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How to Select a Precision Automation System for High-Volume Optical Alignment
Complex optical alignment processes demand precision motion systems that balance alignment accuracy, repeatability and speed. But how do you choose the best solution for high-volume production? This webinar provides a deep dive into precision automation technologies for high-volume active alignment processes. Learn how to overcome positioning challenges and improve manufacturing efficiency with the right motion control technology.
Advanced Motion Control for Semiconductor Metrology
Are you facing the ever-increasing demands for accuracy, speed and reliability for your semiconductor inspection and metrology tools? This webinar provides a comprehensive overview of advanced motion control fundamentals and key technologies specifically tailored to address this industry’s unique challenges.Â
Advanced motion concepts for high-precision laser drilling
Key electronics and semiconductor manufacturing technologies require laser processing vertical high-aspect ratio holes. Laser-drilled vias in flexible and rigid PCBs are found in most electronic devices. Semiconductors recently adopted heterogeneous integration techniques with glass interposers requiring high-density through glass vias (TGV) manufactured via ablation or laser-induced deep etching (LIDE).
Advanced Laser Processing Techniques for Surgical Robot End Effector Manufacturing
For the cutting-edge manufacturers of minimally invasive surgical robots, precision laser processing is the cornerstone for crafting optimal end effectors. Advancements in laser and motion controls enable the creation of ultra-precise, miniature features without sacrificing dexterity, strength, reliability or end effector reproducibility.
How Motion Control Enables Modern Datacom Technologies
About the Webinar With the explosive growth of applications…
Precision Motion Control for Photonics: 5 Keys to Success
It’s no surprise that the global silicon photonics market is growing rapidly. The ever-increasing demand for lightning-fast data rates and communication speeds, coupled with the push to optimize device size and packaging, is driving industry growth at double-digit rates. In fact, silicon-photonic transceivers are expected to represent at least 30% of the total transceiver market by 2027. Organizations must be prepared to move with the market or be left behind.
Motion Control Technologies for Medical Device Joining Applications
Automated laser welding is often highly advantageous in medical device manufacturing due to its precision, cleanliness, and efficiency. When properly refined, it enables device OEMs to achieve the tightest of tolerances in the most intricate devices. The non-contact process reduces the risk of physical damage to delicate components, while automation enables high-speed production, enhancing efficiency and consistency.
Advanced Motion Controls for Synchrotron Applications
Synchrotrons are among the complex systems in the world and they rely on sophisticated control systems to function effectively. This webinar delves into some of the latest advancements in Aerotech controls technologies that enable the bleeding edge science conducted in synchrotrons throughout the globe.
Precision Automation Technologies that Minimize Laser Cut Hypotube Manufacturing Risk
Manufacturing laser-cut hypodermic tubing (hypotubes) from raw stock often requires several steps that need tight process controls to obtain optimum quality.
This webinar will break down typical manufacturing processes, highlighting key steps that require precision automation technologies to manufacture laser-cut hypotubes. Specifically, presenters will highlight the application of precision automation technologies commonly employed when cutting and measuring laser-cut hypotubes. Special attention will be given to how these technologies can be leveraged to minimize manufacturing risk.
Participants who will see the most benefit include those involved in manufacturing, automation and R&D, plus engineers involved in the laser-cutting or measurement of hypotubes.
