www.newport.com
October 2012
7
FMSPPHA
Linear Metrology Stages with Linear Encoder
NEW
Specifications
Travel Range Resolution Minimum Incremental Motion Uni-directional Repeatability, Guaranteed Bi-direction Repeatability, Guaranteed Maximum Speed Origin repeatability, Typical On-Axis Accuracy, Guaranteed (1) Straightness/Flatness, Guaranteed (1) Straightness/Flatness, Typical over 10 mm (1) Pitch, Guaranteed (1) Yaw, Guaranteed (1)
1)
100, 200 and 300 mm 0.05 µm (1/200 step) 0.1 µm 0.2 µm 0.5 µm or ±0.25 µm 50 mm/s 0.2 µm 1 µm or ±0.5 µm 1.5 µm or ±0.75 µm 0.6 µm or ±0.3 µm 80 µrad or ±40 µrad 20 µrad or ±10 µrad
The high accuracy version FMSPPHA metrology stage is stepper motor driven with a linear encoder available with 100 mm, 200 mm or 300 mm of travel. This combination provides much higher accuracy and better repeatability compared to the DC and stepper motor versions. These advantages are in addition to the excellent straightness and flatness performance resulting from our innovative cross-roller and bearing preload technology. Another unique feature of the FMS is the complete use of stainless steel in the body and carriage, which makes the FMS thermally stable, versus competitors' stages using aluminum bases. The FMSPPHA stages offer exceptional repeatibility and accuracy performance while delivering speeds of 50 mm/s for
For the FMS100PPHA stage.
higher throughput capability. Control using Newport's XPS Universal Controller, adds more flexibility in gathering metrology data also. The FMS linear stages are exceptional solutions for surface metrology applications.
WEB
To learn more, visit www.newport.com/FMS
M O T I O N C O N T R O L
HXP50
Compact Hexapod
Newport has sales released the compact HXP50 hexapod, designed to fit nicely in many applications such as fiber alignment, optical surface interferometry and material analysis among others. The HXP50 has more than enough travel for adjustment of mirrors, sensors, optical assemblies (up to 5 kg), with very fine sensitivity, down to 0.05 µm and 1 µrad. The HXP50 is also fast enough to attain production level rates and the load capacity at any orientation is also specified. The HXP50 is driven by six DC servomotored actuators with encoder Specifications
X Travel range (1) MIM, Minimum incremental motion Uni-directional repeatability, typical Bi-directional repeatability, typical (2) Max. speed Stiffness (3) ±17 mm 0.1 µm 0.2 µm 1.2 µm (0.4 µm) 14 mm/s 2 N/µm Y ±15 mm 0.1 µm 0.2 µm 1.2 µm (0.4 µm) 12 mm/s 2 N/µm Z ±7 mm 0.05 µm 0.1 µm 0.6 µm (0.2 µm) 5 mm/s 25 N/µm
feedback at the leadscrew nut, providing precise MIM, low backlash and fast speed. The HXP50-ELEC motion controller accurately masters the synchronized transformations from Cartesian input coordinates to the motion of the Hexapod legs. The main differentiator of the HXP50, as with the other Newport hexapods, is the ability to program two pivot points represented by the Tool and Work coordinate systems. The Tool CS moves with the top plate and the Work is stationary. These powerful functions are a completely new way of mastering Hexapod motions without the need for complex external coordinate transformations.
WEB
Θx ±9° 0.05 mdeg 0.1 mdeg 0.6 mdeg (0.2 mdeg) 6 °/s – Θy ±8.5° 0.05 mdeg 0.1 mdeg 0.6 mdeg (0.2 mdeg) 6 °/s – Θz ±18° 0.1 mdeg 0.2 mdeg 1.2 mdeg (0.4 mdeg) 15 °/s –
1)
To learn more, visit www.newport.com/HXP50
Travel ranges are interdependent. The listed values are max. travels per axis when all other axis are in their centered position (Height = 151 mm for Z). 2) With standard setting (with hysteresis compensation). 3) Stiffness depends on Hexapod position. Values are given for all axis in their centred position.
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Table of Contents for the Digital Edition of Newport Spectra-Physics Newsletter - #37 - October 2012