Sw xtr 15: C4E sensor reading

/*
    ----------- [Sw_xtr_15] - C4E sensor reading --------------------

    Explanation: Basic example that turns on, reads and turn off the
    sensor. Measured parameters are stored in the corresponding class
    variables and printed by the serial monitor.

    Measured parameters:
      - Temperature
      - Conductivity
      - Salinity
      - Total dissolved solids

    Copyright (C) 2018 Libelium Comunicaciones Distribuidas S.L.
    http://www.libelium.com

    This program is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program.  If not, see .

    Version:           3.0
    Design:            David Gascón
    Implementation:    J.Siscart, V.Boria
*/

#include WaspSensorXtr.h

  //******************************************************
  //          SELECT THE RIGHT SOCKET & SENSOR
  //******************************************************

  /* 
    Possible sockets are:
    - XTR_SOCKET_A
    - XTR_SOCKET_B
    - XTR_SOCKET_C
    - XTR_SOCKET_D

    Example: a C4E sensor on socket A
    Aqualabo_C4E mySensor(XTR_SOCKET_A);

  */
Aqualabo_C4E mySensor(XTR_SOCKET_C);

void setup()
{
  USB.println(F("C4E example"));

  
}

void loop()
{  
  // 1. Turn ON the sensor
  mySensor.ON();

  // 2. Read the sensor
  /*
    Note: read() function does not directly return sensor values.
    They are stored in the class vector variables defined for that purpose.
    Values are available as a float value
  */
  mySensor.read();

  // 3. Turn off the sensor
  mySensor.OFF();

  // 4. Print information
  USB.println(F("---------------------------"));
  USB.println(F("C4E"));
  USB.print(F("Temperature: "));
  USB.printFloat(mySensor.sensorC4E.temperature, 2);
  USB.println(F(" degrees Celsius"));
  USB.print(F("Conductivity: "));
  USB.printFloat(mySensor.sensorC4E.conductivity, 2);
  USB.println(F(" uS/cm"));
  USB.print(F("Salinity: "));
  USB.printFloat(mySensor.sensorC4E.salinity, 2);
  USB.println(F(" ppt"));
  USB.print(F("Total dissolved solids: "));
  USB.printFloat(mySensor.sensorC4E.totalDissolvedSolids, 2);
  USB.println(F(" ppm"));
  USB.println(F("---------------------------"));

  delay(5000);
}

J
 T#
 C4E example
 ---------------------------
 C4E
 Temperature: 23.24 degrees Celsius
 Conductivity: 0.00 uS/cm
 Salinity: 0.00 ppt
 Total dissolved solids: 0.18 ppm
 ---------------------------
 ---------------------------
 C4E
 Temperature: 23.24 degrees Celsius
 Conductivity: 0.00 uS/cm
 Salinity: 0.00 pptotal dissolved solids: 0.17 ppm
 ---------------------------