This practice covers the determination of the noise equivalent temperature difference (NETD; NEΔT) of thermal imaging systems of the conventional forward-looking infrared (FLIR) or other types that utilize an optical-mechanical scanner; it does not include charge-coupled devices or...
This test method gives an objective measure of the temperature sensitivity of a thermal imaging system (relative to a standard reference filter) exclusive of a monitor, with emphasis on the detector(s) and preamplifier. Note 1-Test values obtained under idealized laboratory conditions...
These practices cover the evaluation of the effect of various solvents, light, heat, and humidity on direct thermal imaging products. These practices may be used to evaluate the performance of thermal products coated on paper, film, or other substrate for specific applications....
1.1 These practices cover the evaluation of the effect of various solvents, light, heat, and humidity on direct thermal imaging products. 1.2 These practices may be used to evaluate the performance of thermal products coated on paper, film, or other substrate for specific...
1.1 This guide covers the evaluation, qualification, and quantification of digital neutron images. These images can be acquired by many methods, including: neutron sensitive imaging plates (Computed Radiography - CR), Digital Detector Arrays - DDA's (amorphous silicon, CMOS,...
1.1 These practices cover the evaluation of the effect of various solvents, light, heat, and humidity on direct thermal imaging products. 1.2 These practices may be used to evaluate the performance of thermal products coated on paper, film, or other substrate for specific...
1.1 This test method covers the determination of the minimum detectable temperature difference (MDTD) capability of a compound observer-thermal imaging system as a function of the angle subtended by the target. 1.2 This standard does not purport to address all of the safety problems,...
This test relates to a thermal imaging system's effectiveness for discerning details in a scene. MRTD values provide estimates of resolution capability and may be used to compare one system with another. (Lower MRTD values indicate better resolution.) Note 1-Test values obtained under...
1.1 This test method covers the measurement of thermal response of various direct thermal imaging papers or other thermal-coated substrates used for facsimile, labels, medical recorders, plotters, and printers. 1.2 The Atlantek Thermal Response Tester Model 200...
1.1 This practice covers the fabrication of Sensitivity Indicators (SI), which can be used to determine the relative quality of film radiographic images produced by direct, thermal neutron radiographic examination. 1.2 Units-The values stated in inch-pound units are to be regarded as...
This test method covers the measurement of thermal response of various direct thermal imaging papers or other thermal-coated substrates used for facsimile, labels, medical recorders, plotters, and printers. The Atlantek Thermal Response Tester Model 200 described...
This test method gives an objective measure of the temperature sensitivity of a thermal imaging system (relative to a standard reference filter) exclusive of a monitor, with emphasis on the detector(s) and preamplifier. Note 1-Test values obtained under idealized laboratory conditions...
1.1 These practices cover the evaluation of the effect of various solvents, light, heat, and humidity on direct thermal imaging products. 1.2 These practices may be used to evaluate the performance of thermal products coated on paper, film, or other substrate for specific...