Stabilized Edmund Optics Ruggedized lenses are available in industrial, ingress protection, stabilized, and athermalization ruggedization options. industrial ruggedized lenses are designed to survive vibration and shock without damage by eliminating moving parts and making them easier to lock down. As imaging lenses for machine vision become used in ever more demanding and unforgiving environments, the number of types of ruggedization for applications within specialized environments continues to increase. athermalization is a ruggedization for applications in extreme or changing temperatures.
Imaging Lenses Made By Edmund Optics Because of these environmental requirements, new classes of ruggedized lenses are being designed specifically to work in a multitude of different scenarios and therefore create different types of ruggedization. Edmund optics designs and manufactures all types of ruggedized lenses described above that enable a wide variety of autonomous systems and other harsh environment machine vision applications. "we evaluated three optical component suppliers before standardizing on edmund optics for our automated defect inspection platform. the decision came down to lot to lot consistency on the aspheric condensers and the response time from their application engineering team. Ingress protection ruggedization is another type of ruggedization in which lenses are sealed using o rings or rtv silicone to make them waterproof, dustproof, and fog proof.
Markets Enabled By Imaging Optics From Edmund Optics "we evaluated three optical component suppliers before standardizing on edmund optics for our automated defect inspection platform. the decision came down to lot to lot consistency on the aspheric condensers and the response time from their application engineering team. Ingress protection ruggedization is another type of ruggedization in which lenses are sealed using o rings or rtv silicone to make them waterproof, dustproof, and fog proof. Crafted to adhere to rigorous iec ingress protection codes of ipx7 and ipx9k, these lenses offer robust waterproofing that allows them to withstand submersion up to 1 meter for 30 minutes, and maintain optimal performance even under close range, high pressure, high temperature water sprays. Greg hollows, vice president of the imaging business unit for edmund optics, discusses the three different types of ruggedization for imaging lenses and how they can maintain the optical performance of your imaging lens. Edmund optics imaging and machine vision lenses are robustly designed for use in harsh environments and are available in a number of options for the most demanding applications. This whitepaper explains pixel shift and how it affects an imaging system, how edmund optics stability ruggedized lenses are designed to minimize the effect of pixel shift, and the metrology methods used to ensure that these stability ruggedized lenses meet their specified performance.
Imaging Lenses Made By Edmund Optics Crafted to adhere to rigorous iec ingress protection codes of ipx7 and ipx9k, these lenses offer robust waterproofing that allows them to withstand submersion up to 1 meter for 30 minutes, and maintain optimal performance even under close range, high pressure, high temperature water sprays. Greg hollows, vice president of the imaging business unit for edmund optics, discusses the three different types of ruggedization for imaging lenses and how they can maintain the optical performance of your imaging lens. Edmund optics imaging and machine vision lenses are robustly designed for use in harsh environments and are available in a number of options for the most demanding applications. This whitepaper explains pixel shift and how it affects an imaging system, how edmund optics stability ruggedized lenses are designed to minimize the effect of pixel shift, and the metrology methods used to ensure that these stability ruggedized lenses meet their specified performance.
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