RTD TEMPERATURE SENSOR


A resistance temperature detector, also known as an RTD or resistance thermometer, is a type of temperature sensor. An RTD consists of a sensing element, wires to connect the sensing element to the measurement instrument, and support to position the sensing element in the process.
A PT100 sensor is the most common type of Resistance Thermometer (RTD). These sensors are a well-liked choice in many industries, mainly laboratories and industrial processes. The main reason for their use is due to their stability and accuracy. They are superior measuring instruments that provide confidence in terms of repeatability. Be assured that you will get the same results for each temperature readout. >RTDs are categorised into industrial, as well as general purpose. Each type is available as a PT100, PT250, PT500, and PT1000. (“Pt” is the symbol for platinum, “100” for the resistance in ohms at 0 °C). is defined as an electrical resistance between two points of a conductor when a constant potential difference of one volt, applied to these points, produces in the conductor a current of one ampere, the conductor not being the seat of any electromotive force. … These are called linear resistors.



Material Usable Temperature Range
Platinum -200°C to 850°C
Nickel -100°C to 315°C
Copper -75°C to 150°C

The type of wire insulation used in an RTD also influences the temperature an RTD can be exposed to. Table 2A. refers to the most commonly used wire and insulation materials and their temperature limits. Table 2B. refers to the wires that connect the sensing element to the control instrument or readout and temperature limits. Typical choices for wire insulation include nickel, nickel alloys, tinned copper, silver-plated copper or nickel-plated copper.


Table 2A: Connecting Wire Temperature Limits – Construction
Wire / Insulation Materials Maximum Usage Temperature
Nickel Plated Copper/TFE PTFE Insulated 250°C
Solid Nickel Wire 650oC
Solid Copper Wire 300oC
Table 2B: Connecting Wire Temperature Limits – Extension
Wire / Insulation Materials Maximum Usage Temperature
Tinned Copper/PVC Insulated 105°C
Silver Plated Copper/FEP PTFE Insulated 205°C
Silver Plated Copper/TFE PTFE Insulated 250°C
Nickel Plated Copper/TFE PTFE Insulated 250°C
Nickel Plated Copper/Fibreglass Insulated 480°C

For RTD construction, there are two methods most used. The most common is to place the RTD element and attached wires into a metal tube with a closed-end. The tube is packed with a vibration dampening and/or heat transfer material, alumina powder in most cases, and seal the open end with silicone, epoxy, or ceramic cement.
An alternate construction method is the use of a mineral insulated metal sheath (MIMS) cable. The RTD element is inserted into a drilled hole and attached to nickel or copper wires insulated by Magnesium Oxide (MgO). The end is also insulated with MgO and welded closed. The other end has extension wires attached prior to sealing.
Once the temperature range and application has been determined, Pyrosales will select the most suitable materials and method of construction of the RTD.

2, 3 or 4 wire configuration


2-wire construction is the least accurate. 2-wire RTDs tend to be used with short lead wires or where close accuracy is not required.
3-wire construction is the most popular choice for industrial applications, whilst 4-wire construction is used in laboratories where close accuracy is imperative.


There are many options to consider when choosing the correct RTD element for your requirements:
1. Temperature rating
2. Tolerance, accuracy, and interchange ability
3. Time response
4. Distance from control or measuring equipment
RTDs are suitable for many applications across a wi de range of industries including, air conditioning and refrigeration, stoves and grills, textile production, food processing, plastics, petrochemical, and temperature measurement of air, gases, and liquids. Use an RTD when you require accuracy and stability and where accuracy must extend over a wide temperature range.

Pt100 features:
• A Platinum Resistant thermometer
• -200°C to 650°C temperature range
• ±0.1°C Accuracy
• 100Ω at 0°C Nominal resistance

Where should a PT100 be used?
A PT100 can be used in any application needing a high measuring capability. Because of its construction, it can be used in applications from laboratories, to more rugged and harsh environments. More information
A PT100 is essentially an instrument falling in the Platinum Resistant Thermometer category (PRT). The sensor has a variable resistor which changes resistance based on the temperature around the instrument.