Quantum Design UK and Ireland Ltd
Company Overview
Quantum Design UK and Ireland (QDUKI) are a leading distributor of high-tech instrumentation and consumables for scientific, academic and industrial research. QDUKI are part of the Quantum Design International Group. Our success in distributing scientific products comes from more than 30 years' experience in manufacturing and distributing our own industry-leading materials characterisation systems.
Please visit our website www.qd-uki.co.uk to see the Imaging cameras range we can offer which include InfraTec ImageIR® high-end thermography systems which are suited to applications with the highest standards in the fields of non-destructive material testing and process monitoring. The modular outline allows for an individual system configuration and ideal adjustment of the performance data to the respective task. As the top model of this series the ImageIR® 10300 impresses with a cooled photon detector of (1,920 × 1,536) IR pixels being installed in an radiometric infrared camera for civil use for the first time. The transmission of the recordings in Full HD achieves, thanks to the 10 GigE interface, frequencies up to 100 Hz in full frame mode. For reliable detection of very small objects over extremely high distances the models ImageIR® 8300 Z and ImageIR® 9300 Z are available with a focal range of (28 ... 850) mm. The ImageIR® 8300 hp in the format (640 × 512) IR pixels allows a full-frame rate of 350 Hz. The series sets standards as an efficient high performance tool for thermographic investigations in combination with the thermography evaluation software IRBIS®3.
We also offer Cordin high speed cameras who have for over sixty years been at the pinnacle of high speed imaging and offer the fastest and highest quality scientific imaging systems in the world with the broadest product line of any high speed imaging provider. Cordin frequently works with end users to develop custom solutions to imaging challenges. Cordin cameras offer a wide range of high speed imaging cameras with a temporal resolution in at the nanosecond scale down to picoseconds in some models, high resolution pictures using frame and streak imaging techniques. High frame rates are achieved using rotating mirrors, gate intensified relaying, temporal pixel multiplexing, and image convertor relaying techniques.
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