---- PERFORMANCE ---- | ||
SPECTRAL CHANNELS | Continuously tunable | |
SPECTRAL RANGE | 900-1700 nm | 1000-2500 nm |
ENTRANCE SLIT SIZE | No slit / Full field of view measured for each wavelength | |
SPECTRAL WIDTH SAMPLING | ≥ 0.2 nm programmable | |
SPECTRAL RESOLUTION | 4 nm | |
SPECTRAL IMAGE RATE | 15-20 fps | |
PIXEL SIZE | 30 μm | |
DYNAMIC RANGE (DIGITIZATION) | 14 bit | |
SENSOR FRAME RATE | Up to 340 fps | |
CAMERA TYPE | FPA | |
CAMERA ACQUISITION (LINEAR OR MATRIX) | Matrix | |
LENS MOUNT STANDARD | C-Mount (option for CS-mount) | |
COOLING | Yes | |
CAMERA INTERFACE | Camera Link™ | |
FRAME GRABBER NEEDED | Yes | |
EXPOSURE CONTROL | PHySpec™ software controlled | |
DETECTOR TYPE | HgCdTe (MCT) | |
---- SOFTWARE & DATA PROCESSING ---- | ||
OPERATING SYSTEM | Windows 7 (64 bits) | |
ACQUISITION | PHySpec™ software | |
PREPROCESSING | Image stabilization, spatial filtering, statistical tools, spectrum extraction, data normalization, spectral calibration |
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HYPERSPECTRAL DATA FORMAT | HDF5, FITS | |
SINGLE IMAGE DATA FORMAT | HDF5, CSV, PNG, TIFF, JPG | |
SPECTRUM DATA FORMAT | JPG, PNG, TIFF, CSV, PDF, SVG | |
OPTION | C++ SDK plugin interface included | |
---- DIMENSIONS, WEIGHT & POWER ---- | ||
FOOTPRINT | 305 mm x 610 mm x 270 mm | |
WEIGHT | 20 Kg | |
POWER CONSUMPTION | ≤ 25 W (including detector) | |
POWER SUPPLY | 24V | |
---- PORTABILITY ---- | ||
MOUNTING | 305mmx610mm optical breadboard; ¼ imperial threaded | |
TRIPOD | Optional | |
---- ENVIRONMENTAL CONDITION ---- | ||
OPERATING TEMPERATURE | 10 - 40ºC | |
STORAGE TEMPERATURE | 0 - 50ºC | |
---- ACCESSORIES ---- | ||
COMPUTER | Not included | |
REFERENCE PANELS | Reflectance standard and calibration lamp |
Photon etc.'s Global Imaging Technology
This video shows the conceptual difference between hyperspectral global imaging and raster scan (line-scan, push- broom). With global imaging, the gain in acquiring 3D data, 2D spatial and 1D spectral, is important since the only a few monochromatic images are required to cover the complete spectral range where one needs to take the full spectrum for each point or line in the image with other technologies.