What is a thermocouple's sensitivity?

What is a thermocouple's sensitivity?

Thermocouple sensitivity refers to the amount of voltage (or electromotive force, EMF) generated by the thermocouple per unit of temperature difference between its two junctions. It is a measure of how responsive a thermocouple is to changes in temperature. Sensitivity is typically expressed in microvolts per degree Celsius (µV/°C) or microvolts per degree Fahrenheit (µV/°F), and it varies depending on the type of thermocouple (due to the different metal alloys used) and the temperature range.

Key Points About Thermocouple Sensitivity:

Material-Specific Sensitivity:

Different thermocouple types (e.g., Type K, Type J, Type T) have different sensitivities because they are made of different materials. For example, a Type K thermocouple (Chromel/Alumel) is known for its relatively high sensitivity compared to some other types.

For instance:

Type K: Around 20 µV/°C at 0°C (the sensitivity decreases at higher temperatures).

Type J: Around 50 µV/°C at 0°C.

Type T: Around 40 µV/°C at 0°C.

Type E: Around 68 µV/°C at 0°C, which is one of the highest sensitivities.

Temperature Range:

The sensitivity of a thermocouple is not constant across its entire temperature range. As the temperature increases, the rate at which the thermocouple generates voltage changes.

For instance, Type K thermocouples have a relatively higher sensitivity in the lower temperature range (e.g., 0°C to 300°C) but become less sensitive at higher temperatures (above 1000°C).

Voltage Generation (EMF):

Thermocouples produce a small voltage as a result of the Seebeck effect (the generation of an electric potential due to a temperature gradient). The amount of voltage produced is proportional to the temperature difference between the two junctions (the measuring junction and the reference junction).

For a typical Type K thermocouple, at 1°C temperature difference, the EMF generated is approximately 20 microvolts.

Impact of Sensitivity on Measurement:

High Sensitivity: A thermocouple with high sensitivity (like Type E) produces more voltage per degree of temperature change, which can result in a more easily measurable signal. This can be beneficial in applications requiring high accuracy at low temperatures.

Low Sensitivity: A thermocouple with low sensitivity (like Type S or Type R) may generate smaller voltage changes for the same temperature change, which can make accurate readings more difficult, especially in low-temperature ranges. However, these types are often used in high-temperature environments (e.g., furnaces, kilns).