FLIR's Lepton® 3.5 with radiometry is a complete long-wave infrared (LWIR) camera module designed to interface easily into native mobile-device interfaces and other consumer electronics. It captures infrared radiation input in its nominal response wavelength band (from 8 microns to 14 microns) and outputs a uniform thermal image with radiometry to provide absolute temperature measurements.
| Features |
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- Integral shutter configuration:
- 11.5 mm x 12.7 mm x 6.9 mm (without socket)
- 11.8 mm x 12.7 mm x 7.2 mm (with socket)
- 56° HFOV, 71° diagonal (f/1.1 silicon doublet)
- LWIR sensor, wavelength 8 µm to 14 µm
- Thermal sensitivity < 50 mK
- Increased scene dynamic range up to +400°C
- Integrated digital thermal image processing functions, including automatic thermal environment compensation, noise filters, non-uniformity correction, and gain control
- Radiometric accuracy (35°C blackbody) greater of:
- High gain: ±5°C @ 25°C
- Low gain: ±10°C @ 25°C
- Radiometry software features for temp measurement including per pixel and frame radiometric output (Tlinear) and spotmeter
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- 160 (h) × 120 (v) active pixels
- Export compliant frame rate (< 9 Hz)
- SPI video interface
- Two-wire I2C serial control interface
- Uses standard cell phone-compatible power supplies: 2.8 V to sensor, 1.2 V to digital core, and flexible IO from 2.8 V to 3.1 V
- Fast time to image (< 1.2 sec)
- Low operating power, nominal 140 mW
- < 150 mW overfull temp range
- ~800 mW typ during shutter event
- Low power shutdown mode (5 mW nominal)
- RoHS compliant
- 32-pin socket interface to standard Molex or similar side-contact connector
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| Applications |
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- Mobile phones
- Gesture recognition
- Building automation
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- Thermal imaging
- Night vision
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