In a unique -40 °C vacuum cooled platform, loaded with FPGA intelligence, Andor’s Neo sCMOS camera platform is designed exclusively to drive lowest possible dark noise from this popular sensor, equally at home in both life science and physical science settings.
5.5 Megapixel, 6.5 µm pixel – 22 mm diagonal
Vacuum cooled to -40 °C
1 e- read noise and 0.007 e-/pix/s darkcurrent
Minimal hot pixels
Global (Snapshot) and Rolling Shutter
In a -40 °C vacuum cooled platform, with 1 e- read noise, very low darkcurrent, Rolling and Global Shutter, and loaded with FPGA intelligence, Andor's Neo sCMOS camera is designed to drive lowest possible dark noise from this popular sCMOS sensor.
The Neo 5.5 model is based around a large 5.5 megapixel sensor with 6.5 µm pixels and a 22mm diameter, ideal for applications such as cell microscopy, astronomy, digital pathology and high content screening. The Neo 5.5 can deliver 30 fps sustained or up to 100 fps burst to internal 4GB memory. Extremely low darkcurrent means Neo 5.5 is suited to a range of exposure conditions, thus also ideal for staring astronomy The Rolling and Global shutter flexibility further enhances application flexibility. Global shutter in particular offers an ideal means to simply and efficiently synchronize the Neo with other ‘moving’ devices such as stages or light switching sources, eliminating the possibility of spatial distortion when imaging fast moving objects. Fast electronic shuttering is also ideal for PIV flow mechanics.