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The use of optical fiber for temperature sensing is expanding beyond safety applications. Optical sensors are replacing spot sampling in implementations that require accurate heat measurement and control.
The Industrial Internet of Things (IIoT) begins with obtaining data from field-located sensors. The reason is simple: These devices supply the information required for taking corrective action.
Thermalert 4.0 provides automatic, noncontact temperature measurement in harsh industrial environments. Intended for use with temperatures of -40 to 4082°F (-40 to 2250°C), the pyrometer series comprises 13 models with varied spectral responses, including dedicated sensors for metals, glass, plastics, paper and food products.
Noncontact temperature measurement is a key process metric in many industries, but there are many factors that influence accurate temperature measurement from a pyrometer. Here we look at the common influences on inaccurate temperature measurement.
Suited for applications where the temperature across an object is crucial, ISR 6-TI Advanced combines an infrared pyrometer with infrared imaging capabilities.
Pyrometer assemblies are made of a durable, erosion-resistant clay-graphite mix with special plasticity properties, which is then extruded into the proper shape.
There are many ways to measure temperature in a process. Sensors such as thermocouples, RTDs and infrared thermometers are the most common temperature sensors utilized today.
There are many ways to measure temperature in a process. Sensors such as thermocouples, RTDs and infrared thermometers are the most common temperature sensors utilized today.
