The Newton 940 spectroscopic CCD camera series utilizes a 1024 x 255 or 2048 x 512 array of 26 µm or 13.5 µm pixels, with thermoelectric cooling down to -100°C, resulting in negligible dark current and provides unrivalled performance for spectroscopic applications.
Multi-Megahertz Readout
TE cooling to -100°C
UltraVac™
Down to 13.5 x 13.5 μm pixel size
Crop Mode Operation
Overview
This high-end USB2.0 Newton CCD series brings together Andor’s ultra fast, lownoise electronics platform and market-leading deep thermo-electric cooling to -100°C, complemented by Andor’s Ultravac™ technology with its un-matched reliability track record in the scientific and industrial community.
Broadband detection rates of up to 1,600 spectra per second are enabled with intelligent Crop Mode operation. The Newton CCD is an ideal tool for ultrafast UV, VIS or NIR spectroscopy (or all the above with the Dual AR-coating BEX2-DD technology!), such as 2D chemical mapping, online process monitoring or non-invasive medical diagnosis.
The Newton 940 series offers 13.5 x 13.5 µm pixels for the highest UV to VIS resolution spectroscopy, while the 920 series and its 26 x 26 µm offers the highest dynamic range for UV to NIR applications. Both > 6.6 mm high sensors are ideally suited for multi-track spectroscopy or hyper-spectral imaging.
Features
Peak QE up to 95% - Visible-optimized ‘BV/BVF’, infrared-optimized ‘BR-DD’ and broadband UV-NIR ‘BEX2-DD’ model
Fringe suppression technology as standard - Fringing greatly reduced (Deep-Depletion) or minimized (Back-Thinned ‘BVF’)
Extended range dual-AR option - Superior UV-NIR broadband QE