Editing Resistance thermometer (section)

==Calibration==
To characterize the ''R'' vs ''T'' relationship of any RTD over a temperature range that represents the planned range of use, calibration must be performed at temperatures other than 0&nbsp;°C and 100&nbsp;°C. This is necessary to meet calibration requirements. Although RTDs are considered to be linear in operation, it must be proven that they are accurate with regard to the temperatures with which they will actually be used (see details in Comparison calibration option). Two common calibration methods are the fixed-point method and the comparison method.{{citation needed|date=February 2016}}
;Fixed-point calibration: is used for the highest-accuracy calibrations by national metrology laboratories.<ref>{{cite web|last1=Strouse|first1=G. F.|title=Standard Platinum Resistance Thermometer Calibrations from the Ar TP to the Ag FP|date=2008|publisher=National Institute of Standards and Technology|location=Gaithersburg, MD| id=NIST Special Publication 250-81 |url=https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.250-81.pdf}}</ref> It uses the triple point, freezing point or melting point of pure substances such as water, zinc, tin, and argon to generate a known and repeatable temperature. These cells allow the user to reproduce actual conditions of the [[ITS-90]] temperature scale. Fixed-point calibrations provide extremely accurate calibrations (within ±0.001&nbsp;°C). A common fixed-point calibration method for industrial-grade probes is the ice bath. The equipment is inexpensive, easy to use, and can accommodate several sensors at once. The ice point is designated as a secondary standard because its accuracy is ±0.005&nbsp;°C (±0.009&nbsp;°F), compared to ±0.001&nbsp;°C (±0.0018&nbsp;°F) for primary fixed points.
;Comparison calibrations: is commonly used with secondary standard platinum resistance thermometers and industrial RTDs.<ref>{{Cite web |title=RESISTANCE TEMPERATURE DETECTOR – RTD |url=https://www.punetechtrol.com/product/resistance-temperature-detector-rtd |access-date=2023-11-04 |website=www.punetechtrol.com}}</ref> The thermometers being calibrated are compared to calibrated thermometers by means of a bath whose temperature is uniformly stable. Unlike fixed-point calibrations, comparisons can be made at any temperature between −100&nbsp;°C and 500&nbsp;°C (−148&nbsp;°F to 932&nbsp;°F). This method might be more cost-effective, since several sensors can be calibrated simultaneously with automated equipment. These electrically heated and well-stirred baths use [[silicone oil]]s and molten salts as the medium for the various calibration temperatures.