Difference between revisions of "Analog Temperature Sensor Module"
(→Resorce) |
(→Resorce) |
||
Line 19: | Line 19: | ||
=='''Resorce'''== | =='''Resorce'''== | ||
− | [ | + | [http://wiki.sunfounder.cc/index.php?title=File:Thermistor_datasheet.pdf Thermistor_datasheet] [[File:PDF.jpg]]<br> |
[https://www.sunfounder.com/learn/Sensor-Kit-v2-0-for-Arduino/lesson-4-analog-temperature-sensor-sensor-kit-v2-0-for-arduino.html Test Experiment for Arduino][[File:LINK.jpg]]<br> | [https://www.sunfounder.com/learn/Sensor-Kit-v2-0-for-Arduino/lesson-4-analog-temperature-sensor-sensor-kit-v2-0-for-arduino.html Test Experiment for Arduino][[File:LINK.jpg]]<br> | ||
[https://www.sunfounder.com/learn/sensor-kit-v2-0-for-raspberry-pi-b-plus/lesson-18-temperature-sensor-sensor-kit-v2-0-for-b-plus.html Test Experiment for Raspberry Pi][[File:LINK.jpg]] | [https://www.sunfounder.com/learn/sensor-kit-v2-0-for-raspberry-pi-b-plus/lesson-18-temperature-sensor-sensor-kit-v2-0-for-b-plus.html Test Experiment for Raspberry Pi][[File:LINK.jpg]] |
Revision as of 07:33, 20 March 2017
Introduction
A temperature sensor is a component that senses temperature and converts it into output signals. By material and component features, temperature sensors can be divided into two types: thermal resistor and thermocouple. Thermistor is one kind of the former type. It is made of semiconductor materials; most thermistors are negative temperature coefficient (NTC) ones, the resistance of which decreases with rising temperature. Since their resistance changes acutely with temperature changes, thermistors are the most sensitive temperature sensors.
Principle
The Analog Temperature Sensor module uses an NTC thermistor, thus measuring temperature sensitively. It also has a built-in comparator LM393 which enables the module to output both digital and analog signals at the same time. The module can be used for temperature alarm and temperature measurement.
The schematic diagram of the module is as follows:
Features
1) An NTC thermistor sensor is included, supporting high sensitivity.
2) A comparator LM393 is contained, so it can output both digital and analog signals at the same time.
3) Include a potentiometer to adjust the threshold of detection.
4) Working voltage: 3.3V-5V; PCB size: 2.3 x 2.3 cm
5) High measurement accuracy with a wide range, good stability, and strong overload capacity.
6) B25:3950;R25;10K
Application
The module can be applied to temperature detection, temperature control sensor, and ambient temperature detection, as well as temperature alarm.
Resorce
Thermistor_datasheet
Test Experiment for Arduino
Test Experiment for Raspberry Pi