Part No. HD² High Definition Haptic Device
HD2 High Definition Haptic Device is a high-fidelity haptic interface for robotics research, simulation, and teleoperation with precise force feedback.
HD2 High Definition Haptic Device
Industry-leading haptic interface for simulation and teleoperation
The HD² High-Definition Haptic Device is a high-fidelity haptic interface for advanced research in haptics as well as robotics. Combined with Quanser’s powerful control design environment, it provides a flexible development test bed for various emerging applications such as virtual medical simulators and teleoperation.
As a dexterous haptic device, HD2 enables researchers to interact with virtual or remote environments using programmable force feedback. Compared to other commercially available haptic devices, HD2 has a large workspace and very low intervening dynamics. This parallel mechanism is highly back-drivable with negligible friction. The heavy-duty capstan drive and high-performance motors reduce the perceived inertia while maintaining rigidity of the device structure.
| Specifications |
|
| Workspace | • 800 mm (X), 250 mm (Y), 350 mm (Z) • 180 degrees (roll), 180 degrees (pitch), continuous (yaw) |
| Tip Inertia | • 300 g (X), 300 g (Y), 300 g (Z) • 2.29 g.m ²(roll), 2.29 g.m² (pitch), 0.79 g.m² (yaw) |
| Back Drive Frictions | • 0.353 N (X), 0.353 N (Y), 0.353 N (Z) • 61.775 N/mm (roll), 61.775 N/mm (pitch), 0.5 N/mm (yaw) |
| Maximum Force/Torque at 2 Amps | • 19.71 N (X), 19.71 N (Y), 13.94 N (Z) • 1.72 N.m (roll), 1.72 N.m (pitch), 1.72 N.m (yaw) |
| Continuous Force/Torque at 1.1 Amps | • 10.84 N (X), 10.84 N (Y), 7.67 N (Z) • 0.948 N.m (roll), 0.948 N.m (pitch), 0.948 N.m (yaw) |
| Position Resolution | • 0.051 mm (X), 0.051 mm (Y), 0.051 mm (Z) • 0.033 degrees (roll), 0.033 degrees (pitch), 0.088 degrees (yaw) |
| Stiffness at 10 kHz | • 3000 N/m (X), 3000 N/m (Y), 3000 N/m (Z) • 3.4 N.m/rad (roll), 3.4 N.m/rad (pitch), 0.05 N.m/rad (yaw) (torque at 0.6 A) |
| Dimensions (H x W x L) | 0.52 m x 0.3 m x 0.5 m |
| Mass, Including the Amplifiers | 22 kg |
• Highly back-drivable joints and very low intervening dynamics
• Highly rigid structure with low friction and inertia
• Capstan drive mechanism
• Counterweights designed to eliminate the effects of gravity
• Auxiliary analog and digital inputs
• Reconfigurable handle position
• High-resolution optical encoders
• Built-in linear current amplifiers
• Easy connectivity to the data acquisition control board through SCSI cable
• Foot push pedal for auxiliary digital input
Using seven high resolution optical encoders, the operator’s motion can be tracked in six DOF (i.e. X, Y, Z, roll, pitch and yaw). The device can apply force to the user in five DOF (i.e. X, Y, Z, roll and pitch)*.
In order to minimize the perceived weight over the entire workspace, adjustable brass counterbalances are mounted on each base. This state-of-the-art device is equipped with six built-in, high-bandwidth linear current amplifiers which, along with the smart mechanical design, make it possible to achieve stiffness coefficients as high as 3,000 N/m. A foot push pedal is provided with the device as a digital input for switching applications.
The system is controlled via PC using Quanser’s QIDe superior performance hardware-in-the-loop (HIL) control board. Quanser rapid control prototyping software QUARC for MATLAB®/Simulink® creates an intuitive yet extremely flexible controller design environment.
*HD2 is also available in configurations with 6 DOF sensed/6 DOF actuated (with actuated roll at end-effector) and 7 DOF sensed/7 DOF actuated (with pincher). For details or to inquire about customization to your specific needs, email
หุ่นยนต์ Humanoid ระบบ ROS ปฏิบัติการด้วย Raspberry Pi ขับเคลื่อนด้วยอัลกอรึทึม Inverse Kinematics มาพร้อม Vision AI อัจฉริยะครบเครื่อง สำหรับการศึกษาและวิจัยพัฒนาระบบหุ่นยนต์เลียนแบบมนุษย์
หุ่นยนต์ระบบ Ackermann Steering รองรับ ROS1 และ ROS2 ผสาน Mutimodel AI Model และ AI Vision รองรับการสั่งงานด้วยเสียงและภาพ ระบบ SLAM นำทางแม่นยำ ครบเครื่องเพื่อการเรียนรู้และพัฒนาหุ่นยนต์ AI Robotics
QLabs Virtual QBot Platform is a digital twin of the QBot robot for mobile robotics education using MATLAB/Simulink and Python.
Quanser Introduction to Robotics Teaching Lab is a plug-and-play robotics platform with hardware, software, and digital twins for hands-on engineering education.
บริษัท เอ็นเทค อินดัสเทรียล โซลูชั่น จำกัด
17/121 ซอยงามวงศ์วาน 47 แยก 48 แขวงทุ่งสองห้อง
เขตหลักสี่ กรุงเทพฯ 10210
กรุณาระบุจำนวนสินค้าที่คุณต้องการ แล้วกดปุ่มด้านล่าง
จำนวน
กรุณาทำการลงทะเบียนเพื่อเป็นสมาชิก โดยสมาชิกสามารถดาวน์โหลดคู่มือการใช้งาน
รวมถึงได้รับความสะดวกสบายในการขอใบเสนอราคา