FLIR A65 FOV 45° (30 Hz, ver. 2016) Lens also available 25°, 90°

The FLIR A65 has features and functions that make it the natural choice for anyone who uses PC software to solve problems and for whom 640 × 512 pixel resolution is sufficient.
Among its main features are GigE Vision and GenICam compliance, which makes it plug-and-play when used with software packages such as IMAQ Vision and Halcon.
Key Features:
  • Very affordable.
  • Compact
  • GigE Vision and GenICam compliant.
  • GigE Vision lockable connector.
  • PoE (power over Ethernet).
  • 8-bit 640 × 512 pixel images streamed at 30 Hz, signal linear
  • 14-bit 640 × 512 pixel images streamed at 30 Hz, signal and temperature linear
  • Synchronization between cameras possible.
  • 1x+1x GPIO.
  • Compliant with any software that supports GenICam, including National Instruments IMAQ Vision, Stemmers Common Vision Blox, and COGNEX Vision Pro.

Typical applications:

  • Automation and thermal machine vision.
  • Entry level “high-speed” R&D.
SKU: 75013-0101 Categories: , ,


Technical Specifications:

Imaging and optical data
IR resolution 640 × 512 pixels
Thermal sensitivity/NETD < 0.05°C @ +30°C (+86°F) / 50 mK
Field of view (FOV) 45° × 37°
Minimum focus distance 7.6 cm (3.0 in.)
Focal length 13 mm (0.5 in.)
Spatial resolution (IFOV) 1.31 mrad
F-number 1.25
Image frequency 30 Hz
Focus Fixed
Detector data
Detector type Focal plane array (FPA), uncooled VOX microbolometer
Spectral range 7.5–13 µm
Detector pitch 17 µm
Detector time constant Typical 12 ms
Object temperature range –25 to +135°C (–13 to 275°F)
–40 to +550°C (–40 to +1022°F)
Accuracy ±5°C (±9°F) or ±5% of reading
Measurement analysis
Atmospheric transmission correction Automatic, based on inputs for distance, atmospheric temperature and relative humidity
Optics transmission correction Automatic, based on signals from internal sensors
Emissivity correction Variable from 0.5 to 1.0
Reflected apparent temperature correction Automatic, based on input of reflected temperature
External optics/windows correction Automatic, based on input of optics/window transmission and temperature
Measurement corrections Global object parameters