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Arduino source code demo for KinCony M1 Energy Meter Controller
#1
Code:
/* KinCony M1 arduino demo
* output BL0942 voltage,current,power,frequency data by serial port
* @Author: www.kincony.com
*/
#include <SoftwareSerial.h>


const int Cur_mR = 10200;  //10200;
const int Volt_mR = 28700;   //28700;

unsigned char eNe_state = 0;

unsigned long dp_value_add_ele_1_value = 0;
unsigned long dp_value_cur_current_1_value = 0;
unsigned long dp_value_cur_power_1_value = 0;
unsigned long dp_value_cur_voltage_1_value = 0;
unsigned long dp_value_cur_freq_1_value = 0;

unsigned long dp_value_temp_value = 0;


#define  USB_TX_PIN   1
#define  USB_RX_PIN   3
#define  ENE1_RX_PIN   14
#define  ENE1_TX_PIN   13
#define  OUT1_PIN   33

unsigned long last_time = 0;
unsigned long eNe_last_time = 0;
String indata="";

String val="";
String outdata="";

SoftwareSerial eNe1;

void setup()
{
  pinMode(OUT1_PIN, OUTPUT);
  digitalWrite(OUT1_PIN, HIGH);
  Serial2.begin(9600,SERIAL_8N1,USB_RX_PIN,USB_TX_PIN);
  eNe1.begin(9600, SWSERIAL_8N1, ENE1_RX_PIN, ENE1_TX_PIN, false, 64);
  eNe1.listen();

  last_time = millis();
  eNe_last_time = last_time;
  eNe_state = 0;

}

void loop()
{


//sample energy
switch (eNe_state)
{
case 0:
    if((millis() - eNe_last_time)>100)
    {
     eNe1.listen();
     eNe_state=1;
     eNe_last_time = millis();
    }
    break;    
case 1:
    if((millis() - eNe_last_time)>1000)
    {
     eNe_state=2;
     eNe_last_time = millis();
    }
    break;    
case 2:
    outdata = "12";
    outdata[0] = 0x58;
    outdata[1] = 0xAA;
    eNe1.print(outdata);
    eNe_state=3;
    eNe_last_time = millis();
    break;    
case 3:
    if(eNe1.available()>0)
      {
        indata+=char(eNe1.read());   //read ene1

    eNe_last_time = millis();
      }
      else
      {
        if(((millis() - eNe_last_time)>4)&&(indata.length()>2))
          {

            val=indata;   //
           

              dp_value_add_ele_1_value=(double(indata[13]+indata[14]*256+indata[15]*65536)*16384*256*1218*1218*22*5)/36000/3537/Cur_mR/Volt_mR; //10200mR 28700mR
              dp_value_cur_current_1_value=(double(indata[1]+indata[2]*256+indata[3]*65536)*1218*1000)/305978/Cur_mR;  //10200mR
              dp_value_cur_power_1_value=(double(indata[10]+indata[11]*256+indata[12]*65536)*1218*1218*22*5)/3537/Cur_mR/Volt_mR; //10200mR 28700mR
              dp_value_cur_voltage_1_value=(double(indata[4]+indata[5]*256+indata[6]*65536)*1218*22*5)/73978/Volt_mR; //28700mR
              dp_value_cur_freq_1_value=2*500000/(double(indata[16]+indata[17]*256+indata[18]*65536)); //
             
            Serial2.println("meter1 channel data:");
            Serial2.print("ele1:");
            Serial2.print(dp_value_add_ele_1_value);
            Serial2.println(" wh");
            Serial2.print("current1:");
            Serial2.print(dp_value_cur_current_1_value);
            Serial2.println(" mA");
            Serial2.print("power1:");
            Serial2.print(dp_value_cur_power_1_value);
            Serial2.println(" W");
            Serial2.print("voltage1:");
            Serial2.print(dp_value_cur_voltage_1_value);
            Serial2.println(" V");
            Serial2.print("freq1:");
            Serial2.print(dp_value_cur_freq_1_value);
            Serial2.println(" Hz");
         
            eNe_state=0;
            indata="";
            eNe_last_time = millis();
          }
      }
     break;    

delay(1000);

}
}


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