Ks0022 keyestudio LM35 Linear Temperature Sensor: Difference between revisions
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==Introduction== | ==Introduction== | ||
LM35 Linear Temperature Sensor is based on semiconductor LM35 temperature sensor. It can be used to detect ambient air temperature. This sensor offers a functional range among 0 degree Celsius to 100 degree Celsius. Sensitivity is 10mV per degree Celsius. The output voltage is proportional to the temperature. <br> | LM35 Linear Temperature Sensor is based on semiconductor LM35 temperature sensor. It can be used to detect ambient air temperature. <br> | ||
This sensor is commonly used as a temperature measurement sensor. It includes thermocouples, platinum resistance, and thermal resistance and temperature semiconductor chips. The chip is commonly used in high temperature measurement thermocouples. Platinum resistance temperature sensor is used in the measurement of 800 degrees Celsius, while the thermal resistance and semiconductor temperature sensor is suitable for measuring the temperature of 100-200 degrees or below, in which the application of a simple semiconductor temperature sensor is good in linearity and high in sensitivity. The LM35 linear temperature sensor and sensor-specific Arduino shield can be easily combined | This sensor offers a functional range among 0 degree Celsius to 100 degree Celsius. Sensitivity is 10mV per degree Celsius. The output voltage is proportional to the temperature.<br> | ||
This sensor is commonly used as a temperature measurement sensor. It includes thermocouples, platinum resistance, and thermal resistance and temperature semiconductor chips. <br> | |||
The chip is commonly used in high temperature measurement thermocouples. Platinum resistance temperature sensor is used in the measurement of 800 degrees Celsius, while the thermal resistance and semiconductor temperature sensor is suitable for measuring the temperature of 100-200 degrees or below, in which the application of a simple semiconductor temperature sensor is good in linearity and high in sensitivity. The LM35 linear temperature sensor and sensor-specific Arduino shield can be easily combined. | |||
<br>[[File:Ks0022-1.png|500px|frameless|thumb]]<br> | <br>[[File:Ks0022-1.png|500px|frameless|thumb]]<br> | ||
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==Specification== | ==Specification== | ||
*Based on the semiconductor LM35 temperature sensor | *Based on the semiconductor LM35 temperature sensor | ||
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*Sensitivity: 10mV per degree Celcius | *Sensitivity: 10mV per degree Celcius | ||
*Functional Range: 0 degree Celsius to 100 degree Celsius | *Functional Range: 0 degree Celsius to 100 degree Celsius | ||
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==Connection Diagram == | ==Connection Diagram == | ||
<br>[[File:Ks0022.png|700px|frameless|thumb]]<br> | |||
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==Sample Code == | ==Sample Code == | ||
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} | } | ||
void loop() | void loop() | ||
{ | { unsigned int val; | ||
unsigned int dat; | |||
val=analogRead(0);//Connect LM35 on Analog 0 | val=analogRead(0);//Connect LM35 on Analog 0 | ||
dat=(500 * val) /1024 | dat=(500 * val) /1024; | ||
Serial.print("Temp:"); //Display the temperature on Serial monitor | Serial.print("Temp:"); //Display the temperature on Serial monitor | ||
Serial.print(dat); | Serial.print(dat); | ||
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} | } | ||
</pre> | </pre> | ||
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== Result == | |||
<br>[[File:Ks0349-39-2.png|800px|frameless|thumb]]<br> | |||
Wire it up as the above diagram and upload well the code to the board, then open the serial monitor and set the baud rate as 9600, finally you will see the current temperature value shown below. The value may be slight difference due to different place and weather.<br> | |||
<br>[[File:Ks0349-39-3.png|600px|frameless|thumb]]<br> | |||
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==Resources == | ==Resources == | ||
'''Video''' | * '''Video'''<br> | ||
http://video.keyestudio.com/ks0022/ | |||
http:// | |||
'''PDF''' | * '''PDF and Code'''<br> | ||
https://fs.keyestudio.com/KS0022 | |||
<br> | |||
==Get One Now== | ==Get One Now== | ||
*[https://www.keyestudio.com/free-shippingkeyestudio-lm35-linear-temperature-sensor-module-for-arduino-p0157.html '''Official Website''' ] | |||
''' | *[https://ru.aliexpress.com/store/product/Free-shipping-Keyestudio-LM35-Linear-Temperature-Module-S-ensor-for-Arduino-CE-FCC/4247007_32886092013.html?spm=a2g0v.12010615.8148356.3.1759775aTtUkqa '''Shop on aliexpress''' ] | ||
[[Category: Sensor]] | [[Category: Sensor]] |
Latest revision as of 14:41, 7 January 2021
keyestudio LM35 Linear Temperature Sensor
Introduction
LM35 Linear Temperature Sensor is based on semiconductor LM35 temperature sensor. It can be used to detect ambient air temperature.
This sensor offers a functional range among 0 degree Celsius to 100 degree Celsius. Sensitivity is 10mV per degree Celsius. The output voltage is proportional to the temperature.
This sensor is commonly used as a temperature measurement sensor. It includes thermocouples, platinum resistance, and thermal resistance and temperature semiconductor chips.
The chip is commonly used in high temperature measurement thermocouples. Platinum resistance temperature sensor is used in the measurement of 800 degrees Celsius, while the thermal resistance and semiconductor temperature sensor is suitable for measuring the temperature of 100-200 degrees or below, in which the application of a simple semiconductor temperature sensor is good in linearity and high in sensitivity. The LM35 linear temperature sensor and sensor-specific Arduino shield can be easily combined.
Specification
- Based on the semiconductor LM35 temperature sensor
- Can be used to detect ambient air temperature
- Sensitivity: 10mV per degree Celcius
- Functional Range: 0 degree Celsius to 100 degree Celsius
Connection Diagram
Sample Code
void setup() { Serial.begin(9600);//Set Baud Rate to 9600 bps } void loop() { unsigned int val; unsigned int dat; val=analogRead(0);//Connect LM35 on Analog 0 dat=(500 * val) /1024; Serial.print("Temp:"); //Display the temperature on Serial monitor Serial.print(dat); Serial.println("C"); delay(500); }
Result
Wire it up as the above diagram and upload well the code to the board, then open the serial monitor and set the baud rate as 9600, finally you will see the current temperature value shown below. The value may be slight difference due to different place and weather.
Resources
- Video
http://video.keyestudio.com/ks0022/
- PDF and Code
https://fs.keyestudio.com/KS0022