- Load capacity to 30 kg, self-locking
- Travel ranges to ±27.5 mm, rotation range to ±11.5°
- Minimum incremental motion to 0.25 µm in X, Y, and Z
- Repeatability to ±0.1 µm / ±2 µrad
- BLDC motors and absolute encoders
Parallel-kinematic design for six degrees of freedom making it significantly more compact and stiff than serial-kinematic systems, higher dynamic range, no moved cables: Higher reliability, reduced friction.
Brushless DC motor (BLDC)
Brushless DC motors are particularly suitable for high rotational speeds. They can be controlled very accurately and ensure high precision. Because they dispense with sliding contacts, they run smoothly, are wear-free and therefore achieve a long lifetime.
Absolute encoders supply explicit position information that enables immediate determination of the position. This means that referencing is not required during switch-on, which increases efficiency and safety during operation.
The simulation software simulates the limits of the workspace and load capacity of a hexapod. Therefore, even before making a purchase, you can check whether a particular hexapod model can handle the loads, forces, and torques occurring in an application. For this purpose, the simulation tool takes into account the position and motion of the hexapod as well as the pivot point and several reference coordinate systems.
Fields of application
Research and industry. For microassembly, biomedical engineering, semiconductor manufacturing, optical alignment.
Product Change Notification Hexapod Cables
Product Change Notification Motor Driven Products
User Manual MS250
H-825 Compact Hexapod Microrobot
Short Instructions MS247EK
Hexapod Systems: H-xxx Hexapod with C-887.5xx Controller
H-825.x2x 3-D model
Hexapod Simulation Tool
Industrial Safety Device for Hexapods
How to Connect a Safety Light Barrier to a Hexapod System
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