Lepton® 3 High Resolution LWIR Camera Module

FLIR offers their highest resolution micro thermal camera with 160 x 120 active pixels

Image of FLIR's Lepton 3.0The FLIR Lepton® 3, FLIR's highest resolution LWIR micro thermal camera solution, delivers full 160 x 120 pixel thermal resolution, a 4x increase over earlier Lepton® versions. The revolutionary Lepton® was the first complete longwave infrared thermal camera small enough to be used in smartphones and other mobile devices. The new, higher resolution Lepton® 3 gives users better image detail in a powerful, compact, lightweight package for even greater utility in commercial applications as both a thermal camera and a detection sensor. Smaller than a dime and ten times less expensive than a traditional IR camera, the 160 x 120 resolution Lepton® brings high quality thermal vision everywhere.

Features
  • Enhanced IR sensor: greater resolution and sensitivity than common thermopile arrays
    • 160 x 120 active pixels
    • Thermal sensitivity
    • Low operating power: 140 mW typical, 650 mW during shutter event
    • Low power standby mode
  • Micro thermal imager: uncooled thermal imaging for small electronics
    • 56° lens
    • Integrated digital thermal image processing
    • Integrated shutter
    • Fast time to image (<0.5 seconds)
  • Ease of integration: simplifies development and manufacturing of thermal-enabled devices
    • Small 11.8 mm x 12.7 mm x 7.2 mm package
    • SPI video interfaces
    • Uses standard cell phone-compatible power supplies
    • Two-wire serial control interface
    • 32-pin socket interface to connector
Applications    
  • Mobile phones
  • Gesture recognition
  • Building automation
 
  • Thermal imaging
  • Night vision

Lepton® 3

ImageManufacturer Part NumberDescriptionTypePixel SizeActive Pixel ArrayAvailable QuantityView Details
500-0726-01 datasheet linkTHERMAL IMAGE SENSOR 160HX120V500-0726-01THERMAL IMAGE SENSOR 160HX120VThermal12µm x 12µm160H x 120V1141 - Immediate
500-0726-01 product page link
Published: 2017-05-23