Say Hello To Specim IQ!
Take your hyperspectral measurements and analysis with you anywhere.
The compact and lightweight hyperspectral camera has all you need to take your hyperspectral analysis anywhere you want ? IP class protection and fully autonomous operation with chargeable batteries and replaceable standard memory cards.
Tailor the camera functionalities with applications matching your analysis requirements. Applications define how the camera is used and how the hyperspectral data is processed, analyzed, saved, and visualized.
Establish a remote connection via USB or WiFi and remotely control your Specim IQ camera from Specim IQ Studio to collect, study and import data. Operate the camera with an easy-to-use graphic user interface, and save the data to the memory card or directly to Specim IQ Studio?s Catalog. Remote usage session supports all Specim IQ camera features except focusing.
Create and tailor applications with Specim IQ Studio software.
Specim IQ
VNIR Compare
Specim IQ
Viewfinder camera = 5 Mpix (rescaled to 1280*960 pixels)
Focus camera = 1.3 Mpix
Spectral camera = by Specim
Sd-card reader = UHS-1 SD (Max. 32 GB SD memory card)
Processor = NVIDIA Tegra K1
Cpu = Kepler Mobile
Memory = 2GBytes DDR3L RAM and 8GB Emmc
Gps module = U-BLOX GPS/GNSS MAX-M8Q-0
Operating voltage = 3.7 V
Battery = 5200mAh Li-Ion battery (Type 26650)
WiFi = IEEE Std 802.11 b / g / n
Buttons = 12+1 physical buttons
Display & keyboard = 4.3? touch screen
Buzzer = Indication sounds for the user
Usb connector = USB Type-C
Size = 207 x 91 x 74 mm (depth with lens 125,5 mm)
Weight = 1.3 kg
Wavelength band = 400 – 1000 nm
F/number at Sensor = F/1.7
F/number at Slit = F/2.2
Magnification (Sensor / slit) = 1/1.3
Keystone = Corrected
Smile = Corrected
Spectral resolution = 7 nm
Slit Length = 11.70 mm
Slit Height = 42 ?m
Sensor type = CMOS
Spatial Sampling = 512 pix
Spectral Bands = 204 (with Bin 2x: 102, Bin 3x: 68)
Image resolution = 512 x 512 pix
Pixel size = 17.58 ?m x 17.58 ?m
Data output = 12 bit
QE peak >45 %
Full-well capacity >32000 e-
Peak SNR >400:1
Object distance = 150 – ? mm
Focal length = 21 mm
F/number at Slit = F/2.2
Full field of view (FOV) = 31 x 31 deg
Full field of view (FOV) at 1 m = 0.55 x 0.55 m
Filter thread = M40.5 x 0,5
IP classification = IP5x
Temperature, operational = +5?C – +40?C
Temperature, storage = -20?C – +50?C
Humidity operational = 95% non-condensing
Shock = STD-810G Method 516.6 Precedure VI
EU directive = Radio Equipment Directive 2014/53/EU.
Certificates = CE, FCC, RoHS
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Quick Comparison
| Specim IQ remove | Cubert FIREFLEYE 185 remove | Hinalea VNIR 4250 remove | Hinalea VNIR 4200C remove | BaySpec GoldenEye remove | BaySpec OCI-2000HH remove | |
|---|---|---|---|---|---|---|
| Name | Specim IQ remove | Cubert FIREFLEYE 185 remove | Hinalea VNIR 4250 remove | Hinalea VNIR 4200C remove | BaySpec GoldenEye remove | BaySpec OCI-2000HH remove |
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| Content | Say Hello To Specim IQ! Take your hyperspectral measurements and analysis with you anywhere. The compact and lightweight hyperspectral camera has all you need to take your hyperspectral analysis anywhere you want ? IP class protection and fully autonomous operation with chargeable batteries and replaceable standard memory cards. Tailor the camera functionalities with applications matching your analysis requirements. Applications define how the camera is used and how the hyperspectral data is processed, analyzed, saved, and visualized. Establish a remote connection via USB or WiFi and remotely control your Specim IQ camera from Specim IQ Studio to collect, study and import data. Operate the camera with an easy-to-use graphic user interface, and save the data to the memory card or directly to Specim IQ Studio?s Catalog. Remote usage session supports all Specim IQ camera features except focusing. Create and tailor applications with Specim IQ Studio software. | 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). | HinaLea?s 4250 VNIR system represents the next generation of intelligent hyperspectral imagers. Based on front-staring Fabry Perot technology, the 4250 includes hardware and software required to support a broad range of hyperspectral imaging applications. A tunable filter that sequentially selects spectral bands is placed in front of the sensor and generates the hyper-cube by collecting complete images at each spectral band-pass. The 4250 captures a complete high-spatial-resolution image data-cube across the visible to near infrared spectral range at 4 nm resolution in seconds, but can also be programmed to scan a subset of bands. This subset can be dynamically controlled based on the application and object to be imaged. Thanks to its design, the HinaLea 4250 offers high spectral and spatial resolution without the image uniformity challenges that line-scanning hyperspectral and patterned filter snapshot multi-spectral imagers present. In addition, HinaLea has developed its hyperspectral technology to be small, lightweight, and affordable for straightforward deployment in a lab setting, in a production environment, or in the field. | HinaLea?s 4200C MiniVIS hyperspectral imaging sensor covers the 400-1000 nm spectral range in a small-formfactor, highly portable, lightweight package. Based on front-staring Fabry Perot technology, 4200C includes hardware and software required to support a broad range of hyperspectral imaging applications. Key specifications include 300 spectral bands at a spectral resolution of 4 nm (FWHM). The 4200C captures a complete high-spatial-resolution image data-cube across the visible to near infrared spectral range in seconds, but can also be programmed to scan a subset of bands. The ability to dynamically control the sensor based on the application and object to be imaged optimizes data-capture and data-processing efficiency. Thanks to its design, the HinaLea 4200C offers high spectral and spatial resolution without the image uniformity challenges of line-scanning and patterned filter snapshot multi-spectral imagers present. In addition, HinaLea has developed this new sensor to be small, lightweight, and affordable for straightforward deployment in a lab setting, in a production environment, or in the field. | GoldenEye? the ultra-miniature snapshot hyperspectral camera covers visible - near infrared (VIS - NIR) spectral range from 400 to 1100nm. BaySpec continues ground-breaking development of extremely precise snapshot hyperspectral camera. Employing unique FT-PI proprietary technology, this novel snapshot hyperspectral imager features native spectral resolution of 8 - 60 nm FWHM and 648 x 488 pixels with 140 active spectral bands and it is the ideal solution for low light level applications. With the packed software and external trigger, this ultra-miniature snapshot hyperspectral imager delivers user-friendly operation experience from comprehensive spectral data analysis. The ultraminiature device, wide spectral coverage, and high sensitivity cater to various real-world applications, including machine vision, fluorescence imaging, medical diagnostics, precision agriculture, environmental monitoring, mineralogy, and infrastructure inspection. | OCI?-2000HH handheld snapshot hyperspectral imaging camera brings for the high-performance hyperspectral imaging in a handheld form within 1 lbs. (450 g). This handheld snapshot hyperspectral camera acquires full and continuous visible - near infrared (VIS - NIR) hyperspectral / multispectral data with simple point-and-shoot operation. Equipped with a large touchscreen and simple user interface, this hand shape device offers on-site spectral data processing and analysis in your hand, without any cost of lab test. Snapshot hyperspectral imaging is a practical method to capture worthwhile spectral information during a single snapshot, less than 30ms, without any scanning part involved. One of the major advantages of snapshot imaging is that it avoids motion artifacts, thereby simplifying the data processing and improving the image processing time. *Admin note: The manufacturer of this camera refers to it as a hyperspectral camera. However, it is important to note that the number of spectral bands of this camera is limited to 20-25. Due to this limitation, the BaySpec OCI-2000HH is categorized as a multispectral camera on this website.With the availability of large-format, low-cost optical dispensing elements, and ultra-miniature form. It is the ideal solution for wide applications, such as agriculture monitoring, food industry, geology, recycling, and anti-counterfeiting. |
| Description | Viewfinder camera = 5 Mpix (rescaled to 1280*960 pixels) Focus camera = 1.3 Mpix Spectral camera = by Specim Sd-card reader = UHS-1 SD (Max. 32 GB SD memory card) Processor = NVIDIA Tegra K1 Cpu = Kepler Mobile Memory = 2GBytes DDR3L RAM and 8GB Emmc Gps module = U-BLOX GPS/GNSS MAX-M8Q-0 Operating voltage = 3.7 V Battery = 5200mAh Li-Ion battery (Type 26650) WiFi = IEEE Std 802.11 b / g / n Buttons = 12+1 physical buttons Display & keyboard = 4.3? touch screen Buzzer = Indication sounds for the user Usb connector = USB Type-C Size = 207 x 91 x 74 mm (depth with lens 125,5 mm) Weight = 1.3 kg Wavelength band = 400 - 1000 nm F/number at Sensor = F/1.7 F/number at Slit = F/2.2 Magnification (Sensor / slit) = 1/1.3 Keystone = Corrected Smile = Corrected Spectral resolution = 7 nm Slit Length = 11.70 mm Slit Height = 42 ?m Sensor type = CMOS Spatial Sampling = 512 pix Spectral Bands = 204 (with Bin 2x: 102, Bin 3x: 68) Image resolution = 512 x 512 pix Pixel size = 17.58 ?m x 17.58 ?m Data output = 12 bit QE peak >45 % Full-well capacity >32000 e- Peak SNR >400:1 Object distance = 150 - ? mm Focal length = 21 mm F/number at Slit = F/2.2 Full field of view (FOV) = 31 x 31 deg Full field of view (FOV) at 1 m = 0.55 x 0.55 m Filter thread = M40.5 x 0,5 IP classification = IP5x Temperature, operational = +5?C - +40?C Temperature, storage = -20?C - +50?C Humidity operational = 95% non-condensing Shock = STD-810G Method 516.6 Precedure VI EU directive = Radio Equipment Directive 2014/53/EU. Certificates = CE, FCC, RoHS | 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 Spectral bands = 300 nominal Spectral resolution = 4 nm (FWHM) Dynamic range = User selectable 8 or 16 bit Standard lens = 15? Field of View (FOV) - 150 mm to ?/ 30? Field of View (FOV) - 150 mm to ? Input voltage = 110 VAC at 60Hz / 220 VAC at 50Hz Data interfaces = USB 2.0, 3.0 Operating temperature = 15? to 45? C Humidity = 65% non-condensing Sensor spatial resolution = 2.3 MP * Illumination = Optional Dimensions (L x W x H) = 197.7 mm x 81 mm x 78 mm.15? FOV lens adds 45.5mm when focused at infinity/ 30? FOV lens adds 130.7mm when focused at infinity Weight = 1.25 kg * RGGB sensor; effective monochromatic equivalent 588,544 pixels without de-mosaicing | Spectral range = 400-1000 nm Spectral bands = 300 nominal Spectral resolution = 4 nm (FWHM) Dynamic range = User selectable 8 or 16 bit Standard lens = 3.6 to 6? Field of View (FOV) - 300 mm to ?. T-mount (M42x0.75) Input voltage = 110 VAC at 60Hz / 220 VAC at 50Hz Data interfaces = USB 2.0, 3.0 Operating temperature = 15? to 45? C Humidity = 65% non-condensing Sensor spatial resolution = 2.3 or 5 MP * Illumination = Optional Dimensions (L x W x H) = 85 mm x 59 mm x 70mm Weight = 530 g * RGGB sensor; effective monochromatic equivalent 588,544 pixels and 2.5 MP, respectively for 2.3 and 5 MP sensors without demosaicing. | Spectral Range = 400 - 1100 nm Spectral Bands = 140 bands Spectral Resolution = 8 - 60 nm FWHM Dimension = 6.0 x 3.3 x 4.3 cm3 Weight = 180g | Spectral Range = 600 - 1000 nm Spectral Resolution < 12 nm Number of spectral bands = 20 - 25 Dimension = 35 x 135 x 75 mm Weight = 1 lbs. |
