Home » Electronics & Semiconductors » Micro-electronics & Nanotechnology » Microscopy Stage with Ultrasonic Piezomotors
Ihren XING-Kontakten zeigen

Microscopy Stage with Ultrasonic Piezomotors

As linear direct drives, the compact piezomotors make lead screw ducts and flanged-on stepper motors unnecessary. Flexibility of velocity and resolution is also essential to use microscopes for different tasks. Classic lead screw stages run up against their limits here. They are usually designed either with a high gear ratio for slow and high-resolution movements or a low gear ratio for velocity, which reduces accuracy. Such compromises are a thing of the past with microscopy stages that work with ultrasonic piezo drives. In addition, they are self-locking at rest and so hold the stage in a stable position.
The Karlsruhe-based company PI (Physik Instrumente) has used its many years of experience with piezo actuators and nanopositioning systems to develop an extremely versatile microscopy stage that has a very low thickness of only 30 mm and no disturbing lead screw ducts or motor projections. It is suitable for displacements of up to 85 × 135 mm. Its large aperture accommodates holders for Petri dishes, standard object slides or microtiter plates.

For Direct Observation or Automatic Scans

The ultrasonic piezo drives used allow good velocity stability in the wide range from 10 µm/s to 100 mm/s. The stage can thus be used for direct visual observation at great magnification (objective 100x at approx. 10 µm/s) without “jerking”, for example, which interferes with and tires the user on the ocular or monitor while controlling the XY stage with the directly connectable USB joystick. The user will also appreciate how quietly the stage works. The same microscopy stage is equally well suited for automated scanning applications that require high velocities of up to 100 mm/s and short settling times.

This high dynamic range of the XY stage is due to the piezo ultrasonic linear drives used, in which the high-frequency oscillation of a piezoelectric actuator generates the propulsion force. The patented ultrasonic motors work directly without intermediate elements, such as lead screws or gears, are backlash-free due to their great stiffness and position very precisely. In combination with a linear encoder, positioning resolution is 0.1 µm, and the bidirectional repeatability is 0.4 µm. As a result, so-called “points of interest” can be reliably found again and precisely approached. This is also advantageous in “high content screening” analysis technology, when many samples (e.g. tissue samples) are to be scanned. In addition to short settling times, the good repeatability is important here for “tiling” the images.

Self-Locking, Therefore no Thermal Drift

The drive consists of a stator containing the piezoceramic oscillator and a runner referred to as a friction bar, which is directly fastened to the movable part of a carriage. The oscillation profile of the piezoceramic then produces the forward and backward motion of the drive, whereby the travel range is theoretically unlimited. The ceramic is preloaded against the friction bar and thus keeps it in its ‘at rest’ position when powered down. Unlike directly driven electromagnetic linear, stepper and DC motors, the piezo-based drive does not require any energy for this, and no heat is generated. Compared to electromagnetic drives, there is practically no thermal drift, and the position is maintained with a high degree of stability. This is especially advantageous for super-resolution microscopy, where one recording can take several minutes.

Due to its “trace memory”, the controller which is adapted to the microscopy stage and has an extensive software package, allows the trajectory to be displayed as a position/time diagram on a connected host PC. Its control parameters can thus be perfectly matched to the respective application. The piezo Z stages from the same manufacturer, which also have a very flat design, are ideal for positioning tasks in the direction of the optical axis, e.g. for stack recordings. They are available with a clear aperture of 160 × 110 mm and a stroke of 200 µm and can be mounted on the XY stage without an adapter and controlled with the same controller.

You must be logged in to post a comment Login


Blogverzeichnis - Blog Verzeichnis bloggerei.de Blog Top Liste - by TopBlogs.de Bloggeramt.de blogoscoop