Your High-Speed Imaging, SWIR Cameras & Thermal Imaging Camera Experts

NiT | SenS 1920 SWIR Camera

nit_sens_1920_swir_camera
nit_sens_1920_swir_cameranit_sens_1920_hd_swir_camera
The NiT SenS 1920 High-Definition SWIR Camera developed by New Imaging Technologies, stands as a cutting-edge SWIR camera designed to excel in a wide range of applications. The new SWIR sensor – NSC2101 boasts remarkable features, including a high-performance InGaAs sensor with an 8µm pixel pitch ...Read more
  • Description
  • Specifications
  • Videos

The NiT SenS 1920 High-Definition SWIR Camera developed by New Imaging Technologies, stands as a cutting-edge SWIR camera designed to excel in a wide range of applications. The new SWIR sensor – NSC2101 boasts remarkable features, including a high-performance InGaAs sensor with an 8µm pixel pitch, delivering an impressive 2 mega-pixel resolution at 1920 x 1080. Its ultra-low noise of only 25e- ensures exceptional image clarity, even in challenging environments.

Exceptional Image Quality with a with industry leading quantum efficiency of greater than 80% that the photon will generate an electron that is measured by the detector.  The innovative dual-response mode combines linear and logarithmic modes, providing greater flexibility and adaptability in various scenarios.

The SenS 1920 SWIR camera ultra-low noise of only 25e- ensures exceptional image clarity, even in challenging environments. Additionally, with a dynamic range of 64dB, the sensor captures a wide spectrum of light intensities with precision and accuracy.

SenS 1920 HD SWIR Camera applications

  • Intelligence, Surveillance, and Reconnaissance (ISR)
  • Semiconductor and Wafer Inspection
  • Solar Panel Inspection
  • R&D purposes
1920 x 1080 pixels

Key Features:

  • Linear response mode: High sensitivity
  • Full High Definition format (1920x1080)
  • up to 40Hz full frame
  • TEC1 cooled sensor
  • Compact and easy to integrate
  • USB 3.0 
up to 40Hz full frame
USB 3.0
NSC2101T-SI
8μm
TE Cooled
58 x 58 x 70 mm
ROI
USB3.0
>80%
InGaAs
ITR, CDS, ROI

Related products

Export Disclaimer: Some goods on this site may be subject to US Export Regulations. Buyer agrees as one of the terms of purchase not to export such goods without having obtained and executed proper export licenses from the United States Government. Learn more.

What is SWIR imaging?

(SWIR) Short-wave Infrared imaging is an advanced technique, used for producing images based on radiation within the electromagnetic spectrum. Infrared radiation is located between visible light and microwaves between 0.75 µm – 1mm wavelength. Infrared is split between 5 regions: Near-Infrared (NIR), Short-Wave Infrared (SWIR), Mid-Wave Infrared (MWIR), Long-Wave Infrared (LWIR), and Far Infrared (FIR). SWIR cameras can see even at night and under hard visible conditions lie clouds, smoke, or even dust. Another major benefit of SWIR imaging that is the ability to image through glass, great for inspection of products with no destruction. 

What is a InGaAs sensors?

InGaAs is an arcanum for the element composition of the material it makes (Indium, Gallium, Arsenide).  NIT has developed and invested into a manufacturing line of InGaAs sensors using a unique and proprietary technology. InGaAs annoy absorbs IR light invisible to silicon and converts incident light into electrons digitized by the ROIC and the camera electronics. Adding this array to a ROIC, read-out integrated circuits, can be a challenging task in design and engineering.  One of the critical steps is the 3D stacking of the photodiode array to the read-out circuit, for which NIT has developed a very innovative flip chip process ensuring the CMOS read out circuit at a sub-micron precision high yield and low cost of production.

What applications is SWIR imaging used in?

SWIR imagers are used in a large number of applications including semiconductor inspection, laser alignment and beam profiling, hot glass inspection, security and surveillance, machine vision imaging, agricultural sensing, microscopy and life science imaging. Some examples are on our infrared and thermal imaging applications page.