F-712.HA2 High-Precision Double-Sided Fiber Alignment System

System with 6 Degrees of Freedom for Aligning Fibers and Optical Components

F-712.HA2 High-Precision Double-Sided Fiber Alignment System
Product Description Specifications Downloads Quote / Order
  • Integrated scan routines for fiber optic alignment
  • Ideal for applications in silicon photonics
  • Extensive software package
  • Direct detection of the optical signal
  • Position sensors for high accuracy and operational reliability
  • Automatic alignment of several fibers in <0.5s

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® nanopositioner. The parallel-kinematic design for motion in degrees of freedom ensures high system stiffness. The motorized drives make longer travel ranges possible and at the same time, the NanoCube® nanopositioner ensures fast scanning motion and dynamic compensation of drift effects. Flexure guides and all-ceramic insulated PICMA® actuators guarantee a long lifetime. Because all drives are equipped with position sensors, it is possible for example, to reliably prevent collisions with expensive silicon wafers.

High-performance scan routines

The sophisticated scan routines are integrated directly into the controller. The performance is improved considerably and integration simplified. The system can manage all tasks in the field of fiber alignment. For example, double-sided systems allow simultaneous alignment of the transmitter and receiver.

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.

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.

Application fields

Alignment of optical components, automatic wafer tests, assembling technology in silicon photonics

Specifications

Datasheet

Datasheet F-712.HA2

Version / Date
2018-05-16
Version / Date
2018-05-16
Document language
pdf - 673 KB
pdf - 680 KB

Downloads

Product Note

Product Note

Product Change Notification F-712.xxx

Version / Date
2019-04-15
Document language English
pdf - 265 KB

Datasheet

Datasheet

Datasheet F-712.HA2

Version / Date
2018-05-16
Version / Date
2018-05-16
Document language
pdf - 673 KB
pdf - 680 KB

Documentation

Documentation

User Manual F603T0003

F-603.41 / F-603.42 / F-603.43 Fiber holders for P-616-type (NanoCube®) piezo positioners
Version / Date
2018-12-03
Document language English
Documentation

User Manual F712T0003

F-712.HA1 and F-712.HA2 Systems with 6 Degrees of Freedom for Fast Multi-Channel Photonics Alignment. Hardware description.
Version / Date
2019-10-16
Document language English
Documentation

User Manual E712T0016

Fast Multi-Channel Photonics Alignment. Hardware and Firmware for Fast Optical Alignment in Silicon Photonics Production.
Version / Date
2019-10-09
Document language English
Documentation

Technical Note F712T0019

Calculation of Optical Power - Using the F-712.PM1 Power Meter with F-712 High-Precision Fiber Alignment Systems
Version / Date
2019-05-23
Document language English
pdf - 132 KB
Documentation

Technical Note A000T0072

How To Control PI Systems
Version / Date
2018-11-05
Document language English
pdf - 239 KB

3-D Models

3-D Models

F-712.HA 3-D model

Quote / Order

Ask for a free quote on quantities required, prices, and lead times or describe your desired modification. All products available online can be ordered directly.

F-712.HA2
Double-sided fiber alignment system with two H-811 hexapods and two NanoCube® Nanopositioners, E-712 digital controller with 4 analog inputs, two C-887 hexapod motion controllers with 2 analog inputs each, firmware routines for extremely fast alignment functions, software package

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Technology

Active Alignment

The need to align devices down to nanoscale accuracy is arising in many fields. Optical components such as the lenses or lens assemblies in small cameras, or even the CCD chip itself, need to be positioned with ever more precision.
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EtherCAT Connectivity of PI Products

PI offers high-precision drives for use as EtherCAT slave, or integrates with ACS Motion Controllers as Master, or 2nd Master in an existing architecture.
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Controllers & Software

Fast settling or extremely smooth low speed motion, high positional stability, high resolution and high dynamics – the requirements placed on piezo systems vary greatly and need drivers and controllers with a high degree of flexibility.
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Complex motion profiles can be generated, saved and implemented with the function generator

Digital Motion Controllers

Digital technology opens up possibilities for improving performance in control engineering which do not exist with conventional analog technology.
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Control of Piezo Actuators

Characteristic properties of piezo actuators include high feed forces and fast response. Since piezoelectric actuators react to even the smallest change in voltage with a motion, noise or drift in the control must be avoided.
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Digital & Analog Interfaces

Fast USB or TCP/IP interfaces as well as RS-232 are the standard interfaces supported by modern digital controllers from PI. Furthermore, PI also provides digital or analog real-time capable interfaces.
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Multi-Axis Positioners

Hexapod platforms are used for precision positioning and alignment of loads in all six degrees of freedom, three linear axes, and three rotational axes.
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