Infrared thermometer

2009-03-22T03:44:53Z

208.186.134.103: /* See also */

{{unreferenced|date=December 2008}}
'''Infrared thermometers''' measure [[temperature]] using [[blackbody radiation]] (generally [[infrared]]) emitted from objects. They are sometimes called '''laser thermometers''' if a [[laser]] is used to help aim the thermometer, or '''non-contact thermometers''' to describe the device’s ability to measure temperature from a distance. By knowing the amount of infrared energy emitted by the object and its [[emissivity]], the object's temperature can be determined.

The most basic design consists of a lens to focus the infrared [[energy]] on to a [[detector]], which converts the energy to an [[electrical]] signal that can be displayed in units of temperature after being compensated for ambient temperature variation. This configuration facilitates temperature measurement from a [[distance]] without contact with the object to be measured. As such, the infrared thermometer is useful for measuring temperature under circumstances where [[thermocouples]] or other probe type sensors cannot be used or do not produce accurate data for a variety of reasons.

Some typical circumstances are where the object to be measured is moving; where the object is surrounded by an [[electromagnetic field]], as in [[induction heating]]; where the object is contained in a [[vacuum]] or other controlled atmosphere; or in applications where a fast response is required.

Infrared thermometers can be used to serve a wide variety of temperature monitoring functions. A few examples provided to this article include:
* Detecting clouds for remote telescope operation
* Checking mechanical equipment or electrical circuit breaker boxes or outlets for hot spots
* Checking heater or oven temperature, for calibration and control purposes
* Detecting hot spots / performing diagnostics in electrical circuit board manufacturing
* Checking for hot spots in fire fighting situations
* Monitoring materials in process of heating and cooling, for research and development or manufacturing quality control situations

There are many varieties of infrared temperature sensing devices available today, including configurations designed for flexible and portable handheld use, as well many designed for mounting in a fixed position to serve a dedicated purpose for long periods.

Specifications of portable handheld sensors available to the home user will include ratings of temperature accuracy (usually plus or minus a degree or two) and other parameters. The distance-to-spot ratio (D:S) is the ratio of the distance to the object and the diameter of the temperature measurement area. For instance if the D:S ratio is 12:1, measurement of an object 12 inches away will average the temperature over a 1-inch diameter area. The sensor may have an adjustable emissivity setting, which can be set to measure the temperature of reflective (shiny) and non-reflective surfaces. A non-adjustable thermometer can be used to measure the temperature of a shiny surface by applying a non-shiny paint or tape to the surface.

The most usual infrared thermometers are the:

* '''Spot Infrared Thermometer''' or '''Infrared [[Pyrometer]]''', which measures the temperature at a spot on a surface (actually a relatively small area determined by the D:S ratio).

Related equipment, although not strictly thermometers, are:


* '''Infrared Line Scanning Systems''' scan a larger area, typically by using what is essentially a spot thermometer pointed at a rotating mirror. These devices are widely used in manufacturing involving conveyors or "web" processes, such as large sheets of glass or metal exiting an oven, fabric and paper, or continuous piles of material along a conveyor belt.

* '''[[Thermographic camera|Infrared Cameras]]''' are essentially infrared thermometers which measure the temperature at many points over a relatively large area to generate a two-dimensional image, with each pixel representing a temperature. This technology is more processor- and software-intensive than spot or scanning thermometers, and is used for monitoring large areas. Typical applications include perimeter monitoring used by military or security personnel, inspection / process quality monitoring of manufacturing processes, and equipment or enclosed space hot or cold spot monitoring for safety and efficiency maintenance purposes. A [[photographic]] [[camera]] using [[infrared]] [[film]] and suitable lens, etc., is also called an ''infrared camera''.

==Gallery==
<gallery>
Image:IR_Thermometer_1.jpg|An early model of the [[Thermofocus]] IR thermometer
Image:IR_Thermometer_2.jpg|A doctor's IR thermometer in use, with the light indicating the measured area.
</gallery>

==External links==
{{Commons2|Thermography}}
*[http://www.raytek.com/Raytek/en-r0/IREducation/ Infrared Principles & Advantages of Using Infrared Thermometers from www.raytek.com]
*[http://www.infraspection.com Infraspection Institute]
*[http://www.irinfo.org IRINFO.ORG - The Definitive Online Resource for Infrared Thermography]
*[http://www.ukta.org UK Thermography Association]

==See also==
* [[Infrared camera]]
* [[Thermography]]
* [[ASTM_Subcommittee_E20.02_on_Radiation_Thermometry]]

[[Category:Thermometers]]

[[fr:Thermomètre infrarouge]]
[[id:Termometer infra merah]]
[[ja:放射温度計]]

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Infrared thermometer