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Look at the Big Picture The Iris 15 Scientific CMOS camera is designed with a large field of view for live cell microscopy applications. Its 15 megapixel sensor and 25 millimeter field of view provides extremely high-resolution images over a large imaging area. It is the only camera that provides high resolution with video rate ...
  • Sensor Type: sCMOS
  • # Pixels (Width): 5056 
  • # Pixels (Height): 2968 
  • Pixel Size (Square): 4.25 um
  • Peak Quantum Efficiency: 73 %
  • ...
Data Sheet
High Resolution BSI Scientific CMOSThe Prime BSI Scientific CMOS camera delivers the perfect balance between high resolution imaging and sensitivity with an optimized pixel design and near perfect 95% Quantum Efficiency to maximize signal detection.A 4 Megapixel camera with 6.5μm pixels, it captures highly ...
  • Sensor Type: sCMOS
  • # Pixels (Width): 2048 
  • # Pixels (Height): 2048 
  • Pixel Size (Square): 6.5 um
  • Peak Quantum Efficiency: >95% %
  • ...
Data Sheet
The CL600x2 M/C camera is equipped with a 1.3 megapixel large LUPA1300 sensor from On-Semi. The camera is suitable for fast measuring tasks in 2D or 3D. The camera offers many winning features which enable the camera to be used flexibly on different measuring tasks. One special feature is the increased image rate in the X and Y ...
  • Sensor Type: CMOS
  • # Pixels (Width): 1280 
  • # Pixels (Height): 1024 
  • Pixel Size (Square): 196 um
  • Peak Quantum Efficiency: - %
  • ...
Data Sheet
The SynapsePlus FIUV scientific CCD camera is the ideal camera for a variety of spectroscopy applications. Available in a 2048 x 512 chip array format with peak quantum efficiency of 48%, the SynapsePlus FIUV is capable of rapid acquisition speeds, greater than 2200 spectra/s.
  • Sensor Type: CCD
  • # Pixels (Width): 2048 
  • # Pixels (Height): 512 
  • Pixel Size (Square): 13.5 um
  • Peak Quantum Efficiency: 48 %
  • ...
Data Sheet
The SynapsePlus OE scientific CCD camera is the ideal camera for a variety of spectroscopy applications. Available in a 1024 x 256 chip array format with peak quantum efficiency of 56%, the SynapsePlus OE is capable of rapid acquisition speeds, greater than 2200 spectra/s.
  • Sensor Type: CCD
  • # Pixels (Width): 1024 
  • # Pixels (Height): 256 
  • Pixel Size (Square): 26 um
  • Peak Quantum Efficiency: 59 %
  • ...
Data Sheet
HORIBA Scientific’s Synapse Extended InGaAs arrays are the ideal choice for demanding, low-light-level measurements in the near infrared (NIR) spectral region from 1000–2200 nm. Available in 512 × 1 (25 × 250 µm), 512 × 1 (50 × 250 µm), and 1024 × 1 (25 × 250 µm) pixel formats, these InGaAs detectors provide high resolution while ...
  • Sensor Type: InGaAs Array
  • # Pixels (Width): 25 
  • # Pixels (Height): 250 
  • Pixel Size (Square): 512 um
  • Peak Quantum Efficiency: 89 %
  • ...
Data Sheet
HORIBA Scientific’s Synapse InGaAs arrays are the ideal choice for demanding, low-light-level measurements in the near infrared (NIR) spectral region from 800–1700 nm. Available in 512 × 1 (25 × 500 µm), 512 × 1 (50 × 500 µm), and 1024 × 1 (25 × 500 µm) pixel formats, these InGaAs detectors provide high resolution while maintaining ...
  • Sensor Type: InGaAs Array
  • # Pixels (Width): 25 
  • # Pixels (Height): 500 
  • Pixel Size (Square): 512 um
  • Peak Quantum Efficiency: 85 %
  • ...
Data Sheet
Eagle
Raptor Photonics
Introducing one of the most sensitive CCD camera platforms in the World. Using a choice of back-illuminated CCD sensor from e2v (CCD42-40 and CCD47-10), and putting into Raptor’s proprietary PentaVac vacuum enclosure and cooling it to -90°C, the Eagle V is the perfect camera for long exposures. Offering low read noise of <2.3e- ...
  • Sensor Type: CCD
  • # Pixels (Width): 2048 
  • # Pixels (Height): 2048 
  • Pixel Size (Square): 13.5 um
  • Peak Quantum Efficiency: 90 %
  • ...
Data Sheet
Designed for Electrophysiology The Retiga ELECTRO is a cooled 1.4MP camera that was specifically designed for the unique challenges of electrophysiology. The camera’s zero vibration and advanced technical features enable the electrophysiologist careful electrode placement, without exogenous noise that pollute recordings. Inside the ...
  • Sensor Type: CCD
  • # Pixels (Width): 1360 
  • # Pixels (Height): 1024 
  • Pixel Size (Square): 6.45 um
  • Peak Quantum Efficiency: 75 %
  • ...
Data Sheet
The solution for bioluminescence and routine fluorescence imaging Scientific cameras are the cornerstone of the highest performing imaging instruments in a lab. Through careful selection of image sensors and components, the LUMO will redefine your expectations for bioluminescence imaging, as well as more routine fluorescence ...
  • Sensor Type: CCD
  • # Pixels (Width): 2688 
  • # Pixels (Height): 2200 
  • Pixel Size (Square): 4.54 um
  • Peak Quantum Efficiency: 75 %
  • ...
Data Sheet
The Retiga R1 CCD camera has the technical features you need in a scientific camera to improve limits of detection and quantification. More importantly, the camera becomes an intuitive extension of your imaging system, smoothly delivering data from the super speed USB3.0 interface to your computer. Inside the R1 camera, ...
  • Sensor Type: CCD
  • # Pixels (Width): 1360 
  • # Pixels (Height): 1024 
  • Pixel Size (Square): 6.45 um
  • Peak Quantum Efficiency: 75 %
  • ...
Data Sheet
WiDy SWIR 640U-S
Pembroke Instruments, LLC
The WiDy SWIR 640U-S camera is a Near InfraRed camera (900-1700nm) especially designed for users in the industry, laser and process control domains whom are looking for Wide Dynamic Range, VGA resolution, reliable and ease of use solution in NIR imaging. WiDy SWIR 640U-S camera makes use of NSC1201-SI sensor, delivers video signal in ...
  • Sensor Type: InGaAs Array
  • # Pixels (Width): 640 
  • # Pixels (Height): 512 
  • Pixel Size (Square): 15 um
  • Peak Quantum Efficiency: 80 %
  • ...
Data Sheet
95% QE Backside Illuminated sCMOS - Now available with award-winning computational intelligence Life science imaging has inherently low light levels which are further reduced by difficult microscopy techniques leveraging confocal techniques, single molecule excitation or high magnification. Higher excitation intensity or ...
  • Sensor Type: sCMOS
  • # Pixels (Width): 1200 
  • # Pixels (Height): 1200 
  • Pixel Size (Square): 11 um
  • Peak Quantum Efficiency: 95 %
  • ...
Data Sheet
2048 . 70 back-illuminated sensor  UV-Vis quantum efficiency enhancement  Deep thermoelectric cooling  Improved etaloning   16-bit digitization  Lifetime vacuum warranty   
  • Sensor Type: CCD
  • # Pixels (Width): 2048 
  • # Pixels (Height): 70 
  • Pixel Size (Square): 14 um
  • Peak Quantum Efficiency: 78 %
  • ...
Data Sheet
The Synapse-i scientific CCD camera is the most sensitive quantitative low light imaging camera on the market. The Synapse-i imaging camera provides real image quantification for direct correlation between the image intensity and the detected number of photons. Thanks to its unique quick-change mounting flange, ...
  • Sensor Type: CCD
  • # Pixels (Width): 1024 
  • # Pixels (Height): 1024 
  • Pixel Size (Square): 13 um
  • Peak Quantum Efficiency: - %
  • ...
Data Sheet
The Synapse-i scientific CCD camera is the most sensitive quantitative low light imaging camera on the market. The Synapse-i imaging camera provides real image quantification for direct correlation between the image intensity and the detected number of photons. Thanks to its unique quick-change mounting flange, ...
  • Sensor Type: CCD
  • # Pixels (Width): 512 
  • # Pixels (Height): 512 
  • Pixel Size (Square): 24 um
  • Peak Quantum Efficiency: - %
  • ...
Data Sheet
Open Electrode technology allows an increased response in the UV over standard front-illuminated CCDs. in the near IR, this detector is a lower-cost alternative to the deep-depletion CCDs with no etaloning beacause of its front-illuminated design and similar signal-to-noise performance.
  • Sensor Type: CCD
  • # Pixels (Width): 1024 
  • # Pixels (Height): 256 
  • Pixel Size (Square): 26 um
  • Peak Quantum Efficiency: 58 %
  • ...
Data Sheet
· 1024 x 256 Front Illuminated Open Electrode sensor · Deep Thermoelectric cooling · UV transmission with Fused Silica window · 16 bit Digitization · > 58% Quantum Efficiency · > Lifetime Vacuum Warranty
  • Sensor Type: CCD
  • # Pixels (Width): 1024 
  • # Pixels (Height): 256 
  • Pixel Size (Square): 26 um
  • Peak Quantum Efficiency: 58 %
  • ...
Data Sheet
· 4.2MP Scientific CMOS sensor. · 5.5μm x 5.5μm. · On-board Non Uniformity Correction (NUC) · TE cooling Optimizes dark current · Quantum Efficiency: >63% @ 500nm and >34% @ 850nm · Ultra compact and rugged 
  • Sensor Type: sCMOS
  • # Pixels (Width): 2048 
  • # Pixels (Height): 2048 
  • Pixel Size (Square): 5.5 um
  • Peak Quantum Efficiency: 63 %
  • ...
Data Sheet
1600 × 200 or 1600 × 400 EMCCD sensor  16 × 16 μm pixel size for high spectral resolution  25.6 × 3.2 mm or 25.6 × 6.4 mm image area  Ideal for high-speed or multi-track spectroscopy  Back- and front-illuminated  BIQX Technology with enhanced QE below 450 ...
  • Sensor Type: EMCCD
  • # Pixels (Width): 1600 
  • # Pixels (Height): 400 
  • Pixel Size (Square): 16 um
  • Peak Quantum Efficiency: 98 %
  • ...
Data Sheet

Did You know?

Cameras are well-known optical instruments that have endless applications in recording and capturing images, such as in imaging and spectroscopy. These cameras are high-grade devices used in demanding industrial and scientific applications. Imaging cameras offer an extremely sensitive, high-resolution technology to a range of scientific fields. Imaging and Spectroscopy cameras find use in the biomedical field through hyperspectral imaging and Raman spectroscopy, in astronomy for satellite and asteroid tracking, and even find employment in vision-guided robotics.