▸Linecard

TELEDYNE FLIR Product Lines - Thermal Imaging and Measurement Instruments

TELEDYNE FLIR Applications

TELEDYNE FLIR is well-known for high quality thermal imaging cameras with high image quality, flexible features and precise measurement results. The applications are versatile and range from building technology (commercial, industrial and residential buildings), HVAC in general (heating, ventilation, air conditioning), environmental technology, up to testing equipment/machinery and assemblies. In addition to "pure" thermal imaging cameras, TELEDYNE FLIR also offers combination devices, for example digital multimeters or current clamps with IR camera, videoscopes (technical endoscopes/borescopes) and complete climate measuring devices including invasive and non-invasive moisture measurement.


"See the Sound"

  • Acoustic imaging system/camera.
  • Detects leaks in compressed air systems, partial discharge problems in high voltage electrical systems.
  • 124 microphones. Frequency range 2...31 kHz.

Helps utility, manufacturing and engineering professionals to identify efficiency losses and potential failures.


Product Highlights from TELEDYNE FLIR


Thermal Imaging Cameras - Infrared Radiation "Made Visible"

Thermal imaging cameras work similarly to commercially available digital cameras, but receive infrared radiation rather than visible light. For this reason, they are often referred to as infrared, thermal or thermographic cameras. The IR radiation is converted into visible light and reproduced as an image of the objects recorded (thermal image). A thermal imaging camera can therefore be used even in the dark, because it does not rely on visible light. Modern thermal imaging cameras can overlay this thermal image with a conventional image so that any additional "photographic" information that may be needed is also available. Interpreting a thermal image seems very intuitive at first glance, but requires some experience and knowledge. The thermal imaging camera captures thermal radiation emitted from surfaces. Therefore, it is not possible to "see through walls" with such a camera, for example. Different materials have different properties when it comes to thermal radiation. For example, glass blocks thermal radiation. A thermal imaging camera can therefore not see through glass.

Thermal imaging cameras are frequently used, for example, in the field of...

  • Industrial maintenance and repair (inspection and troubleshooting in plants, machines, electrical and electronic systems),
  • Safety and rescue (firefighting, rescue services, surveillance),
  • Environment and agriculture, wildlife monitoring,
  • Building services and construction (energy loss, air conditioning),
  • Automotive, aerospace and transportation,
  • and in general in science and research.

The most important technical data of a thermal imaging camera include...

  • Resolution: A high resolution provides a detailed thermal image. Specified as the number of pixels displayed on the screen.
  • Range: Maximum distance from which a thermal image can be produced (depending on the size of the lens, the sensitivity of the camera, etc.).
  • Accuracy: Specifies how accurately the measured thermal images and the actual temperature values match.

Get in Contact with the Meilhaus Electronic Team:

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