Thermal Camera and Black Body Calibration
Infrared Cameras Inc has facilities for thermal camera and black body calibration as well as repair for all ICI infrared thermal imaging cameras and products.
Full Calibration is available for almost every “flir” (forward looking infrared) thermal imaging camera on the market today. Our professional staff can calibrate your infrared camera to ISO 9001 standards. It is recommended that you re-calibrate your camera every year for maximum performance and to ensure accuracy. Each calibration comes with a calibration certificate.
ICI Calibration Procedure
- Visually inspect system.
- Check operational condition.
- Diagnose and complete any necessary repairs.
- Clean all viewing and optical components.
- Upgrade software to latest version.
- Place in calibration chamber and allow system to acclimate to environment.
- Check calibration across each temperature range of camera.
- Determine any temperature compensation necessary.
- Calibrate to specifications.
- Review and confirm calibration data.
- Test system to confirm quality and accuracy of calibration.
- Provide Certificate of Calibration.
Black Bodies and Calibration
A black body is an idealized physical body that absorbs all incident electromagnetic radiation, regardless of frequency or angle of incidence. When in constant equilibrium, a black body emits electromagnetic radiation which is emitted according to Planck’s law, meaning that it has a spectrum that is determined by the temperature alone (see figure at upper right), not by the body’s shape or composition. A white body is one with a “rough surface [that] reflects all incident rays completely and uniformly in all directions.”
A black body in thermal equilibrium has two notable properties:
- It is an ideal emitter: at every frequency, it emits as much energy as – or more energy than – any other body at the same temperature.
- It is a diffuse emitter: the energy is radiated isotropically, independent of direction.
An approximate realization of a black surface is a hole in the wall of a large enclosure (see below). Any light entering the hole is reflected indefinitely or absorbed inside and is unlikely to re-emerge, making the hole a nearly perfect absorber. The radiation confined in such an enclosure may or may not be in thermal equilibrium, depending upon the nature of the walls and the other contents of the enclosure.
Real materials emit energy at a fraction—called the emissivity—of black body energy levels. By definition, a black body in thermal equilibrium has an emissivity of ε = 1.0. A source with lower emissivity independent of frequency often is referred to as a gray body. Construction of black bodies with emissivity as close to one as possible remains a topic of current interest.