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9-Band Multispectral Imager
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Product Code: ATH1690
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The ATH1690 9-band multi-spectral imager has a total of 9 bands, including 6 multi-spectral bands + 1 thermal infrared imaging + 1 short-wave infrared + visible light. The infrared thermal imaging channel can directly measure temperature data and find heat sources; the short-wave infrared channel can measure through smoke and measure moisture content. Users can freely select the wavelength range of each channel according to application requirements to obtain the required spectral information. This flexibility makes the camera suitable for a variety of agricultural, environmental monitoring and resource management tasks.

The high-speed acquisition capability of the ATH1690 enables it to capture details of fast-moving targets and dynamic processes. The optimized data processing algorithm ensures high quality and accuracy of the image. Whether it is used for crop monitoring, soil analysis or vegetation coverage assessment, the ATH1690 can provide accurate spectral information and rich data support.


It meets the application needs of various industries such as agricultural monitoring, ecological protection, emergency search and rescue, and camouflage identification.

hyperspectral
Spectral Width Multispectral:109m×82m@h120m;RGB:2.60cm@h120m,LWIR:71m×57m@h120
Hyperspectral Imager (HSI)
Spectral Channel 450nm@30nm,555nm@27nm,660nm@22nm,720nm@10nm,840nm@30nm,RGB,LWIR:8μm~14μm
Ground Resolution Multispectral:5.28cm@h120m;RGB:2.60cm@h120m:LWIR:11cm@h120m
Bits Multispectral:12bit;RGB:8bit;LWIR:14bit
Shutter Multispectral:Global Shutter;RGB:Global Shutter
Camera Target Multispectral: 1/1.8"; RGB: 1/2.3"
Effective Pixels Multispectral:1.3Mpx;LWIR:0.3Mpx,Visible light:9Mpx
Power Consumption 9V~24V
FOV Multispectral: 48.8°×37.5°; RGB: 47.4°×36.4°;LWIR:32.9°×26.5°
Optical Window Sapphire optical glass window
Image Format Multispectral: 16bit original TIFF & 8bit reflectivity JPEG RGB: 8bit JPEG
Storage Medium SD card
Shooting Trigger Overlap rate trigger, timing trigger
Shooting Frequency Photo mode: 1Hz; Video mode: 20Hz
Working Temperature -10℃~+50℃(Relative wind speed≥1m/s)
Working Humidity RH(%)≤85%(non-condensing)

  • 9 bands in total: 6 multi-spectral bands + 1 infrared thermal imaging + 1 short-wave infrared + visible light
  • Infrared thermal imaging can directly measure temperature data and find heat sources
  • Short-wave infrared bands can penetrate smoke and measure moisture content
  • On-board real-time spectral inversion and video output
  • On-board real-time spectral inversion and video output
  • Can be adapted to multiple models of drones
  • Compact design and light weight (470g)
  • Wide Applications: agriculture, forestry, surveying and mapping, etc
  • Full channel fastest 0.5s photo interval
  • GPS module, gyroscope module

  • Scientific research & Life Science Research:  Climate research, ecology, archeology and remote sensing
  • Agriculture & Forest Monitoring:Crop monitoring, growth assessment, pest and disease detection
  • Irrigation management, land use and planning
  • water quality in River & illegal discharge & Water stress
  • Geology and mineral resource:Oil、Mining、Energy
  • Environmental science:Natural disasters Monitoring and assessing the impact
  • Pubilic Safety: Emergency rescue

What is Hyperspectral Imaging Camera?

Hyperspectral imaging Camera, or imaging spectroscopy, combines the functions of imaging camera and spectroscopy. A hyperspectral camera acquires the spectrum for each pixel in an image of the scenes.

 

What does Hyperspectral Imaging Camera used for?

Hyperspectral Imaging Camera are used for applications in astronomy, agriculture, molecular biology, biomedical imaging, geosciences, physics, environment,and monitoring. Hyperspectral imaging camera takes pictures of objects spectrum with unique 'fingerprints', it enable identification of the materials. Like spectral fingerprint of oil helps geologists locate new oil fields.

 

What does Hyperspectral Imaging Camera tell you?

The hyperspectral imaging provides much more color information in details than a normal camera,which leads to differentiate from objects in the scene. Hyperspectral imaging is used to find objects, identify materials, or detect processes.  

 

How much does Hyperspectral Imaging Camera cost?

OPTOSKY manufactures hyperspectral imaging camera 400-1000nm prices range USD45,000~49,800.

 

How to choose a Hyperspectral Imaging Camera?

Compare FOV,spatial dimensions, weight,optical performance,size, and cost etc.

 

Where to buy Hyperspectral Imaging Camera?

Buy from local distributor of OPTOSKY,online shopping or inquire us.

 

Why Chosse Optosky Hyperspectral Imaging Camera?

1.Optosky F2.4, FOV is larger than that of competitors

2.Spatial dimension 14mm

3.Lightweight 1500 g, 950g, 650g

4.High optical performance

5.Compact size:300x70 x70mm;300x60x60mm;270x50x50mm

6.Low cost

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