The PRO115-HS is Aerotech’s smallest hard cover, side-sealed
stage design and comes with a 20 mm/rev ball screw for high-speed
applications requiring up to 1200 mm/s. Competitive pricing coupled
with Aerotech’s reputation for producing high-quality linear
motion devices make the PRO115-HS an attractive stage for medium-performance,
high-speed applications.
Rugged Construction
The hard-cover design provides protection from debris. The
robust aluminum cover is hard-coated to provide a scratch
resistant surface.
The side seals keep dirt and particulates out of the stage and
protect the bearing surfaces from contamination. The
vertical orientation of the seals easily deflects debris away
from the stage. Competitive top seal designs can collect
debris, resulting in the eventual failure and replacement of
the sealing mechanism.
NEMA 23 Flange-Mount
The PRO115-HS has a NEMA 23 flange-mounting
interface for attachment of a wide variety of Aerotech and
third-party motors. Aerotech can provide brush, brushless,
and stepper motors preconfigured and mounted directly to
the stage for integration with Aerotech controls. Or the
stage can be purchased without the motor for the
attachment of third-party motors.
Easily Accessible Mounting
The mounting holes in the PRO115-HS base are accessible
from the outside of the stage for ease of integration. The cover does not have to be removed when mounting the
stage to a bread-board or when attaching multiple stages
together in an X/Y/Z system. The tabletop is available with
both metric and English hole patterns and can be ordered
with brush attachments to clear debris that may collect on
the hard cover. Tabletops with hole patterns that allow the
direct attachment of Aerotech’s ADRS and ACS-LP series
low profile direct-drive rotary stages are available.
Configuration Options
Aerotech’s BM series brushless servomotor with square-wave
encoder output provides a net resolution of 2 microns. A holding
brake can be added to the motor to prevent backdriving, and a
motor fold-back kit is available for space-constrained applications
to reduce the overall stage length.
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