HERA IPERSPETTRALE is a compact and rugged camera that enables an innovative approach to spectral imaging.
With its unique and patented technology based on time-domain Fourier Transform (FT) detection, HERA provides exceptional spatial-spectral resolution and superior sensitivity in low-light illumination conditions.
HERA is based on a Fourier Transform (FT) approach: the data-cube is acquired in the time-domain, by step-scanning a compact ultra-stable interferometer in front of the CMOS sensor.
The software then automatically computes an FT at each and every pixel of the image, providing the final hyperspectral data-cube.
As a result of an FT, the spectrum at each pixel is a continuous curve, so the number of bands is virtually unlimited, not defined by the hardware.
As in any other FT techniques, the spectral resolution is not constant as a function of the wavelength. Also, the spectral resolution can be simply varied via software: at each measurement, you can decide whether to acquire a high spectral resolution-image, or – if not required – a faster and lower spectral resolution-image.
Regardless of this choice, the exceptional light throughput is not affected, thanks to the FT approach.
Thanks to the absence of aperture slits and gratings, and to the 1 cm Clear Aperture, HERA is specifically designed to provide an extremely high light throughput, making it the ideal device for low light conditions or delicate samples.
Nireos Hera Iperspettrale VIS-NIR
VNIR-SWIR Compare
Nireos Hera Iperspettrale VIS-NIR
Spectral range = 400 – 1000 nm
Sensor spatial resolution = 1280 x 1024 pixels
User adjustable spectral resolution: <1.5 nm @ 400 nm/ <10 nm @ 1000 nm
Sensor = CMOS
Number of bits = 12 bits
Software interface = Labview based interface
Number of spectral bands = ?*
Field of view 8 degrees**
Working distance = 1 m - ?
Dimensions = 205 x 150 x 83.5 mm
Weight = 2 kg * HERA is FT spectroscopy based instrument and number of spectral bands is software selectable and independent from measurement time
** The Field of View can be doubled (up to 16 degrees) by adding an optional lens in front of the camera
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| Nireos Hera Iperspettrale VIS-NIR remove | Resonon Pika IR-L+ remove | Resonon Pika XC2 remove | HySpex Mjolnir V-1240 remove | HySpex VNIR-3000N remove | Resonon Pika UV remove | |
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| Name | Nireos Hera Iperspettrale VIS-NIR remove | Resonon Pika IR-L+ remove | Resonon Pika XC2 remove | HySpex Mjolnir V-1240 remove | HySpex VNIR-3000N remove | Resonon Pika UV remove |
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| Content | HERA IPERSPETTRALE is a compact and rugged camera that enables an innovative approach to spectral imaging. With its unique and patented technology based on time-domain Fourier Transform (FT) detection, HERA provides exceptional spatial-spectral resolution and superior sensitivity in low-light illumination conditions. HERA is based on a Fourier Transform (FT) approach: the data-cube is acquired in the time-domain, by step-scanning a compact ultra-stable interferometer in front of the CMOS sensor. The software then automatically computes an FT at each and every pixel of the image, providing the final hyperspectral data-cube. As a result of an FT, the spectrum at each pixel is a continuous curve, so the number of bands is virtually unlimited, not defined by the hardware. As in any other FT techniques, the spectral resolution is not constant as a function of the wavelength. Also, the spectral resolution can be simply varied via software: at each measurement, you can decide whether to acquire a high spectral resolution-image, or - if not required - a faster and lower spectral resolution-image. Regardless of this choice, the exceptional light throughput is not affected, thanks to the FT approach. Thanks to the absence of aperture slits and gratings, and to the 1 cm Clear Aperture, HERA is specifically designed to provide an extremely high light throughput, making it the ideal device for low light conditions or delicate samples. | 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 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 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 VNIR-3000 N HySpex VNIR-3000 N is developed for field, laboratory, and airborne applications. HySpex VNIR-3000 N utilizes the same spectrograph as the other classical HySpex VNIR models. With a pixel size of 3.45?m, compared to 6. 5?m for VNIR-1800, HySpex VNIR-3000 N will have less than 1.6 pixels per FWHM of the PSF spatially and less than 1.8 bands spectrally, ensuring that narrow band features will be resolved equally for all cameras. With 3000 spatial pixels, 300 bands and a noise floor of 2.4e-, HySpex VNIR-3000N will provide outstanding SNR levels in dark environments. The camera is offered with a USB connection, allowing camera operation from any computer and reducing the cost of supplementing equipment. To visualize that the camera has a wider PSF per pixel and band relative to our normal extremely sharp cameras, we have added an N for Nyquist to the model name. | Pika UV 330 - 800 nm Ultraviolet + Visible The Pika UV (formerly NUV2) is a hyperspectral camera that scans the Visible and Near Ultraviolet (VIS+NUV) spectral range. An optimized objective lens provides excellent imaging throughout the entire spectral range. Because halogen lights have low output in much of the NUV, Resonon offers an NUV lighting module to augment illumination for our desktop system. The Pika UV can be used in our airborne, laboratory, and outdoor hyperspectral systems, as well as standalone or integrated into your system. |
| Description | Spectral range = 400 - 1000 nm Sensor spatial resolution = 1280 x 1024 pixels User adjustable spectral resolution: <1.5 nm @ 400 nm/ <10 nm @ 1000 nm Sensor = CMOS Number of bits = 12 bits Software interface = Labview based interface Number of spectral bands = ?* Field of view 8 degrees** Working distance = 1 m - ? Dimensions = 205 x 150 x 83.5 mm Weight = 2 kg * HERA is FT spectroscopy based instrument and number of spectral bands is software selectable and independent from measurement time ** The Field of View can be doubled (up to 16 degrees) by adding an optional lens in front of the camera | 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) = 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 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 - 1000 nm Spatial pixels = 3000 Spectral channels = 300 Spectral sampling = 2.0 nm FOV* = 16? Pixel FOV across/along* = 0.096/0.32 mrad Bit resolution = 12 bit Noise floor = 2.37 e- Dynamic range = 11000 Peak SNR (at full resolution) > 170 Max speed (at full resolution) = 117 fps Power consumption = 30 W Dimensions (l-w-h) = 39 - 9.9- 15 cm Weight = 5.0 kg Camera Interface = USB3 *Can be doubled with FOV expander | Spectral Range (nm) = 330 - 800 Spectral Channels = 255 Spectral Bandwidth (nm) = 1.8 Spectral Resolution - FWHM (nm) = 2.8 Spatial Pixels = 1500 Max Frame Rate (fps) = 142 f/# = 2.8 InterfaceUSB = 3.0 Dimensions (mm) = 230 x 107 x 85 Weight, w/o lens (kg) = 2.27 |
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