What characteristic distinguishes thermocouples in a pellet system?

Thermocouples in a pellet system are distinguished by their operation, which involves two different types of metals bonded together. When the metals are heated at the junction, they produce a voltage that correlates to the temperature difference between the junction and the reference point. This property allows them to effectively monitor temperature, making them ideal for applications requiring precise temperature readings, such as in a pellet stove or boiler system.

Using two different metals creates a thermoelectric effect, which is fundamental to the function of thermocouples. The ability to detect temperature changes across the junction helps maintain optimal operating conditions in a pellet system, ensuring safety and efficiency in heating.

In contrast to this characteristic, other options do not accurately represent the fundamental functionality of thermocouples. For instance, thermocouples do not produce digital signals; they generate an analog voltage that must be interpreted by additional equipment to provide a digital readout. Similarly, they do not consist of a single type of metal, nor are they limited to low temperatures; thermocouples can function across a wide range of temperatures, depending on the metals used.