F-712.MAx Compact, High-Speed XYZ Photonics Alignment Systems
Single-Sided and Double-Sided, Fully Automated
- Integrated scan/align routines for fibers and photonic devices
- Fast, simultaneous optical performance optimization across multiple device I/Os and degrees of freedom
- Broad and deep software support for rapid process development, including support for popular languages such as C#, Python, LabVIEW, and MATLAB on Windows and Linux
- Automatic alignment in typically < 0.5 s
- Responsive application and product support from PI worldwide
Problem solved
PI's Fast Multichannel Photonics Alignment (FMPA) solutions combine application-optimized, fab-ready, highly dynamic alignment stages with sophisticated controllers that integrate the world's most advanced and effective first-light search, profile, and power optimization alignment algorithms.
Reduction of alignment time by 99 %
This award-winning technology addresses the number one cost driver for photonics test and assembly: the precise alignment required for each element and channel. Legacy alignment technologies date back to the 1980s and can take minutes to complete. PI's fast optical alignment solutions reduce the time required by typically 99 %, routinely completing the task in less than one second. With studies indicating that on the order of 80 % of the cost of a photonic device is consumed in the alignment prior to FMPA, it is easy to see how profound the production economics benefit from reducing that 80 % by 99 %. And with projections of three orders of magnitude escalation in demand for photonic devices in the near future, as new applications and devices emerge, FMPA is a true enabler.
Compact solution for XYZ alignment challenges
This compact solution integrates a high-precision XYZ stage (based on model M-122) for generous travel with an XYZ piezo nanopositioner of extraordinary speed and resolution (based on model P-616). A single controller manages all axes in single-sided and double-sided configurations: F-712.MA1 and F-712.MA2, respectively. Four high-resolution analog inputs provide connectivity to power meters, such as PI’s F-712.PM1 high-bandwidth optical power meter, for optimization and profiling, enabling efficient and fast automated fiber alignment. Soft limits are supported to ensure process safety. Starting with these sophisticated platforms, it is easy to configure automated alignment solutions of unprecedented speed that support functionalities such as submicron-sensitive wafer proximity automation.
Application fields
PIC production, photonics alignment, alignment of optical components, lenses, silicon photonics wafer probing, testing, assembly, and packaging of photonics and fiber optics
Specifications
Specifications
Motion and positioning | F-712.MA1 | F-712.MA2 | Unit |
---|---|---|---|
Number of active axes | 6 | 12 | |
Rough positioning | |||
Active axes | X, Y, Z | ||
Travel range in X, Y, Z | 25, 25, 25 | mm | |
Minimum incremental motion | 3 | µm | |
Max. velocity | 20 | mm/s | |
Sensor typ2 | Rotary encoder | ||
Guide | Crossed roller guide | ||
Drive type | DC motor | ||
Fine positioning | |||
Active axes | X, Y, Z | ||
Travel range in X, Y, Z, closed loop | 100 | µm | |
Min. incremental motion, open-loop | 0.3 | nm | |
Min. incremental motion, closed-loop | 2.5 | nm | |
Linearity error, for the entire travel range* | 2 | % | |
Repeatability (bidirectional) 10% travel range | 2 | nm | |
Sensor type | Incremental | ||
Drive type | PICMA® | ||
Alignment | |||
Scanning time of spiraled area scan 500 µm Ø** | < 3 | < 6 | s |
Scanning time of spiraled area scan 100 µm Ø* | < 0.3 | < 1 | s |
Scanning time of spiraled area scan 10 µm Ø** | < 0.2 | < 0.5 | s |
Signal optimization with gradient search, randomized with ±5 µm (repeatability < 0.01 dB)*** | < 0.3 | s |
Downloads
Product Note
Datasheet
Documentation
User Manual F603T0003
F-603.41 / F-603.42 / F-603.43 Fiber holders for P-616-type (NanoCube®) piezo positioners
User Manual F712T0002
F-712.MA1 and F-712.MA2 Stacked Multi-Axis Systems for Fast Multi-Channel Photonics Alignment. Hardware description.
User Manual E712T0016
Fast Multi-Channel Photonics Alignment. Hardware and Firmware for Fast Optical Alignment in Silicon Photonics Production.
User Manual F712T0019
Calculation of Optical Power - Using the F-712.PM1 Power Meter with F-712 High-Precision Fiber Alignment Systems
3D Models
F-712.MA1 3-D model
F-712.MA2 3-D model
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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.
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.
Digital Motion Controllers
Digital technology opens up possibilities for improving performance in control engineering which do not exist with conventional analog technology.
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.
Hexapods and SpaceFAB
Hexapods are systems for moving and positioning loads in six degrees of freedom, in three translational and three rotational axes.