PI USA
US Headquarters 16 Albert Street Auburn, MA 01501 United States Phone: 508-832-3456 Fax: 508-832-0506 Email:contact@pi-usa.us Website: www.pi-usa.us
System with 6 Degrees of Freedom for Aligning Fibers and Optical Components
Integrated scan routines for fiber optic alignment
Ideal for applications in silicon photonics
Extensive software package
Position sensors for high accuracy and operational reliability
Automatic alignment of several fibers in <0.2s
Freely selectable virtual pivot point
Fast and high-precision drives The basis of the fiber alignment system is a very stiff setup with an H-811 hexapod and an P-616 NanoCube® Nano positioner. The parallel-kinematic design for motion in six degrees of freedom ensures high system stiffness. The motorized drives make long travel ranges possible and at the same time, the NanoCube® Nano positioner allows fast scanning motion and dynamic compensation of drift effects. Flexure guides and all-ceramic PICMA® actuators guarantee a long lifetime. Because all drives are equipped with position sensors, the system works precisely and reliably with high repeatability.
Extensive software package The software package supplied in the scope of delivery allows integration of the system into virtually any environment. All common operating systems such as Windows, Linux, and macOS as well as a large number of common programming languages including MATLAB and NI LabVIEW are supported. Thanks to sophisticated program examples and the use of software tools such as PIMikroMove, the time between starting integrating and productive operation is shortened considerably.
Application fields Alignment of optical components and parts, assembling technology in silicon photonics, packaging.
High-performance scan routines The sophisticated scan routines are integrated directly into the controller, which considerably improves the performance and simplifies integration. The system can manage all tasks in the field of fiber alignment. The integrated rotational scans enable fiber arrays to be optimized on all channels very easily.
High-resolution analog input The controller receives the optical intensity signal directly via a high-resolution analog input. Complex setups with cameras are not necessary. Various distribution functions are available for determining the maximum intensity.
Unit of Measure
More Information: Specifications, CAD Drawings, Manuals, etc.
