Queensgate / SIFAM NPS3220 2-Channel Piezoelectric Controller w/ 2-Axis Nanopositioning Stage

This controller is typically used in high-end OEM embedded nanopositioning and nanosensing applications.

Full Model Number: NPS3220-LD-LN:
Opt -LD: Low Drift - Drift level is 3 times lower than standard
Opt -LN: Low Noise - Noise level is 3 times lower than standard

Accessories Included:
• NPS3220 Manual
• NanoControl Panel and LabView Driver Disks
• NPS-XY-100A NanoMechanism

NPS-XY-100A
The NPSXY100A is a piezo scanned flexure guided stage with integrated capacitance position sensors. It is capable of sub-nanometer resolution and reproducibility. Finite element analysis of the flexure guidance mechanisms has reduced parasitic angular motions to less than 25 micro-radians over the full 100 micron range.

• 2-Axes
• 100 µm x 100 µm Range
• Sub-Nanometer Reproducibility
• Linearity Error Less Than 0.02%
• 400 mm Clear Aperture

The Super Invar construction (CTE 0.3ppm K-1, c.f. Al at 23ppm K-1) minimizes thermal drift, which on a nanometer scale is very important. The unique isostatic mounting system ensures that stresses from the mounting system are properly relieved and establishes the center of the stage as the co-ordinate reference point.

View Photo of the front of the unit.
View Photo of the rear of the unit.
View Photo of the NanoMechanism.
Read Full Description
Stock # 43418-2
Queensgate / SIFAM NPS3000 Series Piezoelectric Nanopositioner Controllers
Description:
This controller is typically used in high-end OEM embedded nanopositioning and nanosensing applications.

Full Model Number: NPS3220-LD-LN:
Opt -LD: Low Drift - Drift level is 3 times lower than standard
Opt -LN: Low Noise - Noise level is 3 times lower than standard

Accessories Included:
• NPS3220 Manual
• NanoControl Panel and LabView Driver Disks
• NPS-XY-100A NanoMechanism

NPS-XY-100A
The NPSXY100A is a piezo scanned flexure guided stage with integrated capacitance position sensors. It is capable of sub-nanometer resolution and reproducibility. Finite element analysis of the flexure guidance mechanisms has reduced parasitic angular motions to less than 25 micro-radians over the full 100 micron range.

• 2-Axes
• 100 µm x 100 µm Range
• Sub-Nanometer Reproducibility
• Linearity Error Less Than 0.02%
• 400 mm Clear Aperture

The Super Invar construction (CTE 0.3ppm K-1, c.f. Al at 23ppm K-1) minimizes thermal drift, which on a nanometer scale is very important. The unique isostatic mounting system ensures that stresses from the mounting system are properly relieved and establishes the center of the stage as the co-ordinate reference point.

View Photo of the front of the unit.
View Photo of the rear of the unit.
View Photo of the NanoMechanism.
 View Description
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