Photonfocus SNAPSHOT RedNIR
Want to test hyperspectral scanning and analysis in the RedNIR range? With this user-friendly real-time GigE camera from Photonfocus, integrating imec?s hyperspectral sensor, you?ll be looking at relevant test data within a few minutes of the installation.
Photonfocus SNAPSHOT RedNIR
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Photonfocus SNAPSHOT RedNIR
spectral range = 600-870 nm
spectral resolution = 15 bands
spatial resolution = 2040 x 1080
imager type = CMOS imager, CMOSIS CMV2000-based
acquisition speed = Up to 42 hyperspectral cubes/second (limit of GigE vision interface)
pixel pitch = 5.5 ?m pixels, 2/3?? sensor optical format
bit depth = 10 bits
optics = 16/25/35/50 mm lenses, C-mount
camera interface = GigE vision + GPIO for triggering
power consumption <5.1 W
camera dimensions (W x H x D) = 55 x 55 x 52 mm
camera weight = 265 g without optics
software = HSI MOSAIC software for raw image acquisition, data pre-processing, hypercube visualization and classification, including API
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| Photonfocus SNAPSHOT RedNIR remove | HySpex Baldur S-640i N remove | Resonon Pika IR+ remove | Specim Fenix remove | Specim SWIR remove | HySpex Mjolnir S-620 remove | |
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| Name | Photonfocus SNAPSHOT RedNIR remove | HySpex Baldur S-640i N remove | Resonon Pika IR+ remove | Specim Fenix remove | Specim SWIR remove | HySpex Mjolnir S-620 remove |
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| Content | Photonfocus SNAPSHOT RedNIR Want to test hyperspectral scanning and analysis in the RedNIR range? With this user-friendly real-time GigE camera from Photonfocus, integrating imec?s hyperspectral sensor, you?ll be looking at relevant test data within a few minutes of the installation. | HySpex Baldur S-640i N Baldur S-640i N covers the spectral range from 950-1730nm. All Baldur cameras are Nyquist cameras giving a spectral resolution of 2 spectral bands while capturing 4 times as much light as the classic systems. To ensure that the most information per framerate is provided, the spectral resolution is kept very close to 2 bands. Additionally, the spatial resolution of Baldur S-640i N is better than 1.5 pixels, yielding a very sharp camera. | Pika IR+ 900 - 1700 nm High-Precision Infrared The Pika IR+ (formerly Pika NIR-640) is a high-performance hyperspectral camera that covers the Near-Infrared (NIR) spectral range. It has high spatial and spectral resolutions and is often used for infrared laboratory applications. The Pika IR+ can be used in our airborne, laboratory, and outdoor hyperspectral systems, as well as standalone or integrated into your system. | Fenix FENIX is optimized for the most demanding geological, law enforcement, and environmental applications. In a single continuous image, FENIX spectral camera delivers the best hyperspectral data ever seen over VNIR, NIR, and SWIR wavelengths. FENIX offers extreme ruggedness and 75% reduction in size and weight compared to previous multi-sensor systems. The excellence in technical performance and physical size has been achieved through innovative and unique ?single optics dual spectrograph? design. | SWIR SWIR is a high-speed short-wave infrared hyperspectral camera that operates in the 1000-2500 nm range. It has 384 spatial pixels and achieves image rates of up to 400 frames per second using a CameraLink connection. To assure indoor/outdoor usage in varying conditions, it now has rugged weather-proof IP54 casing and temperature-stabilized optics but still uses less power than before, only 50W nominal. Its temperature-stabilized optics provide stability and sensitivity required in the most challenging near-infrared chemical imaging applications, from pharmaceutical quality assurance to food and agriculture analysis. The SWIR camera meets the highest requirements in the lab, industry, and field. | HySpex Mjolnir S-620 The HySpex Mjolnir S-620 hyperspectral imaging system for UAVs is the SWIR version of the Mjolnir camera series. Similar to the VNIR version, it provides a unique combination of small form factor and low mass, combined with high-performance specifications and scientific grade data quality. With a weight of less than 4.5 kg and less than 50 W power consumption, HySpex Mjolnir S-620 is very well suited for a wide range of UAVs. NEO offers high-performance unmanned aerial vehicles, fully integrated with the HySpex Mjolnir S-620. The UAV is fitted with a standard battery package allowing up to 30 minutes of flight time. All HySpex Mjolnir systems can also be mounted on a tripod and rotation stage for ground use. |
| Description | spectral range = 600-870 nm spectral resolution = 15 bands spatial resolution = 2040 x 1080 imager type = CMOS imager, CMOSIS CMV2000-based acquisition speed = Up to 42 hyperspectral cubes/second (limit of GigE vision interface) pixel pitch = 5.5 ?m pixels, 2/3?? sensor optical format bit depth = 10 bits optics = 16/25/35/50 mm lenses, C-mount camera interface = GigE vision + GPIO for triggering power consumption <5.1 W camera dimensions (W x H x D) = 55 x 55 x 52 mm camera weight = 265 g without optics software = HSI MOSAIC software for raw image acquisition, data pre-processing, hypercube visualization and classification, including API | Spectral Range = 950 - 1730 nm Spectral bands = 232 Max speed* = 500 fps Spectral sampling = 3.36 nm Spectral FWHM <2 bands Spatial FWHM <1.5 pixels Spatial pixels = 640 Keystone <20% of a pixel Smile <20% of band FOV = 16? / 40? Bit resolution = 12 bit Noise floor = HG:8.5/MG:32/LG:270 e- Peak SNR = HG:150/MG:275/LG:800 Dynamic range = HG:2650/MG:2360/LG:2360 ROI* = All bands can be selected/deselected individually External trigger options = LVDS, 5V/12V/24V TTL Dimensions (l-w-h) = 364 - 105 - 153 mm Camera Interface = GigE * Reducing the number of spectral channels with ROI will proportionally increase the max framerate | Spectral Range (nm) = 900 - 1700 Spectral Channels = 336 Spectral Bandwidth (nm) = 2.4 Spectral Resolution - FWHM (nm) = 5.6 Spatial Pixels = 640 Max Frame Rate (fps) = 240 f/# = 1.8 Interface = GigE Dimensions (mm) = 264 x 115 x 88 Weight, w/o lens (kg) = 2.95 | Spectral range = 1000 - 2500 nm Spectral resolution (FWHM) = 12 nm (30 ?m slit) Spectral sampling / pixel = 5.6 nm F/# = F/2.0 Slit width = 30 ?m (50 or 80 ?m optional) Effective slit length = 9.2 mmRICAL CHARACTERISTICS Sensor = Cryogenically cooled MCT detector Spatial pixels = 384 Spectral bands = 288 Pixel size = 24 x 24 ?m Detector cooling = Stirling, 25 000 h MTTF Signal-to-noise ratio = 1050:1 (at max. signal level) Camera output = 16 bit CameraLink Data cable Length = 5m Camera control = USB/RS232 Frame grabber = NI-1433 Epix grabber = E4* Frame rate = 450 fps (maximum full frame) Exposure time range = 0.1 - 20 ms Power consumption = Nominal < 50 W Input voltage = 18 - 36 VNICAL CHARACTERISTICS Size (L x W x H) = Sensor 545 x 176 x 178 mm, PSU & control unit 300 x 190 x 130 mm Weight = 14 kg & approx. 5 kg Body = Anodized aluminium with mounting screwholes Lens mount = Standard C-mount Shutter = Electro-mechanicalONMENTAL CHARACTERISTICS Storage = -20... +50 ?C Operating = +5... +40 ?C non-condensing | Spectral range = 970 - 2500 nm Spatial pixels = 620 Spectral channels and sampling = 300 bands @ 5.1 nm F-number = F1.9 FOV = 20? Pixel FOV across/along = 0.54/0.54 mrad Bit resolution = 16 bit Noise floor = 80 e- Dynamic range = 10000 Peak SNR (at full resolution) > 900 Max speed (at full resolution) = 170 fps Power consumption* = 50 W Dimensions (l-w-h)* = 254 - 175 - 170 mm Weight* < 4.5 kg *Includes IMU/GPS and DAU - <5 kg including standard battery |
I have realized that in cameras, extraordinary receptors help to focus automatically. The sensors associated with some digital cameras change in contrast, while others employ a beam with infra-red (IR) light, especially in low light. Higher specification cameras from time to time use a combination of both systems and likely have Face Priority AF where the video camera can ‘See’ a face while focusing only on that. Many thanks for sharing your ideas on this blog site.
I’m curious to find out what blog platform you happen to be working with? I’m having some small security problems with my latest blog and I’d like to find something more secure. Do you have any solutions?