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Reflected Apparent Temperature; Object Too Far Away; Publ. No. 1558439 Rev. A156 - English (En) - February 28, 2006 - FLIR ThermaCAM EX300 User Manual

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User manual (164 pages)

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Table of Contents

7 – Introduction to thermographic inspections of electrical installations

7.7.4

You are in a measurement situation where there are several hot sources that influence

your measurement. You need to have the right value for the reflected apparent tem-

perature to input into the camera and thus get the best possible correction. Do it in

this way: set the emissivity to 1.0. Adjust the camera lens to near focus and, looking

in the opposite direction away from the object, save one image. With the area or the

isotherm, determine the most probable value of the average of the image and use

that value for your input of reflected apparent temperature.

7.7.5

Are you in doubt that the camera you have is measuring correctly at the actual dis-

tance? A rule of thumb for your lens is to multiply the IFOV by 3. (IFOV is the detail

of the object seen by one single element of the detector). Example: 25 degrees cor-

respond to about 437 mrad. If your camera has a 120 × 120 pixel image, IFOV be-

comes 437/120 = 3.6 mrad (3.6 mm/m) and your spot size ratio is about

1000/(3 × 3.6)=92:1. This means that at a distance of 9.2 meters (30.2 ft.), your target

has to be at least about 0.1 meter or 100 mm wide (3.9"). Try to work on the safe side

by coming closer than 9 meters (30 ft.). At 7–8 meters (23–26 ft.), your measurement

should be correct.