Kinetix
The groundbreaking Kinetix Family are back-illuminated sCMOS cameras that deliver the fastest speeds across the largest fields of view, all at near-perfect 96% quantum efficiency and sub-electron read noise. All this and more make the Kinetix Family the ultimate solution for scientific imaging.
Ultimate Flexibility
Kinetix Family cameras feature four imaging modes, allowing users to modify different camera specifications, optimize imaging, and avoid compromise.
The 8-bit Speed mode offers 500 fps across the full frame, 12-bit Sensitivity mode offers low 1.2 e- read noise while operating at ~90 fps, 16-bit Dynamic range has large full well capacity for varied signal levels in the sample, and 16-bit Sub-Electron mode offers EMCCD-like sensitivity with 0.7 e- read noise.
Extreme Speed
Taking advantage of an 8-bit readout mode, the Kinetix Family deliver a tremendous 498 fps from across the full 29.4 mm diagonal field of view.
The optimized line time allows the speed to significantly outperform typical sCMOS devices, with the Kinetix delivering >5000 megapixels/second – over a 10-fold improvement.
High Sensitivity
The Kinetix Family are back-illuminated sCMOS cameras, achieving near-perfect 95% QE at peak. By bringing the light in from the back of the sensor, photons land directly onto the light receiving surface, maximizing light collecting capability.
By combining near-perfect QE with sub-electron read noise (0.7 e-), Kinetix cameras deliver high-contrast images even at the lowest signal levels.
High Resolution
The Kinetix Family features 6.5 µm x 6.5 µm pixels, the accepted standard for most live cell applications using 40x and 60x magnification.
This pixel size provides highly detailed images across the imaging plane and is most suitable for the broadest range of microscope objectives.
Superior Background Quality
Thanks to Pattern Noise Reduction Technology and Correlated Noise Reduction Technology, Kinetix cameras deliver clean, pattern-free images with minimal pixel defects, delivering improved image quality in low light conditions.
A) Current, standard, split sensor scientific CMOS camera and B) the GPixel GSENSE2020BSI sensor used in the Photometrics Prime BSI. Image taken using the 4x4 intensity gradient pattern on an Argolight slide.
Family Specifications
Sensor Technology | sCMOS |
---|---|
Quantum Efficiency | 96% |
Pixel Size | 6.5 µm x 6.5 µm |
Supported Interfaces | PCIe and USB 3.2 |
Spectrum Capabilities | UV (200-400 nm), Visible (400-700 nm), Near Infrared (700-1000 nm) |
Read Noise (median) | 0.7 e- |
Model Finder
Product | FOV (Diag. mm) | MP | FPS | Pixel Size (μm) | QE | Read Noise | Sensor | Price | Compare | Options |
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Kinetix
01-KINETIX-M-C
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20.8 x 20.8 mm | 10.2 | 500 fps | 6.5 µm | 96% | 0.7 e⁻ | Teledyne Photometrics Kinetix Sensor | In Production Request Info | ||
Kinetix22
01-KINETIX-22MM-M-C
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15.6 x 15.6 mm | 5.7 | 500 fps | 6.5 µm | 96% | 0.7 e⁻ | Teledyne Photometrics Kinetix Sensor | In Production Request Info |
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Media gallery
Resources & Support
Below are assets shared by all models of this product family.
For model-specific assets, select an option in the Model Finder above.
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PVCAM Software 3.10.1.1
PVCAM 3.10.0.3 (Linux)
3rd Party: Dotphoton Jetraw Raw Image Data Compression Tool
3rd Party: MathWorks MATLAB Image Acquisition Toolbox
3rd Party: Micro-Manager Open Source Microscopy Software
3rd Party: National Instruments LabVIEW System Design Software
3rd Party: Nikon NIS-Elements Software
3rd Party: Norpix Streampix
3rd Party: Open CV
3rd Party: Python