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https://git.intern.spaceteamaachen.de/ALPAKA/driver-bmi088.git
synced 2025-06-10 02:26:00 +00:00
Added alternative conversion code
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dario
parent
1452c93161
commit
2b9dfda77c
@ -95,9 +95,11 @@ namespace sta
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bool busRead(Part part, uint8_t reg, uint8_t * buffer);
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bool busWrite(Part part, uint8_t reg, uint8_t value);
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void getRawRotation(uint16_t* x, uint16_t* y, uint16_t* z);
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void getRawAcceleration(uint16_t* x, uint16_t* y, uint16_t* z);
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void getRawRotation(int16_t* x, int16_t* y, int16_t* z);
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void getRawAcceleration(int16_t* x, int16_t* y, int16_t* z);
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float lsbToMps2(int16_t val);
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float lsbToDPS(int16_t val);
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void convertRawToActual(uint16_t* i, float* f, float f_range);
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Device* gyro_device;
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@ -1,6 +1,9 @@
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#include <sta/drivers/bmi088.hpp>
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#include <sta/debug/assert.hpp>
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#include <math.h>
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#define GRAVITY 9.80665f
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namespace sta
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{
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@ -65,30 +68,31 @@ namespace sta
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{
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busWrite(GYROSCOPE, BMI088_REG_GYRO_BANDWIDTH, bandwidth);
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}
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void BMI088::getRawRotation(uint16_t* x, uint16_t* y, uint16_t* z)
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void BMI088::getRawRotation(int16_t* x, int16_t* y, int16_t* z)
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{
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uint8_t x_lsb, x_msb, y_lsb, y_msb, z_lsb, z_msb;
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busRead(GYROSCOPE, BMI088_REG_GYRO_RATE_X_LSB, &x_lsb);
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busRead(GYROSCOPE, BMI088_REG_GYRO_RATE_X_MSB, &x_msb);
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*x = ((uint16_t)x_msb)<<8 | (uint16_t)x_lsb;
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*x = (int16_t)(((uint16_t)x_msb)<<8 | (uint16_t)x_lsb);
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busRead(GYROSCOPE, BMI088_REG_GYRO_RATE_Y_LSB, &y_lsb);
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busRead(GYROSCOPE, BMI088_REG_GYRO_RATE_Y_MSB, &y_msb);
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*y = ((uint16_t)y_msb)<<8 | (uint16_t)y_lsb;
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*y = (int16_t)(((uint16_t)y_msb)<<8 | (uint16_t)y_lsb);
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busRead(GYROSCOPE, BMI088_REG_GYRO_RATE_Z_LSB, &z_lsb);
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busRead(GYROSCOPE, BMI088_REG_GYRO_RATE_Z_MSB, &z_msb);
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*z = ((uint16_t)z_msb)<<8 | (uint16_t)z_lsb;
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*z = (int16_t)(((uint16_t)z_msb)<<8 | (uint16_t)z_lsb);
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}
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void BMI088::getRotation(float* x, float* y, float* z)
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{
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uint16_t i_x,i_y,i_z;
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int16_t i_x,i_y,i_z;
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getRawRotation(&i_x, &i_y, &i_z);
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convertRawToActual(&i_x, x, f_gyro_range);
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convertRawToActual(&i_y, y, f_gyro_range);
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convertRawToActual(&i_z, z, f_gyro_range);
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*x = lsbToDPS(i_x);
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*y = lsbToDPS(i_y);
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*z = lsbToDPS(i_z);
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}
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@ -103,16 +107,16 @@ namespace sta
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switch(range)
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{
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case _3G:
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f_accel_range = 3*9.80665;
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f_accel_range = 3*GRAVITY;
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break;
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case _6G:
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f_accel_range = 6*9.80665;
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f_accel_range = 6*GRAVITY;
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break;
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case _12G:
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f_accel_range = 12*9.80665;
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f_accel_range = 12*GRAVITY;
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break;
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case _24G:
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f_accel_range = 24*9.80665;
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f_accel_range = 24*GRAVITY;
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break;
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default:
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break;
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@ -123,30 +127,31 @@ namespace sta
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uint8_t data = bandwidth<<4 | odr;//TODO are your sure? shift three or four times?
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busWrite(ACCELEROMETER, BMI088_REG_ACC_CONF, data);
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}
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void BMI088::getRawAcceleration(uint16_t* x, uint16_t* y, uint16_t* z)
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void BMI088::getRawAcceleration(int16_t* x, int16_t* y, int16_t* z)
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{
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uint8_t x_lsb, x_msb, y_lsb, y_msb, z_lsb, z_msb;
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busRead(ACCELEROMETER, BMI088_REG_ACC_X_LSB, &x_lsb);
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busRead(ACCELEROMETER, BMI088_REG_ACC_X_MSB, &x_msb);
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*x = ((uint16_t)x_msb)<<8 | (uint16_t)x_lsb;
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*x = (int16_t)(((uint16_t)x_msb)<<8 | (uint16_t)x_lsb);
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busRead(ACCELEROMETER, BMI088_REG_ACC_Y_LSB, &y_lsb);
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busRead(ACCELEROMETER, BMI088_REG_ACC_Y_MSB, &y_msb);
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*y = ((uint16_t)y_msb)<<8 | (uint16_t)y_lsb;
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*y = (int16_t)(((uint16_t)y_msb)<<8 | (uint16_t)y_lsb);
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busRead(ACCELEROMETER, BMI088_REG_ACC_Z_LSB, &z_lsb);
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busRead(ACCELEROMETER, BMI088_REG_ACC_Z_MSB, &z_msb);
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*z = ((uint16_t)z_msb)<<8 | (uint16_t)z_lsb;
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*z = (int16_t)(((uint16_t)z_msb)<<8 | (uint16_t)z_lsb);
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}
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void BMI088::getAcceleration(float* x, float* y, float* z)
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{
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uint16_t i_x,i_y,i_z;
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int16_t i_x,i_y,i_z;
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getRawAcceleration(&i_x, &i_y, &i_z);
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convertRawToActual(&i_x, x, f_accel_range);
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convertRawToActual(&i_y, y, f_accel_range);
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convertRawToActual(&i_z, z, f_accel_range);
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*x = lsbToMps2(i_x);
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*y = lsbToMps2(i_y);
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*z = lsbToMps2(i_z);
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}
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@ -190,6 +195,22 @@ namespace sta
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return true;
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}
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float BMI088::lsbToMps2(int16_t val)
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{
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double power = 2;
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float half_scale = (float)((pow((double)power, (double)16) / 2.0f));
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return (val * f_accel_range) / half_scale;
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}
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float BMI088::lsbToDPS(int16_t val)
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{
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double power = 2;
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float half_scale = (float)((pow((double)power, (double)16) / 2.0f));
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return (f_gyro_range / (half_scale)) * (val);
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}
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void BMI088::convertRawToActual(uint16_t* i, float* f, float f_range){
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int16_t sign = (int16_t)((*i & 0b1000000000000000) >> 15);
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if(sign)
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