B57164K0470K055

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NTC thermistors are widely used temperature sensors with a wide range of applications and are commonly known as negative temperature coefficient thermistors, due to their resistance decreasing as the temperature increases. The B57164K0470K055 NTC thermistor is a popular model made to specific higher temperature ranges than other thermistors, and can be used in multiple types of applications. This article will explain the application field and working principles of the B57164K0470K055 NTC thermistor.

The B57164K0470K055 NTC thermistor is most commonly used in applications that require measuring, controlling, or monitoring high temperatures. It can be used to measure the temperatures as high as 375 °C and has a wide range of tolerances that allows for accurate readings. This makes the thermistor an ideal choice for applications such as kiln temperature control, hot spot temperature monitoring, and high temperature furnace/oven measurements. The thermistor is also a great choice for temperature control in medical applications and for measuring temperatures in hot plasmas.

The B57164K0470K055 NTC thermistor also has the capability to be used in higher temperature ranges than most thermistors, but it still provides reliable readings. The thermistor is also able to operate in environments that require specific calibration tolerances, with a tolerance as low as ±0.3°C for accurate readings. This makes it an ideal choice for more precision applications.

The working principles of NTC thermistors like the B57164K0470K055 are based on the principle of PTC behavior, which states that the resistance of an NTC thermistor decreases as the temperature increases. This is due to the fact that the NTC thermistor is made of a semiconductor material which has multiple properties. When the temperature rises, the thermistor’s semiconductor material changes its electrical current, causing its resistance to decrease with an increase in temperature.

When the thermistor is connected to a circuit, an electric current flows through the thermistor, and its resistance decreases with an increase in temperature. This decrease in resistance results in an increase in the temperature reading, meaning the higher the temperature, the lower the resistance of the thermistor. This is the same principle that applies to the B57164K0470K055 NTC thermistor when used in any type of application.

In conclusion, the B57164K0470K055 NTC thermistor is a popular model due to its high temperature range and reliable readings. It is most commonly used for applications that require a higher temperature range and its PTC based principles makes it an ideal choice for precision applications as well. It is used in many applications such as kiln temperature control, hot spot temperature monitoring, and high temperature furnace/oven measurements and is able to measure temperatures as high as 375 °C.

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