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Maintaining the right temperature of the device allows you to significantly extend its life while protecting it from failure or damage. When preparing a piece of equipment for operation, care must be taken to ensure proper ambient temperature and favourable conditions, as well as a good monitoring system using the best quality components and sensors.
The question remains to be answered: how do temperature sensors work? This largely depends on the type of sensor and its mechanism of operation. Manufacturers also use their own technologies to stand out from the competition present on the market. In this article we will focus on the most popular sensors and describe what they are based on.
Thermoresistive sensors
The operation of these sensors is based on the change in resistance as a function of temperature. As the temperature increases, the resistance of the sensor can either decrease or increase, usually nonlinearly. Each sensor has its own thermoelectric characteristics, which are adjusted according to the material used in the sensor. On this basis, we can determine the nature of resistance changes depending on the temperature.
Each thermoresistor has a nominal resistance, i.e. a resistance value at the reference temperature (usually 0 °C) and a specific sensitivity, calculated by the ratio of the resistance at 100 °C to the resistance at the nominal temperature.
Thermoelectric sensors (thermocouples)
The operation of thermocouples is based on the Seebeck phenomenon - the formation of a potential difference at the point of contact of two different metals, which is proportional to the difference in their temperatures. Each thermocouple has different properties that depend on the types of metals used in it. There are specific types of thermocouples, which are outlined in standards related to temperature sensors.
Each thermocouple has different temperature characteristics, therefore, for their proper operation, special control systems are used, which through built-in linearization components, allow for correct reading of the measured temperature. Additionally, systems based on thermocouples are small in size, do not need additional power supply and are reliable.
Solid-state sensors work in the same way as thermoresistive sensors. The only difference is the sign of the coefficient of resistance change that thermistors can have. There are NTC (negative sign) and PTC (positive sign) thermistors. NTC thermistors are mainly used for temperature compensation in devices and limiting values of inrush currents. PTC thermistors can be found, for example, in signaling systems as protection against overcurrent.
The principle of integrated sensors is that the temperature is measured by a measuring element and then processed by circuitry housed in a single integrated circuit enclosure. Semiconductor sensing elements are based on using the base-emitter junction voltage. As the temperature increases, the voltage decreases accordingly. Such sensors are most commonly found in electronic devices to protect their circuits from excessive heating, which can lead to irreversible damage.
Each temperature sensor is characterized by properties specific to its construction. Depending on those properties, they differ in their operating principle and the way they process input signals. In this way, for each application we will find the type of sensor that best fulfils its role, for example when working indoors or outdoors.
More information about temperature sensors can be found on our website: temerature sensors dacpol.eu.
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