF (degrees of freedom) design that enables complex three-dimensional motion patterns with exceptional accuracy. The arm operates on a distributed servo motor architecture with integrated joint encoders, allowing real-time feedback control and adaptive motion planning. Each joint incorporates independent torque sensing capabilities, enabling force-feedback applications and safe human-robot interaction protocols. The system communicates via Ethernet-based real-time control protocols, supporting both proprietary and ROS (Robot Operating System) middleware for seamless integration into existing automation ecosystems.
The xArm 2.0 distinguishes itself through its modular end-effector interface, supporting rapid tool changes between grippers, vacuum cups, and custom attachments without requiring system recalibration. The arm's forward kinematics calculations are processed through an onboard industrial-grade controller running deterministic real-time firmware, ensuring response times under 10 milliseconds for critical control loops. Built-in safety features include configurable joint velocity limits, workspace boundary enforcement, and automatic collision detection algorithms that prevent unintended contact with surrounding equipment or personnel. The system's repeatability specification of ±0.03mm makes it suitable for precision assembly tasks, micro-component handling, and quality inspection applications requiring consistent positioning accuracy.
Key Specifications
| Specification | Details |
| Product Type | 6-Axis Collaborative Robotic Arm |
| Brand | xArm (UFactory) |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
| Reach/Payload | 700mm reach, 2kg rated payload at full extension |
| Repeatability | ±0.03mm (ISO 9283 standard) |
| Joint Speed | Maximum 180 degrees per second per joint |
| Control Interface | Ethernet-based real-time control, ROS compatible |
| Power Requirements | 24V DC, 10A maximum draw |
| Operating Temperature | 0°C to 45°C ambient |
Key Features
- 6-Axis Collaborative Design: Full range of motion with six independent joints enabling complex 3D trajectory planning and dexterous manipulation tasks
- Integrated Force/Torque Sensing: Built-in joint torque sensors across all axes provide real-time feedback for compliance control and impact detection
- Modular End-Effector Interface: Quick-change coupling system supports multiple tool attachments without requiring recalibration or system restart
- Real-Time Control Architecture: Deterministic firmware with sub-10ms response time ensures precise trajectory execution and adaptive motion control
- ROS Middleware Support: Native compatibility with Robot Operating System enables integration with vision systems, safety controllers, and higher-level planning algorithms
- Workspace Boundary Enforcement: Programmable virtual boundaries prevent arm motion beyond defined operational zones, enhancing safety in shared workspaces
- Collision Detection Algorithm: Automatic torque monitoring detects unexpected contact and triggers immediate motion halt to protect equipment and personnel
- Intuitive Programming Interface: Drag-and-drop motion planning software reduces programming time from hours to minutes for standard applications
Applications and Use Cases
- Precision Assembly Operations: Electronic component placement, PCB assembly, and micro-connector installation requiring repeatability within ±0.03mm tolerances
- Industrial Pick-and-Place Tasks: Automated material handling in manufacturing lines with adaptive gripper control for variable product geometries
- Quality Inspection and Measurement: Automated visual inspection systems mounted on the end-effector for dimensional verification and defect detection
- Educational Robotics and Research: University laboratories and vocational institutions use xArm 2.0 for teaching kinematics, control theory, and advanced automation concepts
- Machine Tending Applications: Automated loading and unloading of CNC machines and injection molding equipment with synchronized cycle timing
- Pharmaceutical and Laboratory Automation: Liquid handling, sample preparation, and reagent dispensing in controlled laboratory environments
- Collaborative Manufacturing: Safe human-robot collaboration in small-batch production environments with integrated force-limiting safety features
How to Use
Begin setup by mounting the xArm 2.0 on a stable industrial workbench or mounting plate using the provided M6 mounting bracket, ensuring the base is secured with vibration-damping isolators to minimize positioning errors from external vibrations. Connect the 24V DC power supply to the controller unit, then establish Ethernet connectivity to your programming workstation. Launch the xArm Studio software and perform the initial calibration routine by moving each joint through its full range of motion while the system records encoder reference positions. This calibration typically requires 5-10 minutes and must be repeated if the arm experiences unexpected power loss or collision events.
For motion programming, use the graphical interface to define waypoints by either manually positioning the arm using the teach pendant or entering precise joint angle coordinates. The software automatically calculates smooth trajectories between waypoints using cubic spline interpolation, preventing jerky movements that could damage sensitive components. Test all programs in simulation mode before execution on physical equipment. For advanced applications requiring force control or vision-guided picking, integrate ROS nodes through the provided middleware bridge, which exposes joint states and command topics at 100Hz update frequency. Always define workspace boundaries and enable collision detection before operating near personnel or valuable equipment.
Frequently Asked Questions
What is the maximum payload capacity and how does it affect positioning accuracy?
The xArm 2.0 has a rated payload of 2kg at full 700mm extension. Heavier loads reduce positioning accuracy due to increased joint deflection under gravity and inertial forces. For loads exceeding 2kg, positioning accuracy degrades to approximately ±0.1mm. We recommend using a counterbalance mechanism or mounting the arm horizontally if you need to handle payloads between 2-3kg while maintaining precision specifications.
Is the xArm 2.0 compatible with third-party grippers and end-effectors?
Yes, the xArm 2.0 features a standardized modular interface with M6 threaded mounting points and integrated electrical connectors for tool I/O signals. Most industrial collaborative robot grippers from manufacturers like Schunk, Piab, and OnRobot are compatible through simple mechanical adapters. The system supports up to 8 digital I/O channels for gripper control signals, allowing seamless integration of vacuum cups, parallel grippers, and magnetic pick-up tools without firmware modifications.
Can the xArm 2.0 operate in continuous production environments 24/7?
The xArm 2.0 is rated for continuous operation within specified ambient temperature ranges of 0-45°C. For 24/7 production use, implement preventive maintenance every 2000 operating hours including joint bearing lubrication, encoder calibration verification, and thermal stress testing. Ensure adequate cooling around the controller unit and avoid prolonged operation at maximum joint velocities, which generates significant heat in the servo motors. Most customers report 3-5 year service life with proper maintenance protocols in continuous manufacturing environments.
How does the force/torque sensing feature improve application performance?
The integrated joint torque sensors enable compliance control algorithms that allow the arm to adapt its motion based on environmental feedback. This is particularly useful for assembly tasks where parts must be inserted with controlled force to prevent damage, or for deburring operations where consistent contact pressure is critical. The sensors detect collision events within 5-10ms, enabling rapid safety responses. This feature also enables force-limited collaborative operation, allowing safe human-robot interaction without physical barriers.
What programming languages and development environments are supported?
The xArm 2.0 supports multiple programming approaches: the proprietary xArm Studio GUI for visual programming, Python through the official SDK for scripting, and C++ for real-time control applications. Full ROS support enables integration with MoveIt motion planning framework and standard robotics middleware. The system exposes a REST API for HTTP-based remote control, making it compatible with web-based automation platforms and cloud robotics architectures.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Engineer Store
- Genuine Products: Sourced directly from authorized distributors with authentication
- Expert Team: Our technical team validates every product before listing
- Fast Shipping: Dispatched within 1-5 days from our Bengaluru warehouse
- Pan-India Delivery: 7-8 days to Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata
- Payment Options: COD, UPI, credit/debit cards, net banking, EMI available
- Technical Support: 24/7 expert guidance via email and WhatsApp
- Returns: 7-day return policy on manufacturing defects only
Buy xArm 2.0 – Intelligent Programmable Robotic Arm Online in India
Purchase the xArm 2.0 – Intelligent Programmable Robotic Arm online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat. Get the best price on xArm 2.0 – Intelligent Programmable