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P-611 NanoCube^TM Closed/Open Loop 3D NanoPositioning Systems

Ideal for Fiber-Alignment and Photonic Packaging Applications  100 x 100 x 100 µm Travel Range  1 nm Resolution  Closed and Open Loop Versions  Precision Trajectory Control  Small Package: 44 x 44 x 44 mm  (Closed Loop Version!)  Fast Scanning and Settling  Large Variety of Controllers  The P-611 NanoCubeTM is PI's smallest multi-axis Piezo-NanoPositioning System. Its 100 x 100 x 100 µm XYZ positioning and scanning range comes in an extremely compact package of only 44 x 44 x 44 mm. Equipped with a zero stiction/friction guiding system, the NanoCubeTM provides motion with ultra-high resolution and settling time of only a few milliseconds. Both open loop and closed loop versions (with position feedback sensors) are offered to suit your application.  Application examples: Photonic Packaging, Optical Device Testing, MEMS Positioning/Alignment, Fiber Alignment, Micromachining, Micro-Manipulation (Life Sciences), Semiconductor Test Systems. Combination of NanoCubeTM XYZ NanoPositioning System, 100 x 100 x 100 µm and M-105.30 XYZ MicroPositioner 18 x 18 x 18 mm.

NanoCubeTM, XYZ Compact NanoPositioning System, 100 x 100 x 100 µm travel range, 1 nm resolution   NanoCubesTM can be easily combined with a variety of automated or manual PI micropositioning systems, from single axis stages to 6 degrees of freedom micromanipulators. Combination of NanoCube (TM) and F-206 Six-Axis Parallel Kinematics MicroPositioning System Working principle:  P-611 NanoPositioners are equipped with low voltage piezoelectric drives (0 to 100 V) integrated into a sophisticated flexure guiding system. The force exerted by the piezo drive pushes a multi-flexure parallelogram via an integrated motion amplifier. The wire EDM (Electric Discharge Machining) cut flexures are FEA (Finite Element Analysis) modeled for zero stiction and friction, ultra-high resolution and exceptional guiding precision. Integrated strain gage position feedback sensors provide nanometer scale resolution and stability in closed loop operation (with PI control electronics).

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