imec SNAPSHOT SWIR 9 bands
Want to test hyperspectral scanning and analysis in the short-wave infrared range? With this user-friendly real-time USB 3.0 camera, you?ll be looking at relevant test data within minutes after the installation.
Make artifact-free cubes of moving objects thanks to video-rate acquisition.
Enjoy an easy set-up of a system that includes imager, camera and software.
Discover the broad potential of the SWIR bands to see invisible features.
imec SNAPSHOT SWIR 9 bands
SWIR Compare
imec SNAPSHOT SWIR 9 bands
spatial resolution = VGA (640 x 512 px)
spectral resolution = 9 bands
spectral range = 1100-1650 nm
imager type = InGaAs-based, Cardinal 640 sensor with TEC cooler electronic
acquisition speed = Up to 120 hyperspectral cubes/second (limit of USB 3.0 interface)
pixel pitch = 15 ?m pixels
bit depth = 13 bits
optics = 16/25/35/50 mm lenses, C-mount
camera interface = USB 3.0 + GPIO for triggering (TTL)
software = HSI Mosaic software for raw image acquisition, data pre-processing, hypercube visualization and classification; C and Python API for acquisition and data pre-processing in custom software
power consumption = 2 Watts at 60 FPS
camera dimensions (W x H x D) = 65 x 65 x 130 cm
camera weight = 260 g without lens
rejection filter = yes
included accessories = USB 3.0 and power + trigger cables
cooling = passive & active cooling (fan-based +TEC)
ambient temperature = -5?C to 50?C (operation), -20?C to 60?C (storage)
mechanical = integrated mechanical shutter for automatic dark-counts, tripod mount (1/4″ – 20) + side-mounting M5 holes
One response to “imec SNAPSHOT SWIR 9 bands”
Leave a Reply
Quick Comparison
| imec SNAPSHOT SWIR 9 bands remove | Hyspex SWIR-640 remove | HySpex VS-1200 remove | Resonon Pika IR-L remove | Resonon Pika IR-L+ remove | Resonon Pika IR remove | |
|---|---|---|---|---|---|---|
| Name | imec SNAPSHOT SWIR 9 bands remove | Hyspex SWIR-640 remove | HySpex VS-1200 remove | Resonon Pika IR-L remove | Resonon Pika IR-L+ remove | Resonon Pika IR remove |
| Image |  |  |  |  |  |  |
| Rating | ||||||
| Content | imec SNAPSHOT SWIR 9 bands Want to test hyperspectral scanning and analysis in the short-wave infrared range? With this user-friendly real-time USB 3.0 camera, you?ll be looking at relevant test data within minutes after the installation. Make artifact-free cubes of moving objects thanks to video-rate acquisition. Enjoy an easy set-up of a system that includes imager, camera and software. Discover the broad potential of the SWIR bands to see invisible features. | HySpex SWIR-640 The HySpex SWIR-640 hyperspectral camera is developed for field, laboratory, and airborne applications. HySpex SWIR-640 offers high spatial resolution by using a unique MCT sensor. The FPA is cooled to 150K using a sterling cooler, yielding low background noise, high dynamic range, and exceptional SNR levels. The camera offers an aberration-corrected optical system with high optical throughput (f/2.0), the data quality, sensitivity, and resolution is truly state of the art. A wide range of close-up lenses allows the use of the camera at working distances ranging from a few centimeters, with a spatial resolution of 32 ?m, to infinity for e.g. airborne remote sensing. | HySpex VS-1200 The HySpex VS-1200 hyperspectral camera is developed for airborne applications requiring extreme resolution in both VNIR and SWIR spectral regions. The HySpex VS-1200 is a novel high-resolution instrument designed for airborne applications at altitudes greater than 400m. The camera produces the highest scientific grade level data, commercially available, having FWHM less than 1.2 pixels spatially and less than 1.5 pixels spectrally. The combined VNIR-SWIR cube has coregistration errors, and smile and keystone of less than 10% of a pixel. With 40 degrees FOV, the camera is ideal for mapping large areas with high accuracy and resolution. The camera is delivered with an integrated high-performance IMU/GPS and data acquisition unit with removable storage bays as a standard. Existing navigation systems can also be integrated/utilized. A standard passive damping solution is included as a part of the default delivery package, but mounting plates for active damping solutions, such as GSM4000 or PAV80 can be supplied. | Pika IR-L 925 - 1700 nm Lightweight Infrared The Pika IR-L is a lightweight and compact Near-Infrared (925-1,700 nm) imager. The small size and mass make it well suited for airborne applications, where it can provide invisible to the naked-eye contrast of outdoor features. For a compact, lightweight Visible light spectral range option, please see the Pika L. For a higher spectral and spatial resolution version of the Pika IR-L, please see the Pika IR-L+ imager. | Pika IR-L+ 925 - 1700 nm Lightweight, High-Precision Infrared The Pika IR-L+ imager is a high spatial and spectral resolution Near-Infrared (925-1,700 nm) imager in a lightweight, compact format. It is well suited for field research, yet compatible with all imaging platforms (airborne, benchtop, or outdoor). For a compact, lightweight Visible light spectral range option, please see the Pika L. For higher imaging speeds, please see the Pika IR-L. | Pika IR 900 - 1700 nm High-Speed Infrared The Pika IR (formerly Pika NIR-320) is a high-speed, cost-effective hyperspectral camera that covers the Near-Infrared (NIR) spectral range. It is our most popular imager for machine vision applications. The Pika IR can be used in our airborne, laboratory, and outdoor hyperspectral systems, as well as standalone or integrated into your system. |
| Description | spatial resolution = VGA (640 x 512 px) spectral resolution = 9 bands spectral range = 1100-1650 nm imager type = InGaAs-based, Cardinal 640 sensor with TEC cooler electronic acquisition speed = Up to 120 hyperspectral cubes/second (limit of USB 3.0 interface) pixel pitch = 15 ?m pixels bit depth = 13 bits optics = 16/25/35/50 mm lenses, C-mount camera interface = USB 3.0 + GPIO for triggering (TTL) software = HSI Mosaic software for raw image acquisition, data pre-processing, hypercube visualization and classification; C and Python API for acquisition and data pre-processing in custom software power consumption = 2 Watts at 60 FPS camera dimensions (W x H x D) = 65 x 65 x 130 cm camera weight = 260 g without lens rejection filter = yes included accessories = USB 3.0 and power + trigger cables cooling = passive & active cooling (fan-based +TEC) ambient temperature = -5?C to 50?C (operation), -20?C to 60?C (storage) mechanical = integrated mechanical shutter for automatic dark-counts, tripod mount (1/4" - 20) + side-mounting M5 holes | Spectral range = 960 - 2500 nm Spatial pixels = 640 Spectral channels = 360 Spectral sampling = 4.38 nm FOV* = 16? Pixel FOV across/along* = 0.44/0.44 mrad Bit resolution = 16 bit Noise floor = 80 e- Dynamic range = 7500 Peak SNR (at full resolution) > 800 Max speed (at full resolution) = 235 fps Power consumption = 10 W Dimensions (l-w-h) = 36 - 11- 15 cm Weight = 4.1 kg Camera Interface = CameraLink *Can be doubled with FOV expander | Spectral Range (nm) = 925 - 1700 Spectral Channels = 236 Spectral Bandwidth (nm) = 3.3 Spectral Resolution - FWHM (nm) = 5.9 Spatial Pixels = 320 Max Frame Rate (fps) = 364 f/# = 1.8 Interface = GigE Dimensions (mm) = 210 x 68 x 63 Weight, w/o lens (kg) = 1.01 | Spectral Range (nm) = 925 - 1700 Spectral Channels = 470 Spectral Bandwidth (nm) = 1.7 Spectral Resolution - FWHM (nm) = 3.8 Spatial Pixels = 640 Max Frame Rate (fps) = 176 f/# = 1.8 Interface = GigE Dimensions (mm) = 210 x 68 x 63 Weight, w/o lens (kg) = 1.01 | Spectral Range (nm) = 900 - 1700 Spectral Channels = 168 Spectral Bandwidth (nm) = 4.8 Spectral Resolution - FWHM (nm) = 8.8 Spatial Pixels = 320 Max Frame Rate (fps) = 508 f/# = 1.8 Interface = GigE Dimensions (mm) = 264 x 115 x 88 Weight, w/o lens (kg) = 2.95 |
I really like gathering utile info, this post has got me even more info! .