Datasheet
GPI/O
RXD
TXD
CS
SI/O
SC
V
+
GND
0.1 PF
Intel
196
Micro-
Controller
LM95071/
LM95071-Q1
+5V
LM95071, LM95071-Q1
SNIS137D –AUGUST 2004–REVISED SEPTEMBER 2013
www.ti.com
APPLICATION HINTS
THERMAL PATH CONSIDERATIONS
To get the expected results when measuring temperature with an integrated circuit temperature sensor like the
LM95071/LM95071-Q1, it is important to understand that the sensor measures its own die temperature. For the
LM95071/LM95071-Q1, the best thermal path between the die and the outside world is through the
LM95071/LM95071-Q1's pins. In the SOT-23 package, all the pins on the LM95071/LM95071-Q1 will have an
equal effect on the die temperature. Because the pins represent a good thermal path to the LM95071/LM95071-
Q1 die, the LM95071/LM95071-Q1 will provide an accurate measurement of the temperature of the printed circuit
board on which it is mounted. There is a less efficient thermal path between the plastic package and the
LM95071/LM95071-Q1 die. If the ambient air temperature is significantly different from the printed circuit board
temperature, it will have a small effect on the measured temperature.
OUTPUT CONSIDERATIONS: TIGHT ACCURACY, FINE RESOLUTION AND LOW NOISE
The LM95071/LM95071-Q1 is well suited for applications that require tight temperature measurement accuracy.
In many applications, from process control to HVAC, the low temperature error can mean better system
performance and, by eliminating a system calibration step, lower production cost.
With it's fine digital resolution the LM95071/LM95071-Q1 senses and reports very small changes in its
temperature, making it ideal for applications where temperature sensitivity is important. For example, the
LM95071/LM95071-Q1 enables the system to quickly identify the direction of temperature change, allowing the
processor to take compensating action before the system reaches a critical temperature.
The LM95071/LM95071-Q1 has very low output noise (see Figure 9 in the Typical Performance section), which
makes it ideal for applications where stable thermal compensation is a priority. For example, in a temperature-
compensated oscillator application, the very small deviation in successive temperature readings translates to a
stable frequency output from the oscillator.
Typical Applications
Figure 14. Temperature monitor using Intel 196 processor
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Product Folder Links: LM95071 LM95071-Q1