| Content | ALL-ROUNDER FOR A WIDE RANGE OF APPLICATIONS
NIR hyperspectral cameras in the wavelength range between 950 - 2200 nm
Under the name of RedEye, we offer a series of pushbroom HSI cameras for the near-infrared (NIR) range. These provide chemical information on a wide variety of materials: from plastics and food to medicines or waste. The technology captures information not visible to the naked eye, such as material class, ingredients, or coatings. It is used in particular in sorting systems and for in-line process control. Depending on the area of application, the RedEye is available in four versions with varying wavelength ranges: RedEye 1.7 (950 to 1700nm)
RedEye 1.7 High Res (950 to 1700nm)
RedEye 1.9 (1100 to 1900nm)
RedEye 2.2. (1200 to 2200 nm). Thanks to high measurement rates, exceptional spectral and spatial resolution, and a flexibly adjustable field of view, the RedEye series enables real-time in-line monitoring, even on fast-moving objects. In combination with the ColEx adapter, which combines the RGB data with the NIR signal, parallel recording of color information is also possible. Once installed, all RedEye cameras consistently deliver fast and reliable results - and at unbeatable value for money. | 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. | HySpex Baldur S-640i N
Baldur S-640i N covers the spectral range from 950-1730nm.
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 S-640i N is better than 1.5 pixels, yielding a very sharp camera. | 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 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. | 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. |
| Description | Spectral range typ. = 1100 to 1900 nm
Dispersion = 3.7nm/px
Spectral resolution = 11 nm (with 80 ?m slit)
Spatial resolution rms spot radius < 35 ?m
Smile < 75 ?m
Keystone < 120 ?m
F/# = 2.5
Slit width, default = 80 ?m (30, 50 & 100 ?m available)
Sensor = extended InGaAs
Pixel in full frame = 320?256 (spatial x spectral)
Pixel size = 30 ?m x 30 ?m
Bit depth = 14 bit
Frame rate = 330 fps (full frame)
Data interface/ camera control = Gigabit Ethernet
Power supply = 24 V DC
Cooling = 2-Stage TEC
Temperature (operating) = -5?C to +40?C
Temperature (storage) = -5?C to +50?C
Dimensions I x w x h = 361mm x 162mm x 145mm
Weight = 6 Kg
Lens mount = standard C-mount
Protection type = IP65 and IP67 | 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 | Spectral Range = 950 - 1730 nm
Spectral bands = 232
Max speed* = 500 fps
Spectral sampling = 3.36 nm
Spectral FWHM <2 bands
Spatial FWHM <1.5 pixels
Spatial pixels = 640
Keystone <20% of a pixel
Smile <20% of band
FOV = 16? / 40?
Bit resolution = 12 bit
Noise floor = HG:8.5/MG:32/LG:270 e-
Peak SNR = HG:150/MG:275/LG:800
Dynamic range = HG:2650/MG:2360/LG:2360
ROI* = All bands can be selected/deselected individually
External trigger options = LVDS, 5V/12V/24V TTL
Dimensions (l-w-h) = 364 - 105 - 153 mm
Camera Interface = GigE
* Reducing the number of spectral channels with ROI will proportionally increase the max framerate | 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) = 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 = 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 |
Leave a Reply