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/*
ESS1995 communications test
i2c version
http://arduino.cc/playground/Code/ATMELTWI
i2c library seems to require a 'register address' - -ESS1995 doesn't need this?
it certainly doesn't define a register in control byte 1 of write message
*/
#include "electic.h"
extern "C" void __cxa_pure_virtual()
{
cli();
for (;;);
}
int main(){
init(); //-- init Arduino library - delay, PWM setup messes with timers, millis(), micros() etc don't work without it
Wire.begin();
pinMode(CS,OUTPUT);
digitalWrite(CS,LOW); //turn off DMM, maybe it doesn't like waiting around
setupBlueTooth();
/*
pinMode(DATA_NEW,INPUT);
pinMode(SCLK,OUTPUT);
pinMode(BTC,INPUT);
pinMode(OUTPUT1, OUTPUT);
pinMode(OUTPUT2, OUTPUT);
digitalWrite(OUTPUT2,HIGH);
*/
digitalWrite(CS,HIGH); //select DMM
uint8_t WB1,WB2,WB3,WB4;
/*
uint8_t WB1 = (CB_SHBP << 7) | (CB_function << 3) | (CB_VARCrange);
uint8_t WB2 = (CB_BUZfreq << 5) | (CB_ADCrate << 3) | (CB_FREQrange);
uint8_t WB3 = (CB_ACmode << 7) | (CB_EXTdiode << 4) | (CB_DCfs << 3) | (CB_LPFbw << 1) | (CB_FREQinprest);
uint8_t WB4 = (CB_PEAKmode << 7) | (CB_PCALmode << 6) | (CB_OPconf << 2) | (CB_ADPext);
*/
Wire.beginTransmission(WRITE_ID);
Wire.send(WB1);
Wire.send(WB2);
Wire.send(WB3);
Wire.send(WB4);
//default reads
Wire.endTransmission();
uint16_t delayMillis=250;
//send 1st write to initiate readings - not necessary - what is default mode?
/*
writeDMM();
delay(delayMillis);
startWrite();
writeStartBit();
writeByte(WRITE_ID);
writeByte(WB1);
writeByte(WB2);
writeByte(WB3);
writeByte(WB4);
writeStopBit(); //is ACK already the same as stop bit?
*/
//variables to read
uint8_t DB_STATUS;
/*
uint8_t DB_ASIGN;
uint8_t DB_BSIGN;
uint8_t DB_PMAX;
uint8_t DB_PMIN;
uint8_t DB_BTS;
uint8_t DB_ALARM;
uint8_t DB_HF;
uint8_t DB_LF;
uint8_t DB_LDUTY;
uint8_t DB_STA;
uint8_t DB_F_FIN;
*/
uint32_t DB_D0;
uint16_t DB_D1;
uint32_t DB_D2;
uint32_t DB_D3;
//delay(delayMillis);
//writeDMM();
while(1) {
if (digitalRead(DATA_NEW)==HIGH){ //DMM is ready to send data
Wire.beginTransmission(READ_ID);
if (digitalRead(DATA_NEW)==LOW){ //ID confirmed
for (int i=0;i<10;i++) {
data[i] = Wire.receive();
}
Wire.endTransmission();
//parse data
DB_STATUS=data[0];
/*
DB_ASIGN=data[0]>>7;
DB_BSIGN=(data[0]>>6) & 0b01;
DB_PMAX=(data[0]>>5) & 0b01;
DB_PMIN=(data[0]>>4) & 0b01;
DB_BTS=(data[0]>>2) & 0b11;
DB_ALARM=data[0]& 0b01;
DB_HF=data[1]>>7;
DB_LF=(data[1]>>6) & 0b01;
DB_LDUTY=(data[1]>>5) & 0b01;
DB_STA=((data[1]>>3) & 0b10)|((data[0]>>1) & 0b01);
DB_F_FIN=(data[1]>>3) & 0b01;
*/
DB_D0=(((uint32_t)( data[1] & 0b111))<<16)|(((uint32_t)data[2])<<8)|data[3];
DB_D1=(((uint16_t)data[4])<<2)|((data[5] & 0b11000000)>>6);
DB_D2=(((uint32_t)( data[5] & 0b111111))<<13)|(((uint32_t) data[6] )<<5)|(((uint32_t)( data[7] & 0b11111000))>>3);
DB_D3=(((uint32_t)( data[7] & 0b111))<<16)|(((uint32_t) data[8])<<8)|data[9];
while (Serial.available() > 0) {
// get incoming byte:
uint8_t sampleCode = Serial.read();
switch (sampleCode) {
case 1:
delayMillis=1000;
break;
case 2:
delayMillis=250;
break;
case 3:
delayMillis=50;
break;
}
}
if (digitalRead(BTC)){
if (!connected) connected=true;
// data packet :
// ID (2 byte)
// no of bytes (max 255)
// data bytes
Serial.write((uint8_t*)&ELECTIC_ID,2);
Serial.write((uint8_t*)&packetSize,1);
Serial.write((uint8_t*)&DB_STATUS,1);
Serial.write((uint8_t*)&DB_D0,4);
Serial.write((uint8_t*)&DB_D1,2);
}
else {
if (connected) {
advertise();
connected=false;
}
}
}
}
delay(delayMillis);
digitalWrite(OUTPUT1,LOW);
digitalWrite(OUTPUT2,LOW);
//delay(delayMillis);
}
}
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