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The Seibel effect is the basis for the thermocouple temperature sensor, which measures temperature. Current will flow through a closed loop formed by the two separate homogeneous conductors A and B when there is a temperature differential (T-T0) between the ends of the loop. By sensing the potential created by the current, the thermocouple temperature sensor determines the temperature of the hot spot being monitored.
One of the popular types of sensing components used to measure temperature in industrial applications are thermocouple temperature sensors. They are chosen from a variety of sensors, including semiconductors, resistance thermometer detectors, and thermistors (RTDs).
The most often used temperature sensors are thermocouple devices. This is due to the fact that thermocouples exhibit steady performance, a broad temperature measuring range, long-distance signal transmission, etc. They also have a straightforward structure and are simple to operate. Thermocouples make display, recording, and transmission simple by directly converting thermal energy into electrical impulses.
A loop is created by joining two wires with various components (known as thermocouples wire or thermodes). The pyroelectric effect is a phenomena where an electromotive force is produced in the loop when the junction's temperature varies. The thermoelectric potential, often known as the Seebeck effect, is the name given to this electromotive force.