Suchakhree Srisukprom
/
Test_Megre
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SendAcceloroY.cpp
- Committer:
- Suchakhree
- Date:
- 2015-12-07
- Revision:
- 0:238df339023b
File content as of revision 0:238df339023b:
//Function 4 SenAcceloroY
/*int SenAcceloroY()
{
// If intPin goes high, all data registers have new data
if(mpu9250.readByte(MPU9250_ADDRESS, INT_STATUS) & 0x01) { // On interrupt, check if data ready interrupt
mpu9250.readAccelData(accelCount); // Read the x/y/z adc values
// Now we'll calculate the accleration value into actual g's
if (I2Cstate != 0) //error on I2C
pc.printf("I2C error ocurred while reading accelerometer data. I2Cstate = %d \n\r", I2Cstate);
else{ // I2C read or write ok
I2Cstate = 1;
ax = (float)accelCount[0]*aRes - accelBias[0]; // get actual g value, this depends on scale being set
ay = (float)accelCount[1]*aRes - accelBias[1];
az = (float)accelCount[2]*aRes - accelBias[2];
}
mpu9250.readGyroData(gyroCount); // Read the x/y/z adc values
// Calculate the gyro value into actual degrees per second
if (I2Cstate != 0) //error on I2C
pc.printf("I2C error ocurred while reading gyrometer data. I2Cstate = %d \n\r", I2Cstate);
else{ // I2C read or write ok
I2Cstate = 1;
gx = (float)gyroCount[0]*gRes - gyroBias[0]; // get actual gyro value, this depends on scale being set
gy = (float)gyroCount[1]*gRes - gyroBias[1];
gz = (float)gyroCount[2]*gRes - gyroBias[2];
}
mpu9250.readMagData(magCount); // Read the x/y/z adc values
// Calculate the magnetometer values in milliGauss
// Include factory calibration per data sheet and user environmental corrections
if (I2Cstate != 0) //error on I2C
pc.printf("I2C error ocurred while reading magnetometer data. I2Cstate = %d \n\r", I2Cstate);
else{ // I2C read or write ok
I2Cstate = 1;
mx = (float)magCount[0]*mRes*magCalibration[0] - magbias[0]; // get actual magnetometer value, this depends on scale being set
my = (float)magCount[1]*mRes*magCalibration[1] - magbias[1];
mz = (float)magCount[2]*mRes*magCalibration[2] - magbias[2];
}
mpu9250.getCompassOrientation(orientation);
}
Now = t.read_us();
deltat = (float)((Now - lastUpdate)/1000000.0f) ; // set integration time by time elapsed since last filter update
lastUpdate = Now;
sum += deltat;
sumCount++;
// Pass gyro rate as rad/s
// mpu9250.MadgwickQuaternionUpdate(ax, ay, az, gx*PI/180.0f, gy*PI/180.0f, gz*PI/180.0f, my, mx, mz);
mpu9250.MahonyQuaternionUpdate(ax, ay, az, gx*PI/180.0f, gy*PI/180.0f, gz*PI/180.0f, my, mx, mz);
// Serial print and/or display at 1.5 s rate independent of data rates
delt_t = t.read_ms() - count;
if (delt_t > 500) { // update LCD once per half-second independent of read rate
mpu9250.MadgwickQuaternionUpdate(ax,ay,az,gx,gy,gz,mx,my,mz);
pc.printf(" ay = %.2f\n", 1000*ay);
tempCount = mpu9250.readTempData(); // Read the adc values
if (I2Cstate != 0) //error on I2C
pc.printf("I2C error ocurred while reading sensor temp. I2Cstate = %d \n\r", I2Cstate);
else{ // I2C read or write ok
I2Cstate = 1;
temperature = ((float) tempCount) / 333.87f + 21.0f; // Temperature in degrees Centigrade
//pc.printf(" temperature = %f C\n\r", temperature);
}
myled= !myled;
count = t.read_ms();
if(count > 1<<21) {
t.start(); // start the timer over again if ~30 minutes has passed
count = 0;
deltat= 0;
lastUpdate = t.read_us();
}
sum = 0;
sumCount = 0;
}
return ay*1000;
}*/