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Added debug on MQ-3

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miguel5612
2020-03-26 10:56:52 -05:00
parent aa11343a97
commit 12695e75a6
3 changed files with 69 additions and 61 deletions
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24
examples/MQ-3/MQ-3.ino
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@ -17,12 +17,14 @@
#include <MQUnifiedsensor.h>
//Definitions
#define placa "Arduino UNO"
#define Voltage_Resolution 5
#define pin A0 //Analog input 0 of your arduino
#define type 3 //MQ3
#define type "MQ-3" //MQ3
//#define calibration_button 13 //Pin to calibrate your sensor
//Declare Sensor
MQUnifiedsensor MQ3(pin, type);
MQUnifiedsensor MQ3(placa, Voltage_Resolution, pin, type);
//Variables
float CH4, LPG, CO, Alcohol, Hexane, Benzine;
@ -35,7 +37,9 @@ void setup() {
Output:
Remarks: This function create the sensor object.
************************************************************************************/
MQ3.setRegressionMethod("Exponential");
MQ3.init();
MQ3.serialDebug(true);
//pinMode(calibration_button, INPUT);
}
@ -63,23 +67,24 @@ void loop() {
//float lecture = MQ3.readSensor("", true); // Return Alcohol concentration
// Options, uncomment where you need
MQ3.setA(2*10^31); MQ3.setB(19.01); // Configurate the ecuation values
CH4 = MQ3.readSensor("Exponential"); // Return CH4 concentration
CH4 = MQ3.readSensor(); // Return CH4 concentration
MQ3.setA(44771); MQ3.setB(-3.245); // Configurate the ecuation values
LPG = MQ3.readSensor("Exponential"); // Return LPG concentration
LPG = MQ3.readSensor(); // Return LPG concentration
MQ3.setA(521853); MQ3.setB(-3.821); // Configurate the ecuation values
CO = MQ3.readSensor("Exponential"); // Return CO concentration
CO = MQ3.readSensor(); // Return CO concentration
MQ3.setA(0.3934); MQ3.setB(-1.504); // Configurate the ecuation values
Alcohol = MQ3.readSensor("Exponential"); // Return Alcohol concentration
Alcohol = MQ3.readSensor(); // Return Alcohol concentration
MQ3.setA(7585.3); MQ3.setB(-2.849); // Configurate the ecuation values
Hexane = MQ3.readSensor("Exponential"); // Return Hexane concentration
Hexane = MQ3.readSensor(); // Return Hexane concentration
MQ3.setA(4.8387); MQ3.setB(-2.68); // Configurate the ecuation values
Benzine = MQ3.readSensor("Exponential"); // Return Benzene concentration
Benzine = MQ3.readSensor(); // Return Benzene concentration
/*
Serial.println("***************************");
Serial.println("Lectures for MQ-3");
Serial.print("Volt: ");Serial.print(MQ3.getVoltage(false));Serial.println(" V");
@ -91,5 +96,6 @@ void loop() {
Serial.print("Hexane: ");Serial.print(Hexane,2);Serial.println(" mg/L");
Serial.print("Benzine: ");Serial.print(Benzine,2);Serial.println(" mg/L");
Serial.println("***************************");
*/
MQ3.serialDebug();
}