Product category:
Temperature measurement: IR techniques
News Release from: Calex Electronics | Subject: VL700 REC
Edited by the Processingtalk Editorial
Team on 06 April 2007
Reflected energy compensation, a secret
weapon
Measuring a target with a low emissivity value can be difficult at the best of times, but when the target is inside a hot oven and the sensor outside, it can be virtually impossible: until now!
Measuring a target with a low emissivity value can be difficult at the best of times, but when the target is inside a hot oven and the sensor is mounted outside the oven, it can be virtually impossible, without the right equipment The emissivity compensation in standard infrared temperature sensors is not equipped for a situation like this, as it assumes that the target being measured is in the same ambient environment as the sensor itself, which can lead to large errors in the measured temperature
This article was originally published on Processingtalk on 31 Aug 2004 at 8.00am (UK)
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The VL700 can provide the solution in this situation with its cutting edge Reflected Energy Compensation feature.
The energy that an infrared temperature sensor measures is composed of three elements; the energy radiated by the target, the energy reflected by the target and energy transmitted through the target.
Most solid targets are opaque at infrared wavelengths and as such the third of these elements can be eliminated.
This leaves the combined radiated and reflected energy from the target as the source of the infrared sensor measurements.
Most infrared sensors measure the ambient temperature where they are positioned, and then assume that any reflections from the target are from a source at the same temperature.
They compare their ambient temperature reading with the infrared energy received from the target, and perform a calculation based on their emissivity setting, to give the "real" temperature of the target.
If the ambient temperature where the sensor is positioned is different to that where the target is located then the calculated "real" temperature of the target will be wildly inaccurate, as the reflections coming from the target from its surroundings will not be properly taken into account.
The VL700 does not suffer from this problem as its Reflected Energy Compensation feature allows it to accurately compensate for reflections from the target.
The actual background temperature where the target is situated can be input into the VL700 in the same way as the emissivity of the target, and it then uses this value when performing the emissivity correction.
In such situations this allows the VL700 to provide much more accurate measurements of reflective targets than standard infrared temperature sensors.
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