Hypespectral Imaging Camera 

Hyperspectral imaging systems are imaging spectrometer systems that record spctrum information and image information of the targeted material precisely in real time. The spectral data can be evaluated by means of a chemometric data analysis and thus enable reliable classifications or quantifications.The spectrometer systems that are based on diode arrays are characterized by a solid design, reliable and low-maintenance operation as well as very short measuring times and thus a high sample throughput. These properties allow for our cameras to be adopted for routine and process analysis applications in industrial environments. 

We offer 5 cameras available cover applications from the Ultraviolet (UV), Visible (VIS), Near Infrared (NIR), Short wave Infrared (SWIR), Mid-wave Infrared (MWIR) hyperspectral imaging.with software packages, accessories, optics and mounts are available to support remote sensing applications.

Hyperspectral Imaging Camera Model Guide 

(By Wavelength Range)

Hyperspectral imaging Camera Industry Application

●   Waste Recycling applicatoin : (Sorting of Plastics, Paper recycling, Building Material) 

●   Food Safety application: (Qualify control of Fruits, vegatable, legumes, nuts or processed food, |  Detection of foreign substances)

●  Process Control Application：(Pharmaceutical detection | Determination of moisture content | Control of gluing process)

●  Agricultral Applications Read More

Accessories

	UV 35 mm F/2.8 1/2" C-Mount		Camera holder  and one axis roller stage
	VIS-NIR 16 mm F/1.4 C-Mount
	VIS-NIR 25 mm CFF
	VIS-NIR 35 mm CFF
	VIS-NIR 50 mm F/2 C-Mount
	RGB 5 mm		White reference  (Spectralon 50x20cm)
	RGB 25 mm		MIR light bar 1 m  (different dimensions available)
	NIR 8 mm F/1.4 1" C-Mount		Halogen light bar 0.5 m
	NIR 12 mm F/1.4 1" C-Mount		Halogen light bar 1 m
	NIR 16 mm F/1.4 1" C-Mount		Halogen light bar 1.5 m
	NIR 25 mm F/1.4 1" C-Mount		Halogen light bar 2 m
	NIR 35 mm F/1.4 1" C-Mount		RGB/LED lighting  (flash sequence 1)
	NIR 50 mm F/1.4 1" C-Mount		RGB/LED lighting  (flash sequence 2)

UV Hyperspectral Imaging Camera (220 – 380 nm)

English Brochure: BlueEye_Summary | BlueEye  | BlueEye_Scientific | Blueye_TEC

中文产品册: BlueEye Summary | BlueEye | BlueEye_Scientific | BlueEye_TEC

The BlueEye (220 – 380 nm) is a linescan (pushbroom) ultraviolet hyperspectral imaging camera which allows the acquisition of real-time data with high spatial and spectral resolution. This high-sensitivity camera is an excellent solution for a vast multitude of biological (e.g. chlorophyll and carotenoid), biochemical (e.g. fl uorescence diagnosis of malignancies) and environmental applications. Combining advanced reflection grating technology, a sensitive CMOS detector and high-end electronics with superior optical design, the BlueEye camera enables exceptional performance for the most demanding applications. Dedicated software packages for various user requirements are available The BLUE EYE comes in 3 different models.

Product Specification 

Visible and NIR Hyperspectral Imaging Camera 

English Brochure :GreenEye | OrangeEye 

中文产品册:   GreenEye | OrangeEye

Product Specification 

NIR Hyperspectral Imaging Camera (950 to 1700 nm)

English Brochure: RedEye_1.7_NEW | RedEye_1.7 _ High_Res | RedEye_NEW_2.2

中文产品册: RedEye_1.7_NEW | RedEye_1.7 _ 2.2 | RedEye_NEW_2.2

The RedEye (950 to 1700 nm) is a linescan (pushbroom) hyperspectral imaging camera in the  near-infrared spectral range that allows the acquisition of real-time data with high spectral and spatial  resolution. This new capability was developed from our vast experience with industrial applications we  have delivered in the past decade. Combining the superior optical design with itsadvanced 3-D transmission grating technology, highend  electronics, and a fast FPA detector, the RedEye camera provide outstanding performance even under  harsh environmental conditions. To meet different user demands, multiple software packages are  available: From hardware drivers through laboratory ssoftware up to fully automated real-time routines  for rapid data acquisition, evaluation, and process control.

Specification Sheet

MIR Hyperspectral Imaging Camera (2900 – 4200 nm)

Product brochure : BlackEye    中文产品册: BlackEye

Specification Sheet

Hyperspectral Camera Application Samples

Food Quality Control 

Our range of groceries has never been as wide as it is today: Mechanical cultivation and harvesting methods, global transportation and supply chains, and the increase in highly processed foods have lastingly changed our eating habits. At the same time, they present new challenges for producers, packers and logistics with respect to quality assurance. Where visual inspection reaches its limits, quality control has been carried out for years using camera-based measurement systems. In the meantime, HSI systems are increasingly used: They provide valuable additional information that normal cameras cannot see. For example, they can track down foreign bodies, measure the composition of ingredients, or find spoiled items.

Hyperspectral imaging camera can be adopted in food industry for quality control, below pictures gives a great example, we use our hyperspectral camera to inspect the humiduty (moisture) level of the food, and to idenfity different material of the food (such as sesame). 

Below application shows we use hyperspectral camera to identify stone and soil from photatos in a high speed process

Plastic sorting for recycling with high speed 

Recycling is practised environmental protection: It conserves raw materials and the climate and helps to reduce the increasing worldwide waste occurence. High recycling rates are already being achieved in many areas. However, it is not only the amount of recycled material that counts, but also its quality. Whether it is household waste, construction waste or industrial waste: For an efficient circular economy, recyclable raw materials must be removed automatically and fast from the waste stream and be sorted by type. HSI cameras can help with this: In addition to different material classifications, they make coatings, contaminations, and basic components visible. 

They are suitable for millimeter-sized waste particles as well as for objects up to half a meter in diameter or more. High recording speed, precise results and efficient data analysis tools speed up the sorting process and ensure a consistently high quality of the recycled material. with high resolution and high speed feature it is a perfect tool to improve the quality and efficiency of plastic sorting machine, below example shows our NIR hyperspectral camera system used in plastic sorting machine, 

Hyperspectral Measurment 1	Plastic pellets and additives 1	Hyperspectral Measurment 2	Plastic pellets and additives 2

Process Control

In many industries, constant control of all production steps is essential to ensure the quality of intermediate and final products. Control is carried out, for example, by means of random sampling, visual inspections or lengthy laboratory tests. Compared to these methods, HSI offers decisive advantages: It allows objective 100% control of all goods in real time. Parts or whole batches that deviate from the target can thus be ejected at an early stage or the process parameters can be adjusted accordingly. This saves unnecessary work steps, energy and resources. The fields of application of HSI are extremely diverse: The technology is suitable, for example, for checking ingredients, material identities, and surface properties or color fidelity.

Below application shows we use hyperspectral camera to identify almond from foreign objects in a high speed process

Almond Processing	Detection of almond shells and other foreign objects	Almond Hyperspectral Data Analysis

Below application shows we use hyperspectral camera to identify different pill contents from a package, it was able to detector wrong pharmaceutical pills from a package. 

Pharmaceutical Pill	Hyperspectral imaging Result	Pill Hyperspectral Graph

Below application shows we use hyperspectral camera to seperate bacteria from other contaminations. 

Bacteria Contamination	Bacteria Contamination hyperspectral image Result	Bacteria Hyperspectral Graph

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