• FPA resolution

    32 x 32

  • Readout method

    x-y addressed (Rolling shutter)

  • Readout electronics

    External (not included)

MATRIX 1024 FPA

  • The MATRIX 1024 FPA is the main component of our MATRIX 1024 SERIES

Applications

  • Industrial process control
  • Laser monitoring
  • Gas and flame detection

 

Specifications

FPA characteristics:

  • FPA sensing material: VPD polycrystalline PbSe
  • Room temperature performance: Operational, no need of cooling devices
  • FPA number of pixels: 1024 (32×32)
  • Pixel size (microns): 100×100 microns^2Tamaño de pixel (micras): 100×100 micras^2
  • Pixel pitch (microns): 100 microns
  • FPA readout method: Rolling-frame (x-y addressed)

FPA spectral characteristics:

  • IR detection band: MWIR (1-5 microns, peak wavelength @ 3.7 microns)
  • Spectral response: 1.0 – 5.0 microns
  • WLpeak: 3.7 microns
  • D* (WLpeak): 2x10E9 Jones
  • D* (-3dB): 1.6 / 4.5 micronsD* (-3dB): 1.6 / 4.5 micras
  • Time constant (us): < 2 us

FPA electrical characteristics:

  • Biasing voltage (typ): 5 VDC
  • Element resistance: 0.8 – 2.0 MOhm
  • Power: 1 mW

Other:

  • Cooling: Uncooled (operational at room temperature)
  • Packaging: SMD (LCC68 footprint compatibility)
  • Operating temperature: +5 / +70 ºC

Related products

Technical notes – News

New Infrared Technologies, Ltd.
New Infrared Technologies, Ltd.

Related Images

New Infrared Technologies, Ltd.

Título de descripción

Texto de la descripción de la foto

New Infrared Technologies, Ltd.

Título de descripción

Texto de la descripción de la foto

Related videos

Description

In this video, several examples of the capabilities of NIT’s sensors to monitor industrial welding processes are shown. Sensors used in the demos are the TACHYON 1024 CORE-HS operating at 10,000 fps, and the MATRIX 1024 CORE-S operating at 100 fps. The examples shown focus on resistance spot welding (automotive industry and home appliance manufactuing industry), and TIG welding (metal barrel manufacturing).

Related applications

New Infrared Technologies, Ltd.
@Copyright - New Infrared Technologies 2017