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# M20 View Datasheet(PDF) - STMicroelectronics

 Part Name Description Manufacturer M20 Ultra-low Current 2.4V precision analog temperature sensor STMicroelectronics
M20 Datasheet PDF : 17 Pages
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STLM20
2
Transfer function
Transfer function
The STLM20’s transfer function can be described in different ways, with varying levels of
precision. A simple linear transfer function, with good accuracy near 25°C is expressed as:
Equation 1
VO = (1169mV) ⁄ ° C × T + 18663V
Over the specified operating temperature range, the best accuracy can be obtained by using
the parabolic transfer function:
Equation 2
VO = (388 × 106 × T2) + (115 × 102 × T) + 18639
and solving for T:
Equation 3
T = 148196 + 21962 × 106 + (---1-----8---6---3---9-----–----V----O----)-
388 × 106
The best fit linear transfer function for many popular temperature ranges was calculated in
Table 2, where the error introduced by the linear transfer function increases with wider
temperature ranges.
Table 2. First order equations optimized for different temperature ranges
Temperature range
Tmin (°C) Tmax (°C)
Linear equation
VO =
Maximum deviation of linear
equation from parabolic equation
(°C)
–55
130
–11.79mV/°C * T + 1.8528V
±1.41
–40
110
–11.77mV/°C * T + 1.8577V
±0.93
–30
100
–11.77mV/°C * T + 1.8605V
±0.70
–40
85
–11.67mV/°C * T + 1.8583V
±0.65
–10
65
–11.71mV/°C * T + 1.8641V
±0.23
35
45
–11.81mV/°C * T + 1.8701V
±0.004
20
30
–11.69mV/°C * T + 1.8663V
±0.004
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