The new pco.edge is a breakthrough in scientific imaging cameras, due to its distinctive ability to simultaneously deliver extremely low noise, fast frame rates, wide dynamic range, high quantum efficiency, high resolution and large field of view - all in one image.
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Areas of Application
- live cell microscopy
- single molecule detection
- super resolution microscopy
- TIRF microscopy / waveguides
- spinning disk confocal microscopy
- genome sequencing (2nd and 3rd gen)
- FRET
- FRAP
- lucky astronomy / imaging
- adaptive optics
- solar astronomy
- fluorescence spectroscopy
- bio- & chemi-luminescence
- high content screening
- photovoltaic inspection
- x-ray tomography
- ophtalmology
- flow cytometry
- biochip reading
- machine vision
- TV / broadcasting
- spectral (hyperspectral) imaging
- laser induced breakdown spectroscopy (LIBS)
- particle image velocimetry
| unit | setpoint | pco.edge |
|---|
 |
| resolution (hor x ver) | pixel | | 2560 x 2160 |
| pixel size (hor x ver) | µm² | | 6.5 x 6.5 |
| quantum efficiency | % | @ 590 nm peak | 57 |
| dynamic range A/D | bit | | 16 |
| readout noise | e- rms | @ 30 fps
@ 100 fps | < 1.4
< 2 |
imaging frequency,
frame rate | fps | @ full frame @ ssc mode
@ full frame @ fsc mode | 30
100 |
| exposure time | s | @ rolling shutter
@ global shutter | 500 µs .. 2 s
10 µs .. 100 ms |
| region of interest | | | selectable |
| optical input | | | Nikon F-mount (std), C-mount (opt.) |
| data interface | | | full camera link |
| | | |
Comparison between a scientific CCD (left) and a scientific CMOS (right, pco.edge) camera with identical illumination.
Monochrome Quantum Efficiency curve of the CIS2051
Color Quantum Efficiency curves of the pco.edge
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Supreme Image Quality
Comparison of a scientific CCD image (left) and a scientific CMOS pco.edge image, which were recorded under identical conditions. The vertical stripes in the left image show smear, which is an unwanted characteristic of CCD image sensors.
High Resolution
A widefield microscopy image of small escherichia coli bacteria recorded at a magnification of 1000x. The enlarged area shows the stained flagella and therefore one of the advantages of high resolution.
Courtesy of:
Prof. Dr. R. Wirth, Microbiology, University of Regensburg, Germany
NIR sensitivity
The image shows an extract of an electroluminescence (EL) image of a solar panel, which was recorded with a pco.edge camera supplied with a Zeiss IR lens at an exposure time of 600 ms.
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