Headwall Nano HP

Wavelength Range = 400 – 1,000 nm
Spectral Bands = 340
Spatial Pixels = 1020
Camera Technology = CMOS
Pixel Pitch = 5.86 ?m
Aperture = f/2.5
Dispersion/Pixel = 1.76 nm
Entrance Slit Width = 20 ?
Spectral FWHM = 6 nm
Frame Rate (Sustained)* = 250 Hz
ADC Bit Depth = 12 bits
Spectrograph Design = Aberration-Corrected
Digital Interface = GigE
GPS/IMU = Internally Mounted High-Performance with PPK4
Data Storage on Payload = 480 GB Solid-State
Weight (without / with LiDAR) = 1.05 kg (2.32 lbs) / 1.73 kg (3.81 lbs)
Base Dimensions (without / with LiDAR) = 132 x 102 x 73 mm (5.2 x 4.0 x 2.9 in) / 132 x 175 x 99 mm (5.2 x 6.9 x 3.9 in)
Power without LiDAR (typical) = 14.4 W
Operational Temp Range = 0 – 40 ?C / 32 – 104 ?F
Storage Temp Range = -20 – 60 ?C / -4 – 140 ?F
*250 Hz with LiDAR enabled

SKU: Headwall Nano HP Category: VNIR Tag: Mounted

Compare

NEW Nano HP?
Designed with ideal Size, Weight, and Power consumption (SWaP) for Unmanned Aerial Vehicles (UAVs) and containing aberration-corrected optics, an internal solid-state drive (SSD), Gigabit Ethernet interface, and choice of lenses.

Quick Comparison

	Headwall Nano HP remove	HySpex Mjolnir VS-620 remove	HySpex SWIR-384 remove	Specim FX10+ remove	Resonon Pika XC2 remove	Specim Fenix remove
Name	Headwall Nano HP remove	HySpex Mjolnir VS-620 remove	HySpex SWIR-384 remove	Specim FX10+ remove	Resonon Pika XC2 remove	Specim Fenix remove
Image
Rating	Rated 0 out of 5	Rated 0 out of 5	Rated 4.67 out of 5	Rated 0 out of 5	Rated 4.33 out of 5	Rated 0 out of 5
Content	NEW Nano HP? Designed with ideal Size, Weight, and Power consumption (SWaP) for Unmanned Aerial Vehicles (UAVs) and containing aberration-corrected optics, an internal solid-state drive (SSD), Gigabit Ethernet interface, and choice of lenses.	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.	HySpex SWIR-384 The HySpex SWIR-384 hyperspectral camera is developed for field, laboratory, and airborne applications. The state of the art MCT sensor with cooling down to 150K yields low background noise, high dynamic range, and exceptional SNR levels. With a max frame rate of 400 fps, combined with an aberration-corrected optical system with high optical throughput (f/2), the data quality, speed, and sensitivity 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 53 ?m to infinity e.g. airborne remote sensing.	Specim FX10+ The Specim FX10+ is a high-speed line-scan hyperspectral camera optimized for applications requiring fast imaging. Its high resolution ensures accurate and detailed imaging at a rapid pace. Specim FX10+ operates in the visible and near-infrared (VNIR) region from 400 to 1000 nm.	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.	Fenix FENIX is optimized for the most demanding geological, law enforcement, and environmental applications. In a single continuous image, FENIX spectral camera delivers the best hyperspectral data ever seen over VNIR, NIR, and SWIR wavelengths. FENIX offers extreme ruggedness and 75% reduction in size and weight compared to previous multi-sensor systems. The excellence in technical performance and physical size has been achieved through innovative and unique ?single optics dual spectrograph? design.
Description	Wavelength Range = 400 - 1,000 nm Spectral Bands = 340 Spatial Pixels = 1020 Camera Technology = CMOS Pixel Pitch = 5.86 ?m Aperture = f/2.5 Dispersion/Pixel = 1.76 nm Entrance Slit Width = 20 ? Spectral FWHM = 6 nm Frame Rate (Sustained)* = 250 Hz ADC Bit Depth = 12 bits Spectrograph Design = Aberration-Corrected Digital Interface = GigE GPS/IMU = Internally Mounted High-Performance with PPK4 Data Storage on Payload = 480 GB Solid-State Weight (without / with LiDAR) = 1.05 kg (2.32 lbs) / 1.73 kg (3.81 lbs) Base Dimensions (without / with LiDAR) = 132 x 102 x 73 mm (5.2 x 4.0 x 2.9 in) / 132 x 175 x 99 mm (5.2 x 6.9 x 3.9 in) Power without LiDAR (typical) = 14.4 W Operational Temp Range = 0 - 40 ?C / 32 - 104 ?F Storage Temp Range = -20 - 60 ?C / -4 - 140 ?F *250 Hz with LiDAR enabled		Spectral range = 930 - 2500 nm Spatial pixels = 384 Spectral channels = 288 Spectral sampling = 5.45 nm FOV* = 16? Pixel FOV across/along* = 0.73/0.73 mrad Bit resolution = 16 bit Noise floor = 150 e- Dynamic range = 7500 Peak SNR (at full resolution) > 1100 Max speed (at full resolution) = 400 fps Power consumption = 30 W Dimensions (l-w-h) = 38 - 12- 17.5 cm Weight = 5.7 kg Camera Interface = CameraLink *Can be doubled with FOV expander	Spectral Range = 400-1000 nm Spectral resolution (FWHM) = 15 nm, Typical mean Spectral sampling/pixel = 6.3 nm, With default binning Spectral bands = 100, With default binning Numerical aperture = 1.7, With default lens Optics magnification = 0.80 Effective pixel size = 19.9x9.97 ?m, At fore lens image plane Effective slit width = 42 ?m, At fore lens image plane Effective slit length = 10.2 mm, At fore lens image plane SNR @ max. signal = 420 : 1 Spatial samples = 1024 Bit depth = 12 Maximum frame rate = 705 FPS full range. With 2-spectral binning (Bands: Max FPS) = 1:9900/5:6500/20:2800/35:1813/70:985 Binning = 2,4,8 spectral and spatial, Default: 2 spectral x 1 spatial ROI = Freely selectable multiple bands of interest, Minimum height of ROI is two 1-binned rows. Maximum frame rate is determined by the total number of rows included in the mMROI?s Pixel operability = 99.993% Image corrections = Non uniformity correction/Bad pixel replacement/Automatic Image Enhancement (AIE). AIE: Unified spectral calibration + corrected smile and keystone aberrations. One point NUC Sensor material = CMOS Sensor cooling = Passive Full well capacity = 90 ke- Read-out modes = IWR / ITR Optics temperature = Passive Lens mount = Custom mount Fore lens FOV options:12 deg/38 deg (default)/47 deg/51 deg/83 deg. Only the default lens is specifically designed for FX10. With other lens options, optical parameters may vary. Camera digital data output/control interface = GigE Vision Camera control protocols = GenICam, ASCII Power input = 12 V DC (+-10%) Power consumption = Max 4 W Connectors = Industrial Ethernet IP = IP52 Dimensions (L x W x H) 150 x 85 x 71 mm Mounting surface option on three sides. Mounting kit adds 24 mm distance on mounting side. Weight 1.3 kg Storage temperature = -20 ... +50?C (non-condensing) Operating temperature = +5 ? +40?C (non-condensing) Relative humidity = 5% - 95% (non-condensing)	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