Abstract: A method of thermographic inspection includes absorbing, at an applique applied to a test area of an article, light from a testing light source. The method further includes emitting, by the applique, thermal radiation directed to a capture device, the thermal radiation corresponding to at least a portion of the light absorbed by the applique.

Abstract: A method of thermographic inspection includes absorbing, at an applique applied to a test area of an article, light from a testing light source. The method further includes emitting, by the applique, thermal radiation directed to a capture device, the thermal radiation corresponding to at least a portion of the light absorbed by the applique.

Abstract: An apparatus for determining a temperature of an object without contacting the object. An etalon filter may be used to receive spectral radiation of the object over a plurality of wavelengths and to generate a spectral output signal. A linear array detector may be used that is responsive to the spectral output signal from the etalon filter and adapted to generate an output indicative of the spectral radiation at each of one of the plurality of wavelengths. An actuator may be used that controls movement of one element of the etalon filter to assist in generating the output. A processor may be used which is responsive to the output of the linear array detector and which analyzes a known characteristic of a black body at a plurality of test temperatures, against the output of the linear array detector, to determine a specific temperature of the object.

Abstract: An apparatus for determining a temperature of an object without contacting the object. An etalon filter may be used to receive spectral radiation of the object over a plurality of wavelengths and to generate a spectral output signal. A linear array detector may be used that is responsive to the spectral output signal from the etalon filter and adapted to generate an output indicative of the spectral radiation at each of one of the plurality of wavelengths. An actuator may be used that controls movement of one element of the etalon filter to assist in generating the output. A processor may be used which is responsive to the output of the linear array detector and which analyzes a known characteristic of a black body at a plurality of test temperatures, against the output of the linear array detector, to determine a specific temperature of the object.

Abstract: A system and method for determining the temperature of an object without physically contacting the object. The method involves reading a spectral radiation of the object over a plurality of wavelengths to obtain a set of radiation data related to a temperature of the object. A known characteristic of a black body is determined at a plurality of predetermined, different test temperatures. The spectral data and the characteristic of the black body at the various test temperatures are used to calculate a temperature of the object.

Abstract: A system and method for determining the temperature of an object without physically contacting the object. The method involves reading a spectral radiation of the object over a plurality of wavelengths to obtain a set of radiation data related to a temperature of the object. A known characteristic of a black body is determined at a plurality of predetermined, different test temperatures. The spectral data and the characteristic of the black body at the various test temperatures are used to calculate a temperature of the object.

Abstract: A system for monitoring the concentration level of a gas in a monitored environment, e.g., for monitoring the concentration level of a fire suppression agent in the engine bay and/or cargo bay of an aircraft. The system includes a light source for producing source light, an optical system that directs the source light along a plurality of different optical paths having different respective optical path lengths, and a plurality of photodectors that are positioned to receive the source light that traverses different respective ones of the plurality of different optical path lengths, and which produce a plurality of output signals indicative of the concentration level of the gas in the monitored environment. In the preferred embodiment, the system further includes a narrow band spectral filter positioned between the light source and each photodetector, wherein the narrow band spectral filter has a narrow band pass that is matched to a selected optical absorption wavelength of the gas.