Development v12

Warning - Product Update

All the resources present on this section belong to Waspmote v12, Waspmote Plug & Sense! v12 and Meshlium v3.8.

If you have a Waspmote v15, Waspmote Plug & Sense! v15 or Meshlium v4.0 please go to the new Development Section.

Check what is your version and what are the differences between the old and the new one in this document.

» 4-20 mA 04: Frame class utility

This sketch shows how to use the most important features of the 4-20mA current loop board in Waspmote in combination with the frame class.

Required Materials

1 x Waspmote
1 x Battery
1 x 4-20mA Board

Notes

- Don't use the 12V output to supply industrial devices, only for 4-20mA sensors.
- Be sure that your sensor is compatible with the 4-20mA board specifications.
- This example can be executed in Waspmote v12 and Waspmote v15

Code

/*   
 *  ------ [4-20mA_04] Frame Class utility -------- 
 *   
 *  Explanation: This sketch shows how to use the most important 
 *  features of the 4-20mA current loop board in Waspmote in 
 *  combination with the frame class. 
 *   
 *  Copyright (C) 2017 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 2 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 <http://www.gnu.org/licenses/>. 
 *   
 *  Version:          3.0
 *  Design:           David Gascon 
 *  Implementation:   Ahmad Saad
 */


// Include this library for using current loop functions
#include <currentLoop.h>
#include <WaspFrame.h>

void setup()
{
  // Power on the USB for viewing data in the serial monitor
  USB.ON();
  delay(100);  


  /////////////////////////////////////////////
  // 1. Swtich ON the Board
  /////////////////////////////////////////////
  // Sets the 5V switch ON
  currentLoopBoard.ON(SUPPLY5V);
  delay(1000);

  // Sets the 12V switch ON
  currentLoopBoard.ON(SUPPLY12V); 
  delay(1000); 
}


void loop()
{
  /////////////////////////////////////////////
  // 2. Read the current values 
  /////////////////////////////////////////////
  
  // Get the sensor value as a current in mA from SOCKET_A
  float current_socketA = currentLoopBoard.readCurrent(SOCKET_A); // Plug&Sense: SOCKET_A; OEM: CHANNEL1
  // Get the sensor value as a current in mA from SOCKET_B
  float current_socketB = currentLoopBoard.readCurrent(SOCKET_B); // Plug&Sense: SOCKET_B; OEM: CHANNEL2
  // Get the sensor value as a current in mA from SOCKET_C
  float current_socketC = currentLoopBoard.readCurrent(SOCKET_C); // Plug&Sense: SOCKET_C; OEM: CHANNEL3
  // Get the sensor value as a current in mA from SOCKET_D
  float current_socketD = currentLoopBoard.readCurrent(SOCKET_D); // Plug&Sense: SOCKET_D; OEM: CHANNEL4

  
  /////////////////////////////////////////////
  // 3. Create ASCII frame
  /////////////////////////////////////////////

  // Create new frame (ASCII)
  frame.createFrame(ASCII);

  // Add SOCKET_A current value
  frame.addSensor(SENSOR_4_20_CURRENT_SOCKET_A, current_socketA);
  // Add SOCKET_B current value
  frame.addSensor(SENSOR_4_20_CURRENT_SOCKET_B, current_socketB);
  // Add SOCKET_C current value
  frame.addSensor(SENSOR_4_20_CURRENT_SOCKET_C, current_socketC);
  // Add SOCKET_D current value
  frame.addSensor(SENSOR_4_20_CURRENT_SOCKET_D, current_socketD);

  // Show the frame
  frame.showFrame();

  // Wait 2 seconds
  delay(2000);
  

}

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