Cubert ULTRIS X20 PLUS

Spectral Range = 350 – 1000 nm
Number of Bands = 164
FWHM = Constant 10 nm
Max Resolution = 1886 x 1886 pixel
Weight = 630 g
Dimensions = 86 x 121 x 105 mm
Technology = Light Field
Sensor(s) = 20 MP & 5 MP
Spectral Sampling = 4 nm
Wavelength Error < 4 nm Total Spectra / Image = 168 100 & 3.5 M pansharpened Total Data Points (Data Points / Cube) = 27 million Data Depths = 12 Bit Readout = Global shutter Max Frame Rate = 4 Hz Integration Time = 0.1-1000 ms Field of View (FOV) = 35? Power Consumption = 8 W

SKU: Cubert ULTRIS X20 PLUS Category: UV-VNIR Tag: Mounted

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Dual-Sensor Hyperspectral Camera designed for UAVs
The ULTRIS X20 Plus is the dual-sensor version of our X20, designed for aerial mapping from a UAV. A second camera takes panchromatic images in parallel to the spectral camera. It provides a resolution of 1886 x 1886 pixels, giving incredibly detailed images. The extra data allows us to use pansharpening to enhance the images even further and increase the spatial resolution of the spectral data. When it comes to stitching the single data files after the UAV flight, the additional data increases the spatial accuracy of the generated mosaic. Even though the ULTRIS X20 Plus integrates two sensors, it is still lightweight (630 g), so together with a gimbal, a mini computer and GPS the payload is still less than 2 kg, making it suitable for a wide range of drones, especially for the powerhouse DJI Matrice M300 RTK.

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	Cubert ULTRIS X20 PLUS remove	HySpex Mjolnir V-1240 remove	HySpex Baldur V-1024 N remove	Resonon Pika IR remove	Resonon Pika XC2 remove	HySpex VS-1200 remove
Name	Cubert ULTRIS X20 PLUS remove	HySpex Mjolnir V-1240 remove	HySpex Baldur V-1024 N remove	Resonon Pika IR remove	Resonon Pika XC2 remove	HySpex VS-1200 remove
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Content	Dual-Sensor Hyperspectral Camera designed for UAVs The ULTRIS X20 Plus is the dual-sensor version of our X20, designed for aerial mapping from a UAV. A second camera takes panchromatic images in parallel to the spectral camera. It provides a resolution of 1886 x 1886 pixels, giving incredibly detailed images. The extra data allows us to use pansharpening to enhance the images even further and increase the spatial resolution of the spectral data. When it comes to stitching the single data files after the UAV flight, the additional data increases the spatial accuracy of the generated mosaic. Even though the ULTRIS X20 Plus integrates two sensors, it is still lightweight (630 g), so together with a gimbal, a mini computer and GPS the payload is still less than 2 kg, making it suitable for a wide range of drones, especially for the powerhouse DJI Matrice M300 RTK.	HySpex Mjolnir V-1240 The HySpex Mjolnir V-1240 hyperspectral imaging system for UAVs 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 kg and less than 50 W power consumption, HySpex Mjolnir V-1240 is very well suited for a wide range of UAVs. The system is also compatible with several off-the-shelf gimbals. NEO offers high-performance unmanned aerial vehicles, fully integrated with the HySpex Mjolnir V-1240. 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.	HySpex Baldur V-1024 N Baldur V-1024 N covers the full VNIR spectral range from 400-1000nm and is configurable within one octave in the same range. 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 V-1024 N is better than 1.7 pixels, yielding a very sharp camera.	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.	Pika XC2 400 - 1000 nm High-Precision VNIR The Pika XC2 is a high-resolution hyperspectral camera that covers the Visible + Near-Infrared (VNIR) spectral range. The Pika XC2 has high spatial resolution, best in-class spectral resolution, and excellent imaging quality. Popular in VNIR laboratory applications. The Pika XC2 can be used in our laboratory, and outdoor, and airborne hyperspectral systems, as well as standalone or integrated into your system.	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.
Description	Spectral Range = 350 - 1000 nm Number of Bands = 164 FWHM = Constant 10 nm Max Resolution = 1886 x 1886 pixel Weight = 630 g Dimensions = 86 x 121 x 105 mm Technology = Light Field Sensor(s) = 20 MP & 5 MP Spectral Sampling = 4 nm Wavelength Error < 4 nm Total Spectra / Image = 168 100 & 3.5 M pansharpened Total Data Points (Data Points / Cube) = 27 million Data Depths = 12 Bit Readout = Global shutter Max Frame Rate = 4 Hz Integration Time = 0.1-1000 ms Field of View (FOV) = 35? Power Consumption = 8 W	Spectral range = 400 - 1000 nm Spatial pixels = 1240 Spectral channels and sampling = 200 bands @ 3 nm F-number = F1.8 FOV = 20? Pixel FOV across/along = 0.27/0.27 mrad Bit resolution = 12 bit Noise floor = 2.3 e- Dynamic range = 4400 Peak SNR (at full resolution) > 180 Max speed (at full resolution) = 285 fps Power consumption = 50 W Dimensions (l-w-h) = 250 - 175 - 170 mm Weight < 4 kg *Includes IMU/GPS and DAU - <6.5 kg including standard battery	Spectral Range = 400-800/485-960/400-1000 nm Spatial pixels = 1024 Spectral bands = 72/88/106 Max speed* = 1000/800/700 fps Spectral sampling = 5.5 nm Spectral FWHM <2 bands? Spatial FWHM < 1.7 pixels Keystone <15% of a pixel Smile <15% of band FOV = 16? / 40? Bit resolution = 12 Noise floor = 11e Peak SNR >286 Dynamic range = 2560 ROI* = 8 independent ROIs Dimensions (l-w-h) = 316 - 105 - 153 mm Camera Interface = CameraLink * Reducing the number of spectral channels with ROI will proportionally increase the max framerate	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	Spectral Range (nm) = 400 - 1000 Spectral Channels = 447 Spectral Bandwidth (nm) = 1.3 Spectral Resolution - FWHM (nm) = 1.9 Spatial Pixels = 1600 Max Frame Rate (fps) = 165 f/# = 2.4 Interface = USB 3.0 Dimensions (mm) = 265 x 106 x 75 Weight, w/o lens (kg) = 2.51