Compare Model Drawings, CAD & Specs Availability Price
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 90 mm Travel
In Stock
In Stock
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 90 mm Travel, High Accuracy
5 Weeks
5 Weeks
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 190 mm Travel
In Stock
In Stock
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 190 mm Travel, High Accuracy
5 Weeks
5 Weeks
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 290 mm Travel
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 290 mm Travel, High Accuracy
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 50 mm Travel
5 Weeks
5 Weeks
one-xy integrated xy motorized linear stage
Motorized XY Linear Stage, Linear Motor, 50 mm Travel, High Accuracy
5 Weeks
5 Weeks
Notes:

ONE-XY stages are compatible with XPS-RL or XPS-D motion controllers when using the XPS-DRV02 driver module.

Specifications

Features

Increased Stiffness

For better stability, the wide separation of cross-roller bearings and a thick middle plate ensures higher stiffness against cantilevered loads.

Micron-level Straightness and Flatness

Because of the ONE-XY's precision grinding and cross-roller bearings, it achieves micron-level straightness and flatness.

Ironless Linear Motor

The high efficiency, ironless linear motor has the advantage of higher speed, acceleration and system responsiveness without wear to motor brushes or drive screws, significantly reducing heat generation. Additionally the non-cogging feature of the Ironless Linear Motor ensures excellent speed stability. Not only does the ironless motor provide these advantages, it also results in high-throughput and high reliability.

Integrated X and Y Axes

The ONE-XY's most distinguishing feature is its 3 plate design, allowing movement in both X and Y direction with a low profile relative to stacked stages. Orthogonality is built into the design, therefore enhancing the XY accuracy.