U-723 Mini XY Stage for Precision Scanning

Featured Product from PI (Physik Instrumente) L.P.

August 2017, Auburn, MA – Nanopositioning design and engineering global leader PI (Physik Instrumente) delivers a new ultra-compact XY scanner and positioner powered by small integrated direct-drive ultrasonic piezoceramic motors that provide smooth motion with high resolution (a single axis version is also available). The patented self-locking principle of the motor is a significant advantage over magnetic drive technologies: once the motor reaches a target position, it acts like a ceramic brake and locks the platform into place, providing extreme long term stability at zero driving current and heat generation.


Wide Dynamic Range, Quiet, Compact, Fast

The U-723 joins PI’s existing portfolio of compact linear stages. With a footprint of only 42x42mm (1.6x1.6”) and 21mm tall (4/5”), its miniaturized design allows for easy integration into existing systems, especially when space is limited. In addition to high speed motion up to 200 mm/sec, the low inertia (direct drive, no rotating parts) allows for a very dynamic start-stop behavior with settling times in the millisecond range. Based on the ultrasonic principle with drive frequencies >100kHz - way beyond the human hearing range -, the motors are very quiet. Displacement is generated in continuous sub-nanometric increments, leading to extremely smooth motion with a wide dynamic range from 1µm/sec to 200mm/sec. 


10nm Sensor Resolution, Closed-Loop Operation, 2 Axis Precision Motion Controller

Incorporated optical linear encoders provide position feedback with 10 nanometers resolution. Higher resolution stages are also available from PI. Due to the low power requirement of the ultrasonic motor, the U-723 can be integrated into mobile measuring and medical devices. Vacuum compatible versions are also available.

High-End Motion Controllers, Software Package

To take advantage of the operating principle, providing superior dynamic performance with settling times in the millisecond range while maintaining high resolution and smooth operation, ultrasonic motors benefit from advanced control strategies, such as automatic switchover between several static and dynamic PID parameter sets and adaptive frequency tracking. PI offers a number of ultrasonic motion controllers (C-867 and C-877 product families) available in desktop, rack-mount, and OEM configurations. An ASIC chip containing the motion control algorithms is also available for OEM customers.  A comprehensive software package is included: drivers and example programs for LabVIEW, dynamic libraries for Windows and Linux, MATLAB are available. Interfaces include TCP/IP, USB, RS-232 and analog.