iDus spectroscopy CCD Camera is designed with the lowest noise to provide an ultra sensitive and high dynamic range detector for use in a wide range of both conventional and demanding spectroscopic applications. iDus offer a wide range of different format sensors to optimize the detector for your specific application.
iDus 401
The Scientific Grade, 1024 x 127 deep depletion spectroscopy CCD camera is ideally suited to rapid analysis, multi-channel and low-light applications including fluorescence and Raman spectroscopy. The 401’s range of Front and Back Illuminated and Deep Depletion sensor options provide optimised performance from UV through Visible to Near IR.
iDus 416
Andor’s new iDus 416 platform boasts a unique combination of very low dark noise and very high QE, offering unrivalled sensitivity in the near-infrared. This makes it the ideal detector for NIR Raman and Photoluminescence, reducing greatly acquisition times and removing the need for inconvenient LN2 cooling.
Low dark current
Peak QE up to 95%
30 mm wide sensor
TE cooling down to -95oC
15 μm pixels
iDus 420
The scientific grade, 1024 x 255 high speed spectroscopy CCD camera is ideally suited to rapid analysis, multi-channel and low-light applications including fluorescence and Raman spectroscopy. The 420’s range of Front (Open Electrode) and Back Illuminated and Deep Depletion sensor options provide optimised performance from UV through Visible to Near IR.
TE cooling to -100°C
UltraVac™
Single window design
26 x 26 μm pixel size
iDus 1.7 μm InGaAs
Andor iDus InGaAs 491 array series provide the most compact and optimized research-grade platform for Spectroscopy applications up to either 1.7 or 2.2 μm. The Thermo-Electrically cooled, in-vacuum sensors reach cooling temperatures of -90oC where the best signal-to-noise ratio can be achieved for the majority of the applications in this spectral region.
0.6 to 1.7 μm
Peak QE of > 85%
TE cooling to -90°C
UltraVac™
Single window design
iDus 2.2 μm InGaAs
Andor’s iDus InGaAs 492 array detector series provides the most optimized platform for Spectroscopy applications up to 2.2 μm. The TE-cooled, in-vacuum sensors reach cooling temperatures of -90°C where best Signal-to-Noise ratio can be achieved.
0.8 to 2.2 μm
Peak QE of > 70%
TE cooling to -90°C
UltraVac™
Single window design