| Content | SEE7810 adopts an innovated UltraPix? technology which can achieve the function of multispectral snapshot image and reconfigurable multispectral. SEE7810 integrates Sensor/ MCU/Al algorithm/PC Software. It has a great potential demand in the field of consuming electronics, machine vision, digital agriculture, intelligent medical, intel- ligent environment. Features ? Small micro size, easy integration.
? Real-time imaging, efficient and informative.
? Flexibly customized spectral channel number and spatial resolution. | 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. | OCI?-2000 VIS-NIR hyperspectral imagers and imaging cameras are extremely compact, light, and rugged, covering visible - near-infrared (VIS - NIR) spectral range from 470 - 1000 nm. Unlike conventional hyperspectral imagers which rely on intensive software effort on hyperspectral images cube construction, the innovative design of the OCI?-2000 hyperspectral imaging cameras feature point-and-shoot operation and ultrafast data transfer rates, with automatic data capturing and processing. The elegant completely integrated design and manufacturing in our quality certified production facility with master quality control to deliver high precision, superb signal-to-noise, excellent spectral & spatial resolution, and outstanding imaging quality. With the free packed operation software and user-friendly interface, OCI? - 2000 hyperspectral imaging cameras are automatic and minimum human intervention. They are ideally catered to various unnamed aerial vehicles/systems (UAV/UAS) and remotely operated vehicles (ROV). BaySpec also provides ready-to-fly hyperspectral solution. Extreme compactness with uncompromised performance, automatic operation and data processing makes the OCI-UAV a straightforward system for applications such as precision agriculture and remote sensing, geological survey, security/defense, oceanography, and anti-counterfeiting. | Very Compact Multispectral Cameras The TOUCAN Multispectral camera is specially designed to allow high integration of VIS+NIR multispectral systems. This lightweight (less than 180g) and very small footprint (52x63x40mm) camera splits the image into 10 spectral bands on a very large range (400-900nm). Made by hybridization of a custom Bayer-like mosaic filter on a commercial 4.2 MPixel CMOS Sensor, it allows extracting the spectrum on each point of the image. | Say Hello To Specim IQ!
Take your hyperspectral measurements and analysis with you anywhere.
The compact and lightweight hyperspectral camera has all you need to take your hyperspectral analysis anywhere you want ? IP class protection and fully autonomous operation with chargeable batteries and replaceable standard memory cards.
Tailor the camera functionalities with applications matching your analysis requirements. Applications define how the camera is used and how the hyperspectral data is processed, analyzed, saved, and visualized.
Establish a remote connection via USB or WiFi and remotely control your Specim IQ camera from Specim IQ Studio to collect, study and import data. Operate the camera with an easy-to-use graphic user interface, and save the data to the memory card or directly to Specim IQ Studio?s Catalog. Remote usage session supports all Specim IQ camera features except focusing.
Create and tailor applications with Specim IQ Studio software. | XIMEA SNAPSHOT RedNIR
Want to test hyperspectral scanning and analysis in the RedNIR range? With this user-friendly real-time USB 3.0 camera from Ximea, integrating imec?s hyperspectral sensor, you?ll be looking at relevant test data within a few minutes after installation. |
| Description | Spectral Wavelength = 380-980nm
Number of Spectral Channels = 31 Channels
Photoelectric Sensor = Array CMOS
Size = 120*75*40mm
Spatial Frequency Response = 176 LW/PH
Wavelength Accuracy = 5nm
Minimum Output Step = 20nm
Spectral Resolution = 35 nm
Color Coordinates Accuracy (CIE1931x,y) = 0.01~0.04
Luminance Accuracy = ?3%
Effective Focal Length (prime lens) = 1.928 mm
Imaging Distance = 423 mm ~ Inf
FOV = 71(H) Deg/56(V) Deg/83(D) Deg
Interface Form = USB 3.0
Spatial Resolution = 2,000,000 Pixels, 1600*1200
Bundled Software = PC Software
Shell Material = Aluminum
Frame Rate = 30 fps | 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 = 600 - 1000 nm
Spectral Resolution = 12 - 15 FWHM
Number of Spectral Bands = 20 - 25
Frame Rate = 120 frames/sec
Dimension = 3 x 3 x 3 cm3
Weight = 45.3 g | Typical spectral range = 420 - 870 nm
Band width (FWHM avg) = 30 - 50 nm
Number of bands = 10
Array type = CMOS
Optical Interface = CS-mount (C-mount compatible with additional C-ring)
Resolution (raw picture) = 2048 (H) x 2048 (V)
Resolution (spectral pictures) = 512 (H) x 512 (V)
Pixel pitch = 5.5 ?m
Maximum frame rate = 65 Hz (camera acquisition) / 20 Hz (COLOR SHADES Lab)
Exposure time range = 100 ?s to 5 s
ADC = 10-bit
Camera control = USB 3.0
Digital output = 10-bit USB 3.0
Power supply = USB 3.0
Dimension (W x H x L) = 52 x 63 x 40 mm
Weight (camera head) = 180 g | Viewfinder camera = 5 Mpix (rescaled to 1280*960 pixels)
Focus camera = 1.3 Mpix
Spectral camera = by Specim
Sd-card reader = UHS-1 SD (Max. 32 GB SD memory card)
Processor = NVIDIA Tegra K1
Cpu = Kepler Mobile
Memory = 2GBytes DDR3L RAM and 8GB Emmc
Gps module = U-BLOX GPS/GNSS MAX-M8Q-0
Operating voltage = 3.7 V
Battery = 5200mAh Li-Ion battery (Type 26650)
WiFi = IEEE Std 802.11 b / g / n
Buttons = 12+1 physical buttons
Display & keyboard = 4.3? touch screen
Buzzer = Indication sounds for the user
Usb connector = USB Type-C
Size = 207 x 91 x 74 mm (depth with lens 125,5 mm)
Weight = 1.3 kg
Wavelength band = 400 - 1000 nm
F/number at Sensor = F/1.7
F/number at Slit = F/2.2
Magnification (Sensor / slit) = 1/1.3
Keystone = Corrected
Smile = Corrected
Spectral resolution = 7 nm
Slit Length = 11.70 mm
Slit Height = 42 ?m
Sensor type = CMOS
Spatial Sampling = 512 pix
Spectral Bands = 204 (with Bin 2x: 102, Bin 3x: 68)
Image resolution = 512 x 512 pix
Pixel size = 17.58 ?m x 17.58 ?m
Data output = 12 bit
QE peak >45 %
Full-well capacity >32000 e-
Peak SNR >400:1
Object distance = 150 - ? mm
Focal length = 21 mm
F/number at Slit = F/2.2
Full field of view (FOV) = 31 x 31 deg
Full field of view (FOV) at 1 m = 0.55 x 0.55 m
Filter thread = M40.5 x 0,5
IP classification = IP5x
Temperature, operational = +5?C - +40?C
Temperature, storage = -20?C - +50?C
Humidity operational = 95% non-condensing
Shock = STD-810G Method 516.6 Precedure VI
EU directive = Radio Equipment Directive 2014/53/EU.
Certificates = CE, FCC, RoHS | 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 120 hyperspectral cubes/second (limit of USB 3.0 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 = USB 3.0 + GPIO for triggering
power consumption < 1.8 W
camera dimensions (W x H x D) = 26 x 26 x 31 mm
camera weight = 27 g without optics
software = HSI MOSAIC software for raw image acquisition, data pre-processing, hypercube visualization and classification, including API |
