diff --git a/examples/MQ-4/MQ-4.ino b/examples/MQ-4/MQ-4.ino
index 1c9a6fe..c59701f 100644
--- a/examples/MQ-4/MQ-4.ino
+++ b/examples/MQ-4/MQ-4.ino
@@ -37,7 +37,7 @@ void setup() {
 
   //Set math model to calculate the PPM concentration and the value of constants
   MQ4.setRegressionMethod("Exponential"); //_PPM =  a*ratio^b
-  MQ4.setA(4.8387); MQ4.setB(-2.68); // Configurate the ecuation values to get Benzene concentration
+  MQ4.setA(1012.7); MQ4.setB(-2.786); // Configurate the ecuation values to get CH4 concentration
   /*
     Exponential regression:
   Gas    | a      | b
diff --git a/examples/MQ-5/MQ-5.ino b/examples/MQ-5/MQ-5.ino
index 694a098..90df63a 100644
--- a/examples/MQ-5/MQ-5.ino
+++ b/examples/MQ-5/MQ-5.ino
@@ -9,6 +9,10 @@
   modified 23 May 2019
   by Miguel Califa 
 
+  Updated library usage
+  modified 26 March 2020
+  by Miguel Califa 
+
  This example code is in the public domain.
 
 */
@@ -17,66 +21,56 @@
 #include <MQUnifiedsensor.h>
 
 //Definitions
+#define placa "Arduino UNO"
+#define Voltage_Resolution 5
 #define pin A0 //Analog input 0 of your arduino
-#define type 5 //MQ5
+#define type "MQ-5" //MQ5
+#define ADC_Bit_Resolution 10 // For arduino UNO/MEGA/NANO
 //#define calibration_button 13 //Pin to calibrate your sensor
 
 //Declare Sensor
-MQUnifiedsensor MQ5(pin, type);
-
-//Variables
-float H2, LPG, CH4, CO, smoke;
+MQUnifiedsensor MQ5(placa, Voltage_Resolution, ADC_Bit_Resolution, pin, type);
 
 void setup() {
+  //Init the serial port communication - to debug the library
   Serial.begin(9600); //Init serial port
-   //init the sensor
-  /*****************************  MQInicializar****************************************
-  Input:  pin, type 
-  Output:  
-  Remarks: This function create the sensor object.
-  ************************************************************************************/ 
-  MQ5.inicializar(); 
-  //pinMode(calibration_button, INPUT);
+
+  //Set math model to calculate the PPM concentration and the value of constants
+  MQ5.setRegressionMethod("Exponential"); //_PPM =  a*ratio^b
+  MQ5.setA(1163.8); MQ5.setB(-3.874); // Configurate the ecuation values to get H2 concentration
+  /*
+    Exponential regression:
+  Gas    | a      | b
+  H2     | 1163.8 | -3.874
+  LPG    | 80.897 | -2.431
+  CH4    | 177.65 | -2.56
+  CO     | 491204 | -5.826
+  Alcohol| 97124  | -4.918
+  */
+  
+  // Calibration setup
+  MQ5.setR0(71.100304);
+
+  /* 
+    //If the RL value is different from 10K please assign your RL value with the following method:
+    MQ5.setRL(10);
+  */
+
+  /*****************************  MQ Init ********************************************/ 
+  //Remarks: Configure the pin of arduino as input.
+  /************************************************************************************/ 
+  MQ5.init(); 
+  /*****************************  MQ Init ********************************************/ 
+  //Input: setup flag, if this function are on setup will print the headers (Optional - Default value: False)
+  //Output: print on serial port the information about sensor and sensor readings
+  //Remarks: Configure the pin of arduino as input.
+  /************************************************************************************/ 
+  MQ5.serialDebug(true);
 }
 
 void loop() {
-
-  MQ5.update(); // Update data, the arduino will be read the voltaje in the analog pin
-  /* 
-    //Si el valor de RL es diferente a 10K por favor asigna tu valor de RL con el siguiente metodo:
-    MQ5.setRL(10);
-  */
-  /*
-  //Rutina de calibracion - Uncomment if you need (setup too and header)
-  if(calibration_button)
-  {
-    float R0 = MQ5.calibrate();
-    MQ5.setR0(R0);
-  }
-  */
-  /*****************************  MQReadSensor  ****************************************
-  Input:   Gas - Serial print flag
-  Output:  Value in PPM
-  Remarks: This function use readPPM to read the value in PPM the gas in the air.
-  ************************************************************************************/ 
-  //Read the sensor and print in serial port
-  //Lecture will be saved in lecture variable
-  //float lecture =  MQ5.readSensor("", true); // Return H2 concentration
-  // Options, uncomment where you need
-  H2 =  MQ5.readSensor("H2"); // Return H2 concentration
-  LPG =  MQ5.readSensor("LPG"); // Return LPG concentration
-  CH4 =  MQ5.readSensor("CH4"); // Return CH4 concentration
-  CO =  MQ5.readSensor("CO"); // Return CO concentration
-  smoke =  MQ5.readSensor("smoke"); // Return smoke concentration
-
-  Serial.println("***************************");
-  Serial.println("Lectures for MQ-5");
-  Serial.print("Volt: ");Serial.print(MQ5.getVoltage(false));Serial.println(" V"); 
-  Serial.print("R0: ");Serial.print(MQ5.getR0());Serial.println(" Ohm"); 
-  Serial.print("H2: ");Serial.print(H2,2);Serial.println(" ppm");
-  Serial.print("LPG: ");Serial.print(LPG,2);Serial.println(" ppm");
-  Serial.print("CH4: ");Serial.print(CH4,2);Serial.println(" ppm");
-  Serial.print("CO: ");Serial.print(CO,2);Serial.println(" ppm");
-  Serial.print("smoke: ");Serial.print(smoke,2);Serial.println(" ppm");
-  Serial.println("***************************");  
-}
+  MQ5.update(); // Update data, the arduino will be read the voltage on the analog pin
+  MQ5.readSensor(); // Sensor will read PPM concentration using the model and a and b values setted before or in the setup
+  MQ5.serialDebug(); // Will print the table on the serial port
+  delay(500); //Sampling frequency
+}
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