Common Industrial Temperature Testing and Measurement Devices

When it comes to industrial testing and measurement, it is absolutely essential. The types of equipment that are in use must meet specific standards. Ensure that quality standards meet and that the devices used are of the highest possible quality. The recommendation is on the higher side that owners and operators use professional measuring devices. This way Can easily detect problems during measurements early on before they lead to significant damage or loss of material. Can avoid many common industrial testing and measurement problems. So, it is always wise to invest in some industrial testing and measurement equipment.

Industrial Temperature Testing and Measurement Devices

When it reaches to take a temperature reading for industrial applications, there are several possible options available. Some of the more common devices practised are pyrometers, thermocouples, and resistance RTDs. Many temperature measurement tools are used in industries nowadays, depending on what you endeavour to measure and how precisely you need to monitor it. If you want to use it for control or just for monitoring, you can even touch what you are trying to monitor. 


Resistance Temperature Detectors are contact type sensors that work under the principle that the resistance of a metal changes instantly with temperature. Resistance Temperature Detector use pure elements like platinum, for which a multitude of international standards institutes has well documented the resistance. The metal has a foreseen shift in opposition as the temperature changes; this variation is normally use for managing the temperature. There is some applicability where an exposed sensor is proper and assists the purpose. Typically manufacturing RTDs includes a protective sheath that provides an airtight seal to protect the sensor from contamination or moisture. These protecting sheaths offer various lengths to precisely insert the method to achieve a representative measurement.


Thermocouples are also contacting temperature measuring sensors, consisting of two distinctive metals fused at one end. When the junction of metals is cool down or gets heat up, it produces a voltage that can compare back to a temperature. For most industrial utilisation, the thermocouple has been the conventional alternative over the years for various reasons. Thermocouples are comparatively economical and can produce in different sizes. They can be of solid construction, cover a broad temperature range from 260C to 2760C, and are obtainable in regular and superior grade types.

All reliable temperature indicator, transmitter, controller, or data logger allows a direct thermocouple input. For many applications, this is a feasible solution. However, thermocouples offer a very small micro-volt output per degree shift in temperature, which is very sensitive to environmental influences. Electromagnetic interference from electrical distribution and motors, mainly radio frequency interference from walkie-talkies, can create climactic errors in measuring circuits in these devices.


There are plenty of applications where contact-type temperature sensors are unsuitable, and a non-contact type device is needed. Here is where the pyrometer comes into the picture. Infrared pyrometers render the non-contact type of temperature measurements. It can obtain by measuring infrared energy; the higher the temperature of the object, the more infrared energy it will emit. The volume of the emitted energy is directly proportionate to the object’s temperature; this enables pyrometers to be used as a non-contact type temperature measurement sensor. 

Since all objects emit infrared energy, this supplies pyrometers an account. In contrast, other temperature regulating tools or devices like Resistance Temperature Detectors and thermocouples must directly contact the intended energy source. Alike pyrometers, thermocouples come in many several forms and sizes. 

In Nutshell

Temperature is one of the usually determined parameters within industry and science. Correct measurement is of great importance to the quality of the product and security and energy consumption.