- Resistance thermometer
Resistance thermometers, also called resistance temperature detectors (RTDs), are
temperature sensors that exploit the predictable change in electrical resistanceof some materials with changing temperature. As they are almost invariably made of platinum, they are often called platinum resistance thermometers (PRTs). They are slowly replacing the use of thermocouples in many industrial applications below 600 °C.
There are two broad categories, "film" and "wire-wound" types.
*"Film thermometers" have a layer of platinum on a substrate; the layer may be extremely thin, perhaps one micrometer. Advantages of this type are relatively low cost and fast response. Such devices have improved in performance although the different expansion rates of the substrate and platinum give "
strain gauge" effects and stability problems.
*"Wire-wound thermometers" can have greater accuracy, especially for wide temperature ranges. The coil diameter provides a compromise between mechanical stability and allowing expansion of the wire to minimize strain and consequential drift.
The current international standard which specifies tolerance and the temperature to electrical resistance relationship for platinum resistance thermometers is IEC 751:1983. By far the most common devices used in industry have a nominal resistance of 100 ohms at 0 °C, and are called Pt-100 sensors ('Pt' is the symbol for platinum). The sensitivity of a standard 100 ohm sensor is a nominal 0.385 ohm/°C. RTDs with a sensitivity of 0.375 and 0.392 ohm/°C are also available.
How do resistance thermometers work?
Resistance thermometers are constructed in a number of forms and offer greater stability,
accuracyand repeatabilityin some cases than thermocouples. While thermocouples use the Seebeck effectto generate a voltage, resistance thermometers use electrical resistanceand require a small power source to operate. The resistance ideally varies linearly with temperature.
Resistance thermometers are usually made using
platinum, because of its linear resistance-temperature relationship and its chemical inertness. The platinum detecting wire needs to be kept free of contamination to remain stable. A platinum wire or film is supported on a former in such a way that it gets minimal differential expansion or other strains from its former, yet is reasonably resistant to vibration. RTD assemblies made from iron or copper are also used in some applications.
Commercial platinum grades are produced which exhibit a change of resistance of 0.385 ohms/°C (European Fundamental Interval) The sensor is usually made to have a resistance of 100Ω at 0 °C. This is defined in BS EN 60751:1996 (taken from IEC 60751:1995) . The American Fundamental Interval is 0.392 Ω/°C, based on using a purer grade of platinum than the European standard. The American standard is from the Scientific Apparatus Manufacturers Association (SAMA), who are no longer in this standards field.
Resistance thermometers require a small current to be passed through in order to determine the resistance. This can cause resistive heating, and manufacturers' limits should always be followed along with
heat pathconsiderations in design. Care should also be taken to avoid any strains on the resistance thermometer in its application. Lead wire resistance should be considered, and adopting three and four wire connections can eliminate connection lead resistance effects from measurements - industrial practice is almost universally to use 3-wire connection. 4-wire connection need to be used for precise application.
Advantages and limitations
Advantages of platinum resistance thermometers:
*Wide operating range
*Suitability for precision applications
*RTDs in industrial applications are rarely used above 660 °C. At temperatures above 660 °C it becomes increasingly difficult to prevent the platinum from becoming contaminated by impurities from the metal sheath of the thermometer. This is why laboratory standard thermometers replace the metal sheath with a glass construction. At very low temperatures, say below -270 °C (or 3 K), due to the fact that there are very few
phonons, the resistance of an RTD is mainly determined by impuritiesand boundary scatteringand thus basically independent of temperature. As a result, the sensitivityof the RTD is essentially zero and therefore not useful.
thermistors, platinum RTDs are less sensitive to small temperature changes and have a slower response time. However, thermistors have a smaller temperature range and stability.
Resistance thermometer elements
Resistance thermometer elements are available in a number of forms. The most common are:
*Wire wound in a ceramic insulator - wire spiral within sealed ceramic cylinder, works with temperatures to 850 °C
*Wire encapsulated in glass - wire around glass core with glass fused homogenously around, resists vibration, more protection to the detecting wire but smaller usable range
*Thin film - platinum film on ceramic substrate, small and inexpensive to mass produce, fast response to temperature change
Resistance thermometer construction
These elements nearly always require insulated leads attached. At low temperatures PVC, silicon rubber or PTFE insulators are common to 250°C. Above this, glass fibre or ceramic are used. The measuring point and usually most of the leads require a housing or protection sleeve. This is often a metal alloy which is inert to a particular process. Often more consideration goes in to selecting and designing protection sheaths than sensors as this is the layer that must withstand chemical or physical attack and offer convenient process attachment points.
Resistance thermometer wiring configurations
The simplest resistance thermometer configuration uses two wires. It is only used when high accuracy is not required as the resistance of the connecting wires is always included with that of the sensor leading to errors in the signal. Using this configuration you will be able to use 100 metres of cable. This applies equally to balanced bridge and fixed bridge system.
In order to minimize the effects of the lead resistances a three wire configuration can be used. Using this method the two leads to the sensor are on adjoining arms, there is a lead resistance in each arm of the bridge and therefore the lead resistance is cancelled out. High quality connection cables should be used for this type of configuration because an assumption is made that the two lead resistances are the same. This configuration allows for up to 600 meters of cable.
The four wire resistance thermometer configuration even further increases the accuracy and reliability of the resistance being measured. In the diagram above a standard two terminal RTD is used with another pair of wires to form an additional loop that cancels out the lead resistance. The above
Wheatstone bridgemethod uses a little more copper wire and is not a perfect solution. Below is a better alternative configuration four-wire Kelvin connectionthat should be used in all RTDs. It provides full cancellation of spurious effects and cable resistance of up to 15 Ω can be handled. Actually in four wire measurement the resistance error due to lead wire resistance is zero.
The application of the tendency of
electrical conductors to increase their electrical resistancewith rising temperature was first described by Sir William Siemens at the Bakerian Lectureof 1871 before the Royal Societyof Great Britain. The necessary methods of construction were established by Callendar, Griffiths, Holborn and Wein between 1885 and 1900.
tandard resistance thermometer data
Temperature sensors are usually supplied with thin-film elements. These are rated in accordance with BS EN 60751:1996 as:
Text and images used by permission of Peak Sensors Ltd:
[http://www.peaksensors.co.uk/rtddatasheets.html Resistance Thermometer] Information
* [http://www.omega.com/rtd.html Intoduction to RTDs]
* [http://www.minco.com/tools/sensorcalc/rtd/default.aspx RTD resistance calculator]
* [http://content.honeywell.com/sensing/prodinfo/temperature/technical/c15_136.pdf "Platinum RTDs reference data"] from Honeywell Sensing and Control
* [http://www.uniteksys.com/Graphics/CalVan.pdf "The Callendar – van Dusen coefficients"] - How to calculate Callendar – van Dusen coefficients
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