Cubert FIREFLEYE 185

Spectral Range = 450 – 950 nm
Number of Bands = 125
FWHM = 8 nm @ 532 nm
Max Resolution = 1000 x 1000 pixel
Weight = Standard version: 490 g
Dimensions = Standard version: 200 x 67 x 60 mm
Technology = Multipoint Spectrometer
Sensor(s) = 5 MP & 2 MP
Spectral Sampling = 4 nm
Wavelength Error < 4 nm Total Spectra / Image = 2500 & 1 M pansharpened Total Data Points (Data Points / Cube) = 0.3 million Data Depths = 12 Bit/ 14 Bit Readout = Global shutter Max Frame Rate = Standard version: 25 Hz Integration Time = 0.1-1000 ms Field of View (FOV) = 30?, 20?, 13?, 7?, lens selectable Power Consumption = 7 W

SKU: Cubert FIREFLEYE 185 Category: VNIR Tag: Mounted

Compare

Assessing hyperspectral microscopy in real-time
The FireflEYE 185 brings hyperspectral imaging to microscopy, and also enables endoscopy. In life sciences the time-saving advantage of the snapshot technology (thanks to no-scanning) really makes itself known, as saving time saves patients. The camera can also monitor real-time processes, such as samples in petri dishes for example. The relay lens also allows for a lens change without camera re-calibration. And a close-up lens set allows a macroscopic scale view of a spot size of just a few mm.
For all scenarios
UAS Mapping – The FireflEYE 185 was the first-ever light-weight hyperspectral snapshot camera used for aerial mapping from a UAS. The user has a choice of lenses, enabling different fields of view for different tasks. In lab use the FireflEYE can be equipped with close-up lenses, allowing a macroscopic scale view with a spot size of only a few mm to cm. Attaching a relay lens to the FireflEYE provides for full interchangeability to Cmount lenses. Mount the camera on your microscope or endoscope without the need of an additional calibration. The latest improvements to the FireflEYE include upgrading the main sensor to a modern CMOS sensor. The 14-bit version has 2x higher signal-to-noise-ratio and 4x higher dynamic range compared to the S185 (needing 4 times longer integration times).

Quick Comparison

	Cubert FIREFLEYE 185 remove	HySpex VNIR-1800 remove	Resonon Pika XC2 remove	HySpex Mjolnir VS-620 remove	Specim AFX10 remove	Resonon Pika IR+ remove
Name	Cubert FIREFLEYE 185 remove	HySpex VNIR-1800 remove	Resonon Pika XC2 remove	HySpex Mjolnir VS-620 remove	Specim AFX10 remove	Resonon Pika IR+ remove
Image
Rating	Rated 0 out of 5	Rated 0 out of 5	Rated 4.33 out of 5	Rated 0 out of 5	Rated 0 out of 5	Rated 0 out of 5
Content	Assessing hyperspectral microscopy in real-time The FireflEYE 185 brings hyperspectral imaging to microscopy, and also enables endoscopy. In life sciences the time-saving advantage of the snapshot technology (thanks to no-scanning) really makes itself known, as saving time saves patients. The camera can also monitor real-time processes, such as samples in petri dishes for example. The relay lens also allows for a lens change without camera re-calibration. And a close-up lens set allows a macroscopic scale view of a spot size of just a few mm. For all scenarios UAS Mapping - The FireflEYE 185 was the first-ever light-weight hyperspectral snapshot camera used for aerial mapping from a UAS. The user has a choice of lenses, enabling different fields of view for different tasks. In lab use the FireflEYE can be equipped with close-up lenses, allowing a macroscopic scale view with a spot size of only a few mm to cm. Attaching a relay lens to the FireflEYE provides for full interchangeability to Cmount lenses. Mount the camera on your microscope or endoscope without the need of an additional calibration. The latest improvements to the FireflEYE include upgrading the main sensor to a modern CMOS sensor. The 14-bit version has 2x higher signal-to-noise-ratio and 4x higher dynamic range compared to the S185 (needing 4 times longer integration times).	HySpex VNIR-1800 The HySpex VNIR-1800 hyperspectral camera is developed for field, laboratory, and airborne applications. HySpex VNIR-1800 utilizes a cutting edge actively cooled and stabilized scientific CMOS detector. This makes VNIR-1800 the ideal camera for high-end data acquisitions where high radiometric accuracy is required. The dynamic range of 20 000 ensures outstanding SNR levels even in darker areas of an image of highly dynamic scenes. With a max frame rate of 260 fps, combined with aberration-corrected optics and high optical throughput (f/2.5), HySpex VNIR-1800 offers a unique combination of data quality, high speed, and sensitivity. 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 24 ?m to infinity e.g. airborne remote sensing.	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 Mjolnir VS-620 For applications requiring low mass, combined with high-performance specifications and scientific grade data quality on the full VNIR-SWIR range, HySpex Mjolnir VS-620 is an ideal solution. Sharing the onboard data acquisition unit and navigation system, HySpex Mjolnir VS-620 is both space-efficient and cost-effective. The VNIR and SWIR optical axis are coaligned in the along-track direction, assuring perfect coregistration in the flight direction. In addition to the high-quality hyperspectral data cube, covering the spectral range from 400 - 2500 nm, with 490 bands, double resolution data in the VNIR range is always readily available. With smile and keystone less than 0.1 pixels for each spectral range, the merged Mjolnir VS-620 data product will have coregistration/keystone better than 0.2 pixels for the full VNIR-SWIR range.	Specim AFX10 Specim AFX10 is a VNIR hyperspectral imaging solution with an HSI camera, a small and powerful computer and a high-end GNSS/IMU unit in a compact enclosure that can be installed on multiple drone types.	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.
Description	Spectral Range = 450 - 950 nm Number of Bands = 125 FWHM = 8 nm @ 532 nm Max Resolution = 1000 x 1000 pixel Weight = Standard version: 490 g Dimensions = Standard version: 200 x 67 x 60 mm Technology = Multipoint Spectrometer Sensor(s) = 5 MP & 2 MP Spectral Sampling = 4 nm Wavelength Error < 4 nm Total Spectra / Image = 2500 & 1 M pansharpened Total Data Points (Data Points / Cube) = 0.3 million Data Depths = 12 Bit/ 14 Bit Readout = Global shutter Max Frame Rate = Standard version: 25 Hz Integration Time = 0.1-1000 ms Field of View (FOV) = 30?, 20?, 13?, 7?, lens selectable Power Consumption = 7 W	Spectral range = 400 - 1000 nm Spatial pixels = 1800 Spectral channels = 186 Spectral sampling = 3.26 nm FOV* = 17? Pixel FOV across/along* = 0.16/0.32 mrad Bit resolution = 16 bit Noise floor = 2.4 e- Dynamic range = 20000 Peak SNR (at full resolution) > 255 Max speed (at full resolution) = 260 fps Power consumption = 30 W Dimensions (l-w-h) = 39 - 9.9 - 15 cm Weight = 5.0 kg Camera Interface = CameraLink *Can be doubled with FOV expander	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		Spectral Range = 400 - 1000 nm Spectral sampling = 2.68 nm Spectral resolution = 5.5 nm Fore lens focal length = 15 mm Field of view = 38 deg F/# = 1.7 Spectral bands = 224 Binned by 2 Spatial pixels = 1024 Spectral binning options = 2, 4, 8 Spatial binning options = 1, 2 Multiple ROI = User-selectable Maximum frame rate = 330 fps Full frame Dynamic range = 1420 SNR = 400:1 2 spectral binning, 1 spatial binning Power input = 10-30 VDC. Use separate battery or UAV/gimbal power Power consumption = 17 W Typical Connectors = ANT, DC IN, ETH GPS Antenna, Power In, Web UI / Data download Storage temperature = -20 ? +50C Operating temperature = +5 ? +40C Relative humidity = 5 - 90 %. Non-condensing Drone options = Multirotor with gimbal/ Multirotor, no gimbal/ Fixed Wing UAV. Any drone with adequate payload capacity can be used. Gimbal = Optimized for MoVI pro. Other suitable gimbals may also be used Gimbal weight = 2.2 - 2.7 kg. Typical gimbal solution Operating height = 15 - 150 m. Typical, local limitations may apply GNSS/IMU = Trimble APX-15 GPS Antenna = Trimble AV 14 Internal Memory = 512GB SSD Dimensions (W x H x L) = 131 x 152 x 202 mm Weight (without gimbal) = 2.1 kg Weight (with gimbal) = 4.8 kg. Typical gimbal solution	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