Raptor Datasheets
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Fastest Scientific Open Front X-Ray EMCCD Camera: Falcon III XO Datasheet
6/17/2020
The Falcon III XO is the only high energy direct X-Ray camera using a 1MP Frame Transfer EMCCD sensor. The camera offers a combination of speed and sensitivity for soft X-Ray applications up to 20 KeV. It runs at 31.5 fps in full resolution, fasted with ROI and binning, making it the fastest scientific X-ray EMCCD camera on the market.
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In-Vacuum, Digital Monochrome EMCCD X-Ray Camera: Falcon III XV Datasheet
6/17/2020
The Falcon III XV is the latest camera model designed for the in-vacuum X-Ray market and is perfect for imaging very weak X-Ray samples close to UV and VUV, where speed is important. The camera is available with a range of feedthrough options, including trigger, liquid, power and CameraLink.
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High Speed, Digital SWIR Camera: Owl 320 HS Datasheet
6/16/2020
The Owl 320 HS from Raptor Photonics offers the fastest frame rates available in the Owl camera line-up (up to 349 Hz in full frame resolution), perfect for high speed VIS-SWIR applications within the 0.4 µm – 1.7 µm range. It is ideally designed for astronomy, beam profiling, hyperspectral imaging, semiconductor inspection, solar cell inspection, and thermography applications.
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Owl 640 A Datasheet
6/16/2020
The Owl 640 A is a rugged, high sensitivity VIS-SWIR camera model of the Owl 640 series that offers an analog output. Using a 640 x 512 InGaAs sensor from SCD, the Owl 640 A enables high sensitivity imaging from 0.4 µm to 1.7 µm. With less than 50 electrons readout noise and a peak quantum efficiency >90%, the camera enables high detection in the VIS-SWIR spectrum.
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Owl 640 T Datasheet
6/16/2020
The Owl 640 T is the world’s first SWaP optimised ½” / VGA sensor with a 10 µm x 10 µm pixel pitch. The Owl 640 T offers a spectral response from 0.4 µm to 1.7 µm and has less than 50 electrons readout noise, with a high intra-scene dynamic range of 69 dB that enables simultaneous capture of bright and dark portions of a scene. Available with a 12 bit Camera Link output, the Owl 640 T runs from 10 to 60 Hz.
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Owl 640 N Datasheet
6/16/2020
Using a 640 x 512 InGaAs sensor, and the sensor stabilized to 15°C, the Owl 640 N offers a visible response from 0.4 µm to 1.7 µm to enable a high sensitivity. The camera also offers the lowest readout noise on the market with a typical value of 18 electrons. The camera has a high intra-scene dynamic range of typically 73 dB, enabling simultaneous capture of bright and dark portions of a scene.
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Owl 640 M Datasheet
6/16/2020
The Owl 640 M model offers a low compact, low power and cost-effective solution to the Owl 640 series. The camera is a TEC-less version of the successful Owl 640, meaning it offers the lowest power consumption of any Owl 640 variant (<2.5 W). This SWaP (Size, weight and power) design is perfect for integration into small OEM and machine vision scientific platforms.
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Owl 640 II Datasheet
6/16/2020
The Owl 640 II is the next generation of the Owl 640. The rugged, high sensitivity digital VIS-SWIR camera is even more compact and lightweight than before. Using a 640 x 512 InGaAs sensor from SCD, the camera enables high sensitivity imaging from 0.4 µm to 1.7 µm. With less than 50 electrons readout noise (rms), the Owl 640 II enables a high VIS-SWIR detection limit.
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VGA Resolution, Ultra Low Noise, Cooled, Digital InGaAs Camera: Ninox 640 II Datasheet
6/16/2020
The Ninox 640 II as the next generation of the Ninox 640, a cooled, high sensitivity digital SWIR camera. With an ultra low typical readout noise (rms) of 18 electrons and a typical dark current reading of <750e- at -15°C, the Ninox 640 II improves even further on its noise performance. With dimensions of 87.30 mm x 78.86 mm x 79.30 mm and weighing 550 g, it is one of the most compact and lightweight scientific SWIR cameras available on the market.
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High Resolution, Low Noise, Cooled, Digital VIS-SWIR InGaAs Camera: Ninox 1280 Datasheet
6/9/2020
The Ninox 1280 offers visible extension from 0.4 µm to 1.7 µm to enable high sensitivity scientific imaging using a 1280 x 1024 InGaAs sensor. With cooling to -15 °C, the camera achieves typical dark current readings of <2,000e/p/s at this temperature, allowing for longer exposure times. The 10 µm x 10 µm pixel pitch enables the highest resolution imaging. The camera will offer ultra-high intra-scene dynamic range of 69 dB enabling simultaneous capture of bright and dark portions of a scene.