Title :
Characterization and Energy Absorption Efficiency Determination of LED as an Effective Photothermal Excitation Source in Lock-In Thermography
Author :
Roy, Deboshree ; Chatterjee, Krishnendu ; Tuli, Suneet
Author_Institution :
Centre for Appl. Res. in Electron., IIT Delhi, Delhi, India
Abstract :
This paper studies the use of light-emitting diode (LED) as an excitation source for photothermal lock-in experiments, and investigates the energy absorption efficiency and signal-to-noise ratio of the established setup. Existing lock-in excitation sources usually use high power (in the range of kilowatt) halogen lamps. The present LED excitation source has an advantage of low power consumption making the setup much more energy efficient. Another advantage of LED in this paper is their low infrared (IR) content, in contrast to halogen lamps, the IR content gets reflected into the IR camera, and leads to an unpredicted change in phase image in lock-in thermography.
Keywords :
cameras; filament lamps; infrared imaging; light absorption; light emitting diodes; photothermal effects; IR camera; IR content; LED excitation source; energy absorption efficiency; halogen lamp; infrared content; light-emitting diode; lock-in excitation source; lock-in thermography; phase imaging; photothermal excitation source; power consumption; signal-to-noise ratio; Cameras; LED lamps; Optical imaging; Sensors; Surface waves; Infrared Imaging; Infrared imaging; LED lamp photothermal characterization; Lock-in thermography NDT; Photothermal effects; lock-in thermography NDT; photothermal effects;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2015.2453358
