Difference between revisions of "Thermal Module"

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(Introduction)
(Introduction)
 
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The Linker Thermal Module uses a Thermistor to detect the ambient temperature. The resistance of a thermistor will increase when the ambient temperature decreases. It's this characteristic that we use to calculate the ambient temperature.
 
The Linker Thermal Module uses a Thermistor to detect the ambient temperature. The resistance of a thermistor will increase when the ambient temperature decreases. It's this characteristic that we use to calculate the ambient temperature.
  
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Latest revision as of 10:54, 18 July 2016

Introduction

The Linker Thermal Module uses a Thermistor to detect the ambient temperature. The resistance of a thermistor will increase when the ambient temperature decreases. It's this characteristic that we use to calculate the ambient temperature.

Thermal 118101005 first.jpg

Thermal 118101005 second.jpg

Thermal 118101005 third.jpg


N11DH PACKAGED FRONT.jpg

N11DH PACKAGED BACK.jpg

Features

Dimensions: 20.0×20.0×10.6mm

Net weight: 1.8g

Dimension

Temperature dimension.jpg

Schematics

Application Ideas

<syntaxhighlight lang="c"> //TMP36 Pin Variables int sensorPin = 0; //the analog pin the TMP36's Vout (sense) pin is connected to

                       //the resolution is 10 mV / degree centigrade with a
                       //500 mV offset to allow for negative temperatures

/*

* setup() - this function runs once when you turn your Arduino on
* We initialize the serial connection with the computer
*/

void setup() {

 Serial.begin(9600);  //Start the serial connection with the computer
                      //to view the result open the serial monitor 

}

void loop() // run over and over again {

//getting the voltage reading from the temperature sensor
int reading = analogRead(sensorPin);  

// converting that reading to voltage, for 3.3v arduino use 3.3
float voltage = reading * 5.0;
voltage /= 1024.0; 

// print out the voltage
Serial.print(voltage); Serial.println(" volts");

// now print out the temperature
float temperatureC = (voltage - 0.5) * 100 ;  //converting from 10 mv per degree wit 500 mV offset
                                              //to degrees ((volatge - 500mV) times 100)
Serial.print(temperatureC); Serial.println(" degrees C");

// now convert to Fahrenheight
float temperatureF = (temperatureC * 9.0 / 5.0) + 32.0;
Serial.print(temperatureF); Serial.println(" degrees F");

delay(1000);                                     //waiting a second

}


</syntaxhighlight>

Thermal Link.jpg

How to buy

Here to buy Thermal Module on store