The QGNPS-XY-100D NanoMechanism is a piezo scanned flexure guided stage with integrated capacitance position sensors capable of sub- nanometer resolution with market leading dynamic performance.
Millisecond response times and high bandwidth make the WP-Z-120A wafer positioning system ideal for applications where high throughput is essential. The stage is designed to hold 300 mm (12") wafers and delivers exceptional performance with loads of up to 8 kg suitable for heavy wafer chucks.
The SP-MINI-500 is an ultra-compact, long-range piezo stage which moves 500µm in closed loop. Designed with OEM and customization projects in mind, its small footprint is ideal for easy integration within instrumentation or test equipment. The built-in capacitive positioning sensors enable ultra-high speed performance and low nanometer-level repeatability.
The QGNPS-X-28C was originally developed for high speed, ultra precision MR head and disk drive testing.
Its small size and millisecond response time is ideal for applications where high reliability and throughput are essential. A low moving mass and high stiffness combine to offer extremely high bandwidths.
The NanoScan-SP range of piezo-driven stages delivers the best positioning performance and fastest recovery between z-stacks.
The NanoScan OP800 provides fast step and settle times over an 800µm range. Its market leading positioning accuracy and resolution originates from its unique mechanical design and integral capacitive feedback sensors. Compatible with most microscopes and objective lenses, the OP800 has user configurable settings optimized for different objective sizes, weights, and performance needs. You simply select the best setting for your particular application using the software provided
The NPS-XY-100A and the NPS-XY-100A-UHV NanoMechanisms are piezo scanned flexure guided stage with integrated capacitance position sensors capable of sub-nanometer resolution and reproducibility. The NPS-XY-100AUHV has been designed to operate down to 10-9 Torr.
The NPS-Z-500B-UHV delivers over 100 µm full range at 80K at 10-9 torr. The stage is designed to operate in closed loop mode using capacitive positioning sensors.
The Queensgate NPS-TG-7A tip tilt mechanism is designed for applications requiring high speed, ultra-high precision positioning of mirrors.
Unique positioning performance due to closed loop operation with capacitive positioning sensors.
The NanoScan OP400 provides the fastest step and settle time of any objective positioner available.
Its market leading positioning accuracy and resolution originates from its unique mechanical design and integral capacitive feedback sensors.
The millisecond response time and high bandwidth
make the QGNPS-X-15A (Stainless Steel) and NPSX-
15B (Aluminium) ideal for applications where
throughput is essential.