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Merge remote-tracking branch 'origin/amorale/OP-1793_sensor_fixes' into next
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@ -411,9 +411,9 @@ static void handleAccel(float *samples, float temperature)
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AccelSensorData accelSensorData;
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updateAccelTempBias(temperature);
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float accels_out[3] = { samples[0] * agcal.accel_scale.X - agcal.accel_bias.X - accel_temp_bias[0],
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samples[1] * agcal.accel_scale.Y - agcal.accel_bias.Y - accel_temp_bias[1],
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samples[2] * agcal.accel_scale.Z - agcal.accel_bias.Z - accel_temp_bias[2] };
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float accels_out[3] = { (samples[0] - agcal.accel_bias.X) * agcal.accel_scale.X - accel_temp_bias[0],
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(samples[1] - agcal.accel_bias.Y) * agcal.accel_scale.Y - accel_temp_bias[1],
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(samples[2] - agcal.accel_bias.Z) * agcal.accel_scale.Z - accel_temp_bias[2] };
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rot_mult(R, accels_out, samples);
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accelSensorData.x = samples[0];
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@ -485,7 +485,10 @@ static void updateAccelTempBias(float temperature)
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if ((accel_temp_calibrated) && !accel_temp_calibration_count) {
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accel_temp_calibration_count = TEMP_CALIB_INTERVAL;
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if (accel_temp_calibrated) {
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float ctemp = boundf(accel_temperature, agcal.temp_calibrated_extent.max, agcal.temp_calibrated_extent.min);
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float ctemp = boundf(accel_temperature,
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agcal.temp_calibrated_extent.max,
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agcal.temp_calibrated_extent.min);
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accel_temp_bias[0] = agcal.accel_temp_coeff.X * ctemp;
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accel_temp_bias[1] = agcal.accel_temp_coeff.Y * ctemp;
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accel_temp_bias[2] = agcal.accel_temp_coeff.Z * ctemp;
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@ -588,8 +591,12 @@ static void settingsUpdatedCb(__attribute__((unused)) UAVObjEvent *objEv)
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RevoSettingsBaroTempCorrectionPolynomialGet(&baroCorrection);
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RevoSettingsBaroTempCorrectionExtentGet(&baroCorrectionExtent);
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baro_temp_correction_enabled = !(baroCorrectionExtent.max - baroCorrectionExtent.min < 0.1f ||
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(baroCorrection.a < 1e-9f && baroCorrection.b < 1e-9f && baroCorrection.c < 1e-9f && baroCorrection.d < 1e-9f));
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baro_temp_correction_enabled =
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(baroCorrectionExtent.max - baroCorrectionExtent.min > 0.1f &&
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(fabsf(baroCorrection.a) > 1e-9f ||
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fabsf(baroCorrection.b) > 1e-9f ||
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fabsf(baroCorrection.c) > 1e-9f ||
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fabsf(baroCorrection.d) > 1e-9f));
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}
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/**
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* @}
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@ -42,7 +42,9 @@
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#ifndef PIOS_MS5611_SLOW_TEMP_RATE
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#define PIOS_MS5611_SLOW_TEMP_RATE 1
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#endif
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// Running moving average smoothing factor
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#define PIOS_MS5611_TEMP_SMOOTHING 10
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//
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/* Local Types */
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typedef struct {
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uint16_t C[6];
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@ -72,6 +74,7 @@ static uint32_t RawTemperature;
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static uint32_t RawPressure;
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static int64_t Pressure;
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static int64_t Temperature;
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static int64_t FilteredTemperature = INT32_MIN;
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static int32_t lastConversionStart;
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static uint32_t conversionDelayMs;
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@ -247,6 +250,12 @@ int32_t PIOS_MS5611_ReadADC(void)
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// Actual temperature (-40…85°C with 0.01°C resolution)
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// TEMP = 20°C + dT * TEMPSENS = 2000 + dT * C6 / 2^23
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Temperature = 2000l + ((deltaTemp * CalibData.C[5]) / POW2(23));
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if (FilteredTemperature != INT32_MIN) {
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FilteredTemperature = (FilteredTemperature * (PIOS_MS5611_TEMP_SMOOTHING - 1)
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+ Temperature) / PIOS_MS5611_TEMP_SMOOTHING;
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} else {
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FilteredTemperature = Temperature;
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}
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} else {
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int64_t Offset;
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int64_t Sens;
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@ -259,21 +268,21 @@ int32_t PIOS_MS5611_ReadADC(void)
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return -2;
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}
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// check if temperature is less than 20°C
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if (Temperature < 2000) {
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if (FilteredTemperature < 2000) {
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// Apply compensation
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// T2 = dT^2 / 2^31
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// OFF2 = 5 ⋅ (TEMP – 2000)^2/2
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// SENS2 = 5 ⋅ (TEMP – 2000)^2/2^2
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int64_t tcorr = (Temperature - 2000) * (Temperature - 2000);
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int64_t tcorr = (FilteredTemperature - 2000) * (FilteredTemperature - 2000);
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Offset2 = (5 * tcorr) / 2;
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Sens2 = (5 * tcorr) / 4;
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compensation_t2 = (deltaTemp * deltaTemp) >> 31;
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// Apply the "Very low temperature compensation" when temp is less than -15°C
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if (Temperature < -1500) {
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if (FilteredTemperature < -1500) {
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// OFF2 = OFF2 + 7 ⋅ (TEMP + 1500)^2
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// SENS2 = SENS2 + 11 ⋅ (TEMP + 1500)^2 / 2
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int64_t tcorr2 = (Temperature + 1500) * (Temperature + 1500);
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int64_t tcorr2 = (FilteredTemperature + 1500) * (FilteredTemperature + 1500);
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Offset2 += 7 * tcorr2;
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Sens2 += (11 * tcorr2) / 2;
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}
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@ -302,7 +311,7 @@ int32_t PIOS_MS5611_ReadADC(void)
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static float PIOS_MS5611_GetTemperature(void)
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{
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// Apply the second order low and very low temperature compensation offset
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return ((float)(Temperature - compensation_t2)) / 100.0f;
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return ((float)(FilteredTemperature - compensation_t2)) / 100.0f;
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}
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/**
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