int setupCompass(){
int error = 0;
// Initialize the serial port.
// Serial.begin(9600);
// Serial.println("Starting the I2C interface.");
// Wire.begin(); // Start the I2C interface.
// Serial.println("Constructing new HMC5883L");
compass = HMC5883L(); // Construct a new HMC5883 compass.
// Serial.println("Setting scale to +/- 1.3 Ga");
error = compass.SetScale(1.3); // Set the scale of the compass.
if(error != 0){
// If there is an error, print it out.
Serial.println(compass.GetErrorText(error));
return 1;
}
// Serial.println("Setting measurement mode to continous.");
error = compass.SetMeasurementMode(Measurement_Continuous); // Set the measurement mode to Continuous
if(error != 0){
// If there is an error, print it out.
Serial.println(compass.GetErrorText(error));
return 1;
}
return 0;
}
Bussola::Bussola(){
pointer=0;
pointerSize = TAMANHO_FILA;
filaCheia=0;
Serial.println("Starting the I2C interface.");
Wire.begin(); // Start the I2C interface.
Serial.println("Constructing new HMC5883L");
compass = HMC5883L(); // Construct a new HMC5883 compass.
int error=0;
Serial.println("Setting scale to +/- 1.3 Ga");
error = compass.SetScale(1.3); // Set the scale of the compass.
if(error != 0) // If there is an error, print it out.
Serial.println(compass.GetErrorText(error));
Serial.println("Setting measurement mode to continous.");
error = compass.SetMeasurementMode(Measurement_Continuous); // Set the measurement mode to Continuous
if(error != 0) // If there is an error, print it out.
Serial.println(compass.GetErrorText(error));
delay(10);
//Preenche a fila
for(int i=0; i<=TAMANHO_FILA; i++){
calcHeading();
delay(1);
}
}
void GetHMC5883LRawMeasure(uint8_t* buffer) {
MPU6050();
HMC5883L();
HMC5883L_SetScale(13);
HMC5883L_SetMeasurementMode(Measurement_Continuous);
IICReadNBytes(HMC5883L_Address,DataRegisterBegin,6,buffer);
}
/*
* Setup
*/
void setup() {
wdt_enable(WDTO_8S);
wdt_reset();
//Setup Ports
Serial.begin(115200); //Start Debug Serial 0
Serial1.begin(9600); //Start GPS Serial 1
Serial2.begin(9600);
pinMode(PIN_LED_GREEN, OUTPUT); //Blue GREEN
pinMode(PIN_LED_RED, OUTPUT); //Blue RED
pinMode(PIN_LED_BLUE, OUTPUT); //Blue LED
pinMode(PIN_SPI_CS,OUTPUT); //Chip Select Pin for the SD Card
pinMode(10, OUTPUT); //SDcard library expect 10 to set set as output.
// Initialise the GPS
wdt_disable();
gps.init();
gps.configureUbloxSettings(); // Configure Ublox for MY_HIGH altitude mode
wdt_enable(WDTO_8S);
// join I2C bus //start I2C transfer to the Module/Transmitter
Wire.begin();
//Set up the two EasyTransfer methods
ETI2Cout.begin(details(mD.i2cOut), &Wire); //setup the data structure to transfer out
ETSerialIn.begin(details(vals), &Serial2);
//Start up the LGgyro
if (LGgyro.init()) {
#ifdef DEBUG_ON
Serial.println("LGgyro OK");
#endif
LGgyro.enableDefault();
} else {
#ifdef DEBUG_ON
Serial.println("LGgyro not working");
#endif
SET_LED_Status(SET_LED_WHITE,500); //White LED
SET_LED_Status(SET_LED_RED,1000); //Red LED
}
//Start up the accelerometer
accel = ADXL345(); // Create an instance of the accelerometer
if(accel.EnsureConnected()) { // Check that the accelerometer is connected.
#ifdef DEBUG_ON
Serial.println("Connected to ADXL345.");
#endif
accel.SetRange(2, true); // Set the range of the accelerometer to a maximum of 2G.
accel.EnableMeasurements(); // Tell the accelerometer to start taking measurements.
} else{
#ifdef DEBUG_ON
Serial.println("Could not connect to ADXL345.");
#endif
SET_LED_Status(SET_LED_WHITE,500); //White LED
SET_LED_Status(SET_LED_RED,2000); //Red LED
}
//Start up the compass
compass = HMC5883L(); // Construct a new HMC5883 compass.
#ifdef DEBUG_ON
if(compass.EnsureConnected() == 1) {
Serial.println("Connected to HMC5883L.");
} else {
Serial.println("Not Connected to HMC5883L.");
}
#endif
error = compass.SetScale(1.3); // Set the scale of the compass.
#ifdef DEBUG_ON
if(error != 0) { // If there is an error, print it out.
Serial.println("Compass Error 1");
Serial.println(compass.GetErrorText(error));
} else {
Serial.println("Compass Ok 1");
}
#endif
error = compass.SetMeasurementMode(Measurement_Continuous); // Set the measurement mode to Continuous
#ifdef DEBUG_ON
if(error != 0) { // If there is an error, print it out.
Serial.println("Compass error 2");
Serial.println(compass.GetErrorText(error));
} else {
Serial.println("Compass Ok 2");
}
#endif
//Start up the Pressure Sensor
dps = BMP085();
dps.init();
#ifdef DEBUG_ON
Serial.print("BMP Mode ");
Serial.println(dps.getMode());
#endif
wdt_reset();
// Start up the OneWire Sensors library and turn off blocking takes too long!
sensors.begin();
sensors.setWaitForConversion(false);
sensors.requestTemperaturesByAddress(outsideThermometer); // Send the command to get temperature
//Initialise all of the record values
mD.vals.tCount = 0;
mD.vals.uslCount = 0;
mD.vals.year = 0;
mD.vals.month = 0;
mD.vals.day = 0;
mD.vals.hour = 0;
mD.vals.minute = 0;
mD.vals.second = 0;
mD.vals.hundredths = 0;
mD.vals.iLat = 0;
mD.vals.iLong = 0;
mD.vals.iAlt = 0;
mD.vals.bSats = 0;
mD.vals.iAngle = 0;
mD.vals.iHspeed = 0;
mD.vals.iVspeed = 0;
mD.vals.age = 0;
mD.vals.ihdop = 0;
mD.vals.AcXPayload = 0;
mD.vals.AcYPayload = 0;
mD.vals.AcZPayload = 0;
mD.vals.GyXPayload = 0;
mD.vals.GyYPayload = 0;
mD.vals.GyZPayload = 0;
mD.vals.MgXPayload = 0;
mD.vals.MgYPayload = 0;
mD.vals.MgZPayload = 0;
mD.vals.TmpPayload = 0;
//Connect to the SD Card
if(!SD.begin(PIN_SPI_CS, SPI_HALF_SPEED)) {
#ifdef DEBUG_ON
Serial.println("SD not working!!");
#endif
SET_LED_Status(SET_LED_WHITE,500); //White LED
SET_LED_Status(SET_LED_RED,3000); //Red LED
} else {
#ifdef DEBUG_ON
Serial.println("SD OK");
#endif
dataFile.open(SD_LOG_FILE, O_CREAT | O_WRITE | O_APPEND); //Open Logfile
if (!dataFile.isOpen()) {
#ifdef DEBUG_ON
Serial.println("SD Data File Not Opened");
#endif
SET_LED_Status(SET_LED_WHITE,500);
SET_LED_Status(SET_LED_RED,3000);
}
}
//Cycle lights
SET_LED_Status(SET_LED_OFF,0);
SET_LED_Status(SET_LED_RED,500);
SET_LED_Status(SET_LED_GREEN,500);
SET_LED_Status(SET_LED_BLUE,500);
SET_LED_Status(SET_LED_OFF,0);
elapseSIM900 = millis(); //Elapse counter for data to SIM900
elapseNTXB = millis(); //Elapse counter for data to NTXB
NEWGPSDATA = false;
wdt_enable(WDTO_2S);
wdt_reset();
}
