• sCMOS Zyla 4.2P

    Scientific CMOS (sCMOS) is a breakthrough technology that offers an advanced set of performance features that render it ideal to high fidelity, quantitative scientific measurement. The multi-megapixel sensors offers a large field of view and high resolution, without compromising read noise, dynamic range or frame rate.

    Feature
    • 4.2 megapixel sCMOS
    • 82% QE, optimized for all fluorophores
    • 0.9 e- read noise
    • 100 fps (53 fps USB 3.0)
    • 33,000:1 dynamic range
    Brochure
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    http://www.andor.com/scientific-cameras/neo-and-zyla-scmos-cameras/zyla-42-plus-scmos

  • sCMOS Zyla 5.5

    Scientific CMOS (sCMOS) is a breakthrough technology that offers an advanced set of performance features that render it ideal to high fidelity, quantitative scientific measurement. The multi-megapixel sensors offers a large field of view and high resolution, without compromising read noise, dynamic range or frame rate.

    Feature
    • 5.5 megapixel sCMOS
    • Rolling & True Global Shutter
    • 0.9 e- read noise
    • 100 fps (40 fps USB 3.0)
    • 33,000:1 dynamic range
    Brochure
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    Go to Website
    http://www.andor.com/scientific-cameras/neo-and-zyla-scmos-cameras/zyla-55-scmos

  • iXON Ultra 897 (BV, EX2, UVB, Life)

    The Electron Multiplying CCD (EMCCD) operates by amplification (EM Gain) of weak signal events to a signal level that is well clear of the read noise floor of the camera at any readout speed, rendering them single photon sensitive. Andor’s market leading iXon design ensures the absolute highest sensitivity from a quantitative scientific digital camera, particularly under fast frame rate conditions.

    Feature
    • 512 x 512
    • 16 μm pixel size
    • Single Photon Sensitive
    • > 95% QE
    • 56 fps full frame
    • TE Cooling to -100ºC
    Brochure
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    Go to Website
    http://www.andor.com/cameras/ixon-emccd-camera-series

  • iXON Ultra 888 (BV, EX2, UVB, Life)

    The Electron Multiplying CCD (EMCCD) operates by amplification (EM Gain) of weak signal events to a signal level that is well clear of the read noise floor of the camera at any readout speed, rendering them single photon sensitive. Andor’s market leading iXon design ensures the absolute highest sensitivity from a quantitative scientific digital camera, particularly under fast frame rate conditions.

    Feature
    • Largest Field of View EMCCD
    • 1024 x 1024
    • 13 μm pixel size
    • Single Photon Sensitive
    • > 95% QE
    • 26 fps full frame
    • 93 fps @ 512 x 512
    • TE Cooling to -95ºC
    Brochure
    DOWNLOAD
    Go to Website
    http://www.andor.com/cameras/ixon-emccd-camera-series