Aerotech’s ANT95-XY-ULTRA is a long travel (up to 50 mm x 50 mm) nanopositioner for XY applications. Each axis uses crossed-roller bearings as well as Aerotech’s unique direct-drive for non-cogging, zero backlash motion. In addition, each stage receives a two-dimensional correction to achieve unmatched nanometer resolution, accuracy and repeatability. This unique drive and bearing combination, packaged in an extremely low profile and small footprint, offers tangible advantages in your motion application.
The ANT95-XY-ULTRA extends the performance capability of Aerotech’s ANT95-XY stage series to levels found nowhere else. The exceptional geometric and dynamic performance of the ANT95-XY-ULTRA make it an ideal choice for nearly all high-end motion applications in the lab or in production environments.
● Integrated, low-profile, XY linear motor stage
● 25 mm x 25 mm or 50 mm x 50 mm travel
● Nanometer-level performance in a large travel format
● 2D system accuracy is 250 nm
● In-position stability is <1 nm
● Anti-creep crossed-roller bearings
● High dynamic performance
ULTRA Trajectory Management System
In order to achieve the highest possible system accuracy from our multi-axis nanopositioning systems, Aerotech has developed an advanced, interactive, dynamic trajectory management system. To take advantage of this sophisticated interactive calibration system, the mechanical system has to be completely assembled and functionally tested prior to calibration in our best-in-class metrology labs. Nano-level system accuracy can only be achieved under stringent environmental conditions, calibrating with the best test equipment and utilizing the formidable capability of ULTIMUS. By implementing the ULTIMUS dynamic trajectory management system with the ANT95-XY-ULTRA, we are able to produce 2-dimensional accuracies of ±250 nm or better.
The plots provided in the Specifications illustrate performance differences between a standard ANT95-XY and the -ULTRA version. Straightness errors, orthogonality errors and accuracy errors caused by stage yawing are virtually eliminated.