License to Connect

Thanks to the immense transmission capacity and low energy consumption, optical communication is penetrating ever deeper layers of communication networks. Servers are increasingly being connected via glass fibers and also within computers more and more functionalities are being transferred to the medium of light. Placing optical components on silicon semiconductors and creating optical connections are recurring process steps in the production and quality assurance of silicon photonic components (SiPh) and photonic integrated circuits (PICs). Often, transverse tolerances of well below 50 nm are required. Therefore, precision, velocity, and a high degree of automation of the alignment are indispensable for the functionality and cost of manufacturing SiPh and PICs. PI's tried and tested active alignment systems are faster than conventional methods by up to two orders of magnitude and they help to make this critical process economically viable. Starting from quality assurance for optical devices/elements at wafer level up to the final assembly, PI offers complete solutions for different chip designs, formats, and tasks.

SiPh Testing, Assembly, and Packaging
Physik Instrumente Photonic Packaging Chiplet
When it comes to throughput and production costs in testing, assembling, and packaging of photonic devices, alignment is one of the most significant cost factors. For maximum performance, the optimal combination of accuracy, speed, and intelligent automation is needed.
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Silicon Photonics Wafer Probing
SiPh wafer probing
Economical mass production of SiPh components requires high-speed automated alignment with nanometer accuracies: Probing solutions combine high speed, precision, and sensor technologies to avoid direct contact between probe and wafer, particle formation, or chip damage.
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