Code : Tout sélectionner
/*
emonTx Shield 4 x CT + Voltage example
An example sketch for the emontx Arduino shield module for
CT and AC voltage sample electricity monitoring. Enables real power and Vrms calculations.
Part of the openenergymonitor.org project
Licence: GNU GPL V3
Authors: Glyn Hudson, Trystan Lea
Builds upon JeeLabs RF12 library and Arduino
emonTx documentation: http://openenergymonitor.org/emon/modules/emontxshield/
emonTx firmware code explination: http://openenergymonitor.org/emon/modul ... x/firmware
emonTx calibration instructions:
http://openenergymonitor.org/emon/modul ... alibration
THIS SKETCH REQUIRES:
Libraries in the standard arduino libraries folder:
- JeeLib https://github.com/jcw/jeelib
- EmonLib https://github.com/openenergymonitor/EmonLib.git
Other files in project directory (should appear in the arduino tabs above)
- emontx_lib.ino
*/
/*Recommended node ID allocation
------------------------------------------------------------------------------------------------------------
-ID- -Node Type-
0 - Special allocation in JeeLib RFM12 driver - reserved for OOK use
1-4 - Control nodes
5-10 - Energy monitoring nodes
11-14 --Un-assigned --
15-16 - Base Station & logging nodes
17-30 - Environmental sensing nodes (temperature humidity etc.)
31 - Special allocation in JeeLib RFM12 driver - Node31 can communicate with nodes on any network
group
-------------------------------------------------------------------------------------------------------------
emonhub.conf node decoder:
See: https://github.com/openenergymonitor/em ... uration.md
[[6]]
nodename = emonTxShield
firmware =emonTxShield
hardware = emonTxShield
[[[rx]]]
names = power1, power2, power3, power4, Vrms
datacode = h
scales = 1,1,1,1,0.01
units =W,W,W,W,V
*/
#define FILTERSETTLETIME 5000 // Time (ms) to allow the filters to settle before sending data
const int CT1 = 1;
const int CT2 = 1; // Set to 0 to disable
const int CT3 = 1;
const int CT4 = 1;
/*
#define RF_freq RF12_433MHZ // Frequency of RF12B module can be
RF12_433MHZ, RF12_868MHZ or RF12_915MHZ. You should use the one matching the module you
have.
const int nodeID = 6; // emonTx RFM12B node ID
const int networkGroup = 210; // emonTx RFM12B wireless network group -
needs to be same as emonBase and emonGLCD
#define RF69_COMPAT 0 // set to 1 to use RFM69CW
#include <JeeLib.h> // make sure V12 (latest) is used if using RFM69CW
*/
#include "EmonLib.h"
EnergyMonitor ct1, ct2, ct3, ct4; // Create instances for each CT channel
// Note: Please update emonhub configuration guide on OEM wide packet structure change:
// https://github.com/openenergymonitor/em ... uration.md
typedef struct {
int power1, power2, power3, power4, Vrms;
} PayloadTX; // create structure - a neat way of packaging data for RF comms
PayloadTX emontx;
const int LEDpin = 9; // On-board emonTx LED
boolean settled = false;
void setup()
{
Serial.begin(115200);
//while (!Serial) {
; // wait for serial port to connect. Needed for Leonardo only
//Serial.println("emonTX Shield CT123 Voltage example");
//Serial.println("OpenEnergyMonitor.org");
//Serial.print("Node: ");
/*Serial.print(nodeID);
Serial.print(" Freq: ");
if (RF_freq == RF12_433MHZ) Serial.print("433Mhz");
if (RF_freq == RF12_868MHZ) Serial.print("868Mhz");
if (RF_freq == RF12_915MHZ) Serial.print("915Mhz");
Serial.print(" Network: ");
Serial.println(networkGroup);
// }
*/
if (CT1) ct1.current(1, 60.606); // Setup emonTX CT channel (ADC input,calibration)
if (CT2) ct2.current(2, 60.606); // Calibration factor = CT ratio / burden resistance
if (CT3) ct3.current(3, 60.606); // emonTx Shield Calibration factor = (100A /0.05A) / 33 Ohms
if (CT4) ct4.current(4, 60.606);
if (CT1) ct1.voltage(0, 299.00, 1.7); // ct.voltageTX(ADC input, calibration,phase_shift) - make sure to select correct calibration for AC-AC adapter http://openenergymonitor.org/emon/modul ... alibration. Default set for Ideal Poweradapter
if (CT2) ct2.voltage(0, 299.00, 1.7); // 268.97 for the UK adapter, 260 for the Euro and130 for the US.
if (CT3) ct3.voltage(0, 299.00, 1.7);
if (CT4) ct4.voltage(0, 299.00, 1.7);
/*rf12_initialize(nodeID, RF_freq, networkGroup); // initialize RFM12B
rf12_sleep(RF12_SLEEP);
*/
pinMode(LEDpin, OUTPUT); // Setup indicator LED
digitalWrite(LEDpin, HIGH);
}
void loop()
{
if (CT1) {
ct1.calcVI(20, 2000); // Calculate all. No.of crossings, time-out
emontx.power1 = ct1.realPower;
// Serial.print(emontx.power1);
Serial.print("TaskValueSet,1,1,"); Serial.println(emontx.power1);
}
emontx.Vrms = ct1.Vrms * 100; // AC Mains rms voltage
if (CT2) {
ct2.calcVI(20, 2000); // Calculate all. No.of crossings, time-out
emontx.power2 = ct2.realPower;
// Serial.print(" "); Serial.print(emontx.power2);
Serial.print("TaskValueSet,1,2,"); Serial.println(emontx.power2);
}
if (CT3) {
ct3.calcVI(20, 2000); // Calculate all. No.of crossings, time-out
emontx.power3 = ct3.realPower;
// Serial.print(" "); Serial.print(emontx.power3);
Serial.print("TaskValueSet,1,3,"); Serial.println(emontx.power3);
}
if (CT4) {
ct4.calcVI(20, 2000); // Calculate all. No.of crossings, time-out
emontx.power4 = ct4.realPower;
// Serial.print(" "); Serial.print(emontx.power4);
Serial.print("TaskValueSet,1,4,"); Serial.println(emontx.power4);
}
// Serial.print(" "); Serial.print(ct1.Vrms);
Serial.print("TaskValueSet,2,1,"); Serial.println(ct1.Vrms);
// Serial.println();
delay(100);
// because millis() returns to zero after 50 days !
if (!settled && millis() > FILTERSETTLETIME) settled = true;
if (settled) // send data only after filters have settled
{
// send_rf_data(); // *SEND RF DATA* - see emontx_lib
digitalWrite(LEDpin, HIGH);
//delay(2000);
// Serial.print("help ");
delay(2); digitalWrite(LEDpin, LOW); // flash LED
delay(2000); // delay between readings in ms
}
}
Je fais comment pour la trouver?
Je n'ai pas de voltmètre à disposition...