Alignment is crucial for effectiveness and performance in SiPh production. The industry has come a long way from manual processes to intelligent automation of photonics testing, assembly, and packaging. As the alignment of optics, fiber arrays, etc is the most time-consuming production step, new automated solutions improve yield, time-to-market, cost reduction, and scaling production volumes.
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Mastering Precision
The Evolution of Photonics Alignment Techniques from Manual to Algorithm-Assisted, Automated Systems
The Quantum Era Emerges - How PI Fast Automated Alignment Enables Practical Manufacturing
Nanopositioning stages and fast photonics alignment algorithms enable manufacturing of quantum technology devices
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If you can Measure it, we can Help you Optimise it
System Optimisation – Tracking and Alignment in Multiple Degrees of Freedom
Enabling Large-Format Industrial Productivity
Award-Winning PI Fast Alignment Technology Comes to ACS Controls
PI’s fast optimization technology has proven to dramatically improve production economics in processes as diverse as photonics wafer probing, device packaging, and chip testing and even laser and optical equipment manufacturing. Now the flexible combination of PI´s industrial stages and new alignment-enabled controls from ACS address additional tough throughput and yield challenges for photonics production.
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Compact Automated XYZ Fiber Alignment System
Fast Multistage Approach in an Affordable Modular Concept
Cost Effective, Modular XYZ Photonic Alignment
Submicron Features and Rising Quantities Require Automated, Fast Alignment Procedures
In the field of Silicon Photonics, a challenge is the exceedingly fine alignment required to couple inputs and outputs. PI’s new F-131 Modular XYZ Photonic Alignment System provides an excellent foundation for developing, studying and pursuing manufacturing and testing of photonic components.
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