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Remove gyro overflow protection on MPU6500 and MPU9250

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This commit is contained in:
Martin Budden 2017-09-07 21:55:24 +01:00
parent 2f674972e3
commit 534b447b6f
1 changed files with 18 additions and 17 deletions
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35
src/main/sensors/gyro.c
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@ -70,7 +70,7 @@
#include "hardware_revision.h"
#endif
#if ((FLASH_SIZE > 128) && (defined(USE_GYRO_SPI_MPU6500) || defined(USE_GYRO_SPI_MPU9250) || defined(USE_GYRO_SPI_ICM20601) || defined(USE_GYRO_SPI_ICM20689)))
#if ((FLASH_SIZE > 128) && (defined(USE_GYRO_SPI_ICM20601) || defined(USE_GYRO_SPI_ICM20689)))
#define USE_GYRO_SLEW_LIMITER
#endif
@ -446,8 +446,9 @@ static uint16_t calculateNyquistAdjustedNotchHz(uint16_t notchHz, uint16_t notch
#if defined(USE_GYRO_SLEW_LIMITER)
void gyroInitSlewLimiter(gyroSensor_t *gyroSensor) {
for (int axis = 0; axis < XYZ_AXIS_COUNT; axis++)
gyroSensor->gyroDev.gyroADCRawPrevious[axis] = 0;
for (int axis = 0; axis < XYZ_AXIS_COUNT; axis++) {
gyroSensor->gyroDev.gyroADCRawPrevious[axis] = 0;
}
}
#endif
@ -499,7 +500,7 @@ static void gyroInitFilterDynamicNotch(gyroSensor_t *gyroSensor)
static void gyroInitSensorFilters(gyroSensor_t *gyroSensor)
{
#if defined(USE_GYRO_SLEW_LIMITER)
gyroInitSlewLimiter(gyroSensor);
gyroInitSlewLimiter(gyroSensor);
#endif
gyroInitFilterLpf(gyroSensor, gyroConfig()->gyro_soft_lpf_hz);
gyroInitFilterNotch1(gyroSensor, gyroConfig()->gyro_soft_notch_hz_1, gyroConfig()->gyro_soft_notch_cutoff_1);
@ -600,20 +601,20 @@ STATIC_UNIT_TESTED void performGyroCalibration(gyroSensor_t *gyroSensor, uint8_t
}
#if defined(USE_GYRO_SLEW_LIMITER)
int32_t gyroSlewLimiter(int axis, gyroSensor_t *gyroSensor)
int32_t gyroSlewLimiter(gyroSensor_t *gyroSensor, int axis)
{
int32_t newRawGyro = (int32_t) gyroSensor->gyroDev.gyroADCRaw[axis];
int32_t newRawGyro = (int32_t)gyroSensor->gyroDev.gyroADCRaw[axis];
if (abs(newRawGyro - gyroSensor->gyroDev.gyroADCRawPrevious[axis]) > (1<<14))
newRawGyro = gyroSensor->gyroDev.gyroADCRawPrevious[axis];
else
gyroSensor->gyroDev.gyroADCRawPrevious[axis] = newRawGyro;
if (abs(newRawGyro - gyroSensor->gyroDev.gyroADCRawPrevious[axis]) > (1<<14)) {
newRawGyro = gyroSensor->gyroDev.gyroADCRawPrevious[axis];
} else {
gyroSensor->gyroDev.gyroADCRawPrevious[axis] = newRawGyro;
}
return newRawGyro;
return newRawGyro;
}
#endif
void gyroUpdateSensor(gyroSensor_t *gyroSensor)
{
if (!gyroSensor->gyroDev.readFn(&gyroSensor->gyroDev)) {
@ -622,14 +623,14 @@ void gyroUpdateSensor(gyroSensor_t *gyroSensor)
gyroSensor->gyroDev.dataReady = false;
if (isGyroSensorCalibrationComplete(gyroSensor)) {
// move 16-bit gyro data into 32-bit variables to avoid overflows in calculations
// move 16-bit gyro data into 32-bit variables to avoid overflows in calculations
gyroSensor->gyroDev.gyroADC[X] = gyroSensor->gyroDev.gyroADCRaw[X] - gyroSensor->gyroDev.gyroZero[X];
gyroSensor->gyroDev.gyroADC[Y] = gyroSensor->gyroDev.gyroADCRaw[Y] - gyroSensor->gyroDev.gyroZero[Y];
gyroSensor->gyroDev.gyroADC[X] = gyroSensor->gyroDev.gyroADCRaw[X] - gyroSensor->gyroDev.gyroZero[X];
gyroSensor->gyroDev.gyroADC[Y] = gyroSensor->gyroDev.gyroADCRaw[Y] - gyroSensor->gyroDev.gyroZero[Y];
#if defined(USE_GYRO_SLEW_LIMITER)
gyroSensor->gyroDev.gyroADC[Z] = gyroSlewLimiter(Z, gyroSensor) - gyroSensor->gyroDev.gyroZero[Z];
gyroSensor->gyroDev.gyroADC[Z] = gyroSlewLimiter(gyroSensor, Z) - gyroSensor->gyroDev.gyroZero[Z];
#else
gyroSensor->gyroDev.gyroADC[Z] = gyroSensor->gyroDev.gyroADCRaw[Z] - gyroSensor->gyroDev.gyroZero[Z];
gyroSensor->gyroDev.gyroADC[Z] = gyroSensor->gyroDev.gyroADCRaw[Z] - gyroSensor->gyroDev.gyroZero[Z];
#endif
alignSensors(gyroSensor->gyroDev.gyroADC, gyroSensor->gyroDev.gyroAlign);