FLIR Systems has announced a new and enhanced version of its T650sc thermal imaging camera.
Tailor made for research and development the FLIR T650sc combines high accuracy (+/- 1°C) and outstanding sensitivity to routinely deliver accurate measurement of even the smallest temperature differences (<20mK). The FLIR T650sc measures temperature of up to +2,000 °C and includes a 5 Megapixel digital camera to provide clear visual images that may be overlaid with your IR data. With real-time radiometric recording in the camera, it is possible to capture fast events on the camera’s SD card for further analysis by the supplied analysis software. A new highly intuitive touchscreen user interface facilitates productive use of the T650sc with a minimum of training.
The camera combines excellent ergonomics and feature-rich flexibility with superior image quality of 640 × 480 pixel Infrared resolution. The T650sc camera is equipped with FLIR's proprietary ‘Multi Spectral Dynamic Imaging (MSX)’ feature, which produces an image richer in detail than ever before. Continuous auto-focus makes the T650sc the first fully automatic IR camera on the market.
Designed to be truly portable the T650sc provides you with the flexibility of easy movement between experiments.
A host of advanced measuring and analysis functions – plus contrast optimizer, laser pointer and voice annotation makes the camera flexible enough to adapt to your every need. A programmable button provides easy access to favorite functions. For further information on the T650sc please visit www.flir.com/cs/emea/en/view/?id=57920 or contact FLIR Systems at [email protected] or +32-3665-5100.
Pioneers in all aspects of infrared technology, FLIR designs, manufactures, and supports thermal imaging systems and subsystems for industrial, scientific, governmental, commercial, and fire fighting applications. With a 40-year history of infrared innovation, over 100,000 systems in use worldwide, and development centres and sales offices in over 60 countries, FLIR is the world leader in thermal imaging technology.