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Published Articles

The New Optical Interface: Novel Connector Designs and Intelligent Alignments Enable the CPO Era

It is no secret that scaling networks for future AI workloads has become increasingly difficult due to rising power demands and the extraordinary quantity of optical interconnects. For years, optical networks relied on faceplate pluggable (FPP) transceivers. Today, it is clear that this strategy has reached its limits.

Published Articles

Motion for Advanced Packaging

Advanced packaging is pushing motion control from a supporting role into a yield-critical discipline. As tolerances compress into the nanometer range, equipment builders must rethink how mechanics, sensing, and control interact. This whitepaper examines the system-level motion design principles shaping next-generation semiconductor manufacturing.

Published Articles

Microelectrode array manufacturing advances provide device designers with scaling options

Advanced laser micromachining technology significantly reduces production complexity, increases efficiency, and ultimately lowers costs. A combination of modern motion controls, precision stages, and five-axis precession laser scanners provides designers with a new tool for scaling device production.

Capability Overview

PWM+ Product Solution Sheet

PWM+ Solution Sheet 10.2025Download

Published Articles

Highly dynamic motion systems for stent processing

The production of microtubes for stents, catheters, or biopsy cannulas requires laser cutting processes that guarantee both the highest precision and high throughput. This places high demands on the motion technology: only when the drive, control, and mechanics are perfectly coordinated can fine cuts be achieved in short cycle times.

Automated Servo Control Optimization for High-Precision Laser Processing Applications

High-precision laser processing is essential for manufacturing critical components in diverse applications ranging from medical device and electronics production to semiconductor fabrication. Cost-effective, high-quality production requires equipment with exceptional precision and dynamics. Even when using advanced controls and precision components, optimizing motion systems for laser beam guidance remains a challenge. Fully optimizing precision machines normally requires a large time investment and detailed knowledge of underlying control principles and algorithms.

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Automation1 Version 2.11

Automation1 2.11 Release Update

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What’s New in Automation1 Studio?

What’s new in Automation1 Studio?

White Paper

Optimizing Motion Systems for the High-Precision, High-Throughput Laser Cutting of Cylindrical Medical Products

One of the most universal challenges in precision engineering and machine design involves making tradeoffs and design compromises. This is especially true in cylindrical medical product manufacturing. Engineers, managers and business leaders regularly have to choose between making parts quickly – but with errors that lead to extensive post-processing scrap rates – and making highly precise parts in lower volumes at higher costs.