THERMAL IMAGING

light and the microwave region used for high-definition radar. The IR region of the electromagnetic spectrum lies between wavelengths of 0.72 and 1,000 micrometers. Discussion of the IR region is usually in terms of wavelength rather than frequency. NOTE: A basic knowledge of IR detection principles is essential to understanding thermal imaging and the FLIR system as discussed in this chapter. If needed, you should review IR detection principles in Aviation Electronics Technician 3, NAVEDTRA 12329, before reading this chapter. THERMAL IMAGING Learning Objective: Recognize functions, characteristics, components, and operating principles of thermal or infrared imaging. Infrared radiation is also known as thermal or heat radiation. Most materials emit, absorb, and/or reflect radiation in the IR region of the electromagnetic spectrum. For example, an aircraft parked on a sunlit runway absorbs and radiates varying amounts of IR radiation. After the sun sets, the aircraft continues to radiate the absorbed heat, making detection at night possible. Even if the aircraft is moved, detection of the aircraft is possible because the runway surface, which was directly below the aircraft, will be cooler than the surrounding runway. Thermal imaging is referenced in terms of temperature instead of reflectivity (radar) or color (visible light). Variations of the temperature in a scene tend to correspond to details that can be visually detected. The IR imaging system processes this information and converts it into information that the system operator can use. Currently, the types of imaging systems generally used are mechanical- scanning, fast-framing devices. They use the frame rate (information update rate) that is similar to television. They are known as forward-looking infrared (FLIR) devices. Before a target can be detected, it must exchange energy with its environment, be self-heating, have emissivity differences, and reflect other sources. Look at figure 6-2. Notice the atmosphere between Figure 6-2.-Thermal imaging. 6-2