Our Exhibitors

Redlux Ltd

Redlux Ltd


SO519DL Romsey
United Kingdom

Our optical Coordinate Measuring System OmniLux system is highly versatile and provides unparalleled levels of 3D capture for component measurement in seconds. It’s highly versatile because it can measure any geometry including sphere, asphere, cylinder, internal bore, cone/taper, step height or freeform in any material such as polished or rough metals or ceramics and polymers. It’s fast and accurate because the use of optical sensors means that the whole surface can be analysed while the object is suspended in space, ensuring that no damage occurs to delicate surfaces. Our easy-to-use software interface, developed from years of experience enables the operator to effortlessly control the system. Rich data analysis, automation and export of results for the immediate generation of reports as well as a compact footprint means OmniLux is the leading solution for production or R&D environments where reducing cycle times is critical to sustainable success.
The highly versatile OmniLux can measure a wide range of components. Example applications are bearings, turbine blades, valves, toolholders, and many more.
• Non-contact rapid metrology
• 4 axis and 5 axis options
• 4 axis air bearing configuration for ultra precision
• Optical Chromatic sensor with nanometre resolution
• Highly versatile measurement system
• Fast, accurate and data-rich metrology
• Analysis of entire component's surface
• Non-contact measurements
• Immediate report generation
• Compact footprint
• Flexible data export

RedLux’s unrivalled expertise in sophisticated non-contact metrology systems gives better control of quality, throughput and cycle times ensuring the data is there when needed to make smarter decisions. Success for our customers is a balance of accuracy, speed and intelligence to ensure optimum quality. Our compact systems provide fast, highly accurate measurements that are rich in data, and because we use non-contact technology we can accurately capture the details of any geometry of component in any material.