Thermistor: Difference between revisions

A common temperature sensor is a Thermistor, which is a device with a temperature-dependent resistance ${\displaystyle R(T)}$ and a negative temperature coefficient (NTC), i.e., the Resistance decreases with temperature, or ${\displaystyle {\partial R(T) \over \partial T}<0}$. Therefore, thermistors are sometime referenced as NTC sensors.

Their resistances can be described by a Steinhardt-Hart equation, which relates resistance R and absolute temperature T:

${\displaystyle {\frac {1}{T}}=a+b\ln R+c(\ln R)^{3}}$

Usually, the coefficients ${\displaystyle a,b,c}$ are not specified in a data sheet of a device. More commonly, three things are quoted/specified:

• Reference temperature, typically 25 Celsius; sometimes this is not even mentioned explicitly
• Resistance R₀ at the reference temperature (typically 25 Celsius). Often, R₀=10kΩ.
• Characteristic of the exponential, the constant B=1/b in the above expression. Typically around 4000 Kelvin.

These parameters can be used with a simplified Steinhart-Hart equation, which assumes c=0 in the expression above. Then, the equation becomes

${\displaystyle {\frac {1}{T}}=A+B\ln R}$

or

${\displaystyle R=R_{0}e^{B({1 \over T}-{1 \over T_{0}})}}$.

The absoute temperature then can be obtained by inverting the equation above:

${\displaystyle T=\left({1 \over T_{0}}+{1 \over B}\ln {R \over R_{0}}\right)^{-1}}$