adafruit_bno055 / Adafruit_BNO055.h @ 40f91f6f
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/***************************************************************************
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This is a library for the BNO055 orientation sensor
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Designed specifically to work with the Adafruit BNO055 Breakout.
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Pick one up today in the adafruit shop!
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------> http://www.adafruit.com/products
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These sensors use I2C to communicate, 2 pins are required to interface.
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Adafruit invests time and resources providing this open source code,
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please support Adafruit andopen-source hardware by purchasing products
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from Adafruit!
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Written by KTOWN for Adafruit Industries.
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MIT license, all text above must be included in any redistribution
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***************************************************************************/
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#ifndef __ADAFRUIT_BNO055_H__
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#define __ADAFRUIT_BNO055_H__
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#if (ARDUINO >= 100) |
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#include "Arduino.h" |
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#else
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#include "WProgram.h" |
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#endif
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#ifdef __AVR_ATtiny85__
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#include <TinyWireM.h> |
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#define Wire TinyWireM
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#else
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#include <Wire.h> |
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#endif
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#include <Adafruit_Sensor.h> |
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#include <utility/imumaths.h> |
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#define BNO055_ADDRESS_A (0x28) |
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#define BNO055_ADDRESS_B (0x29) |
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#define BNO055_ID (0xA0) |
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class Adafruit_BNO055 : public Adafruit_Sensor |
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{
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public:
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typedef enum |
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{
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/* Page id register definition */
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BNO055_PAGE_ID_ADDR = 0X07,
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/* PAGE0 REGISTER DEFINITION START*/
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BNO055_CHIP_ID_ADDR = 0x00,
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BNO055_ACCEL_REV_ID_ADDR = 0x01,
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BNO055_MAG_REV_ID_ADDR = 0x02,
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BNO055_GYRO_REV_ID_ADDR = 0x03,
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BNO055_SW_REV_ID_LSB_ADDR = 0x04,
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BNO055_SW_REV_ID_MSB_ADDR = 0x05,
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BNO055_BL_REV_ID_ADDR = 0X06,
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/* Accel data register */
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BNO055_ACCEL_DATA_X_LSB_ADDR = 0X08,
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BNO055_ACCEL_DATA_X_MSB_ADDR = 0X09,
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BNO055_ACCEL_DATA_Y_LSB_ADDR = 0X0A,
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BNO055_ACCEL_DATA_Y_MSB_ADDR = 0X0B,
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BNO055_ACCEL_DATA_Z_LSB_ADDR = 0X0C,
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BNO055_ACCEL_DATA_Z_MSB_ADDR = 0X0D,
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/* Mag data register */
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BNO055_MAG_DATA_X_LSB_ADDR = 0X0E,
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BNO055_MAG_DATA_X_MSB_ADDR = 0X0F,
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BNO055_MAG_DATA_Y_LSB_ADDR = 0X10,
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BNO055_MAG_DATA_Y_MSB_ADDR = 0X11,
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BNO055_MAG_DATA_Z_LSB_ADDR = 0X12,
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BNO055_MAG_DATA_Z_MSB_ADDR = 0X13,
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/* Gyro data registers */
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BNO055_GYRO_DATA_X_LSB_ADDR = 0X14,
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BNO055_GYRO_DATA_X_MSB_ADDR = 0X15,
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BNO055_GYRO_DATA_Y_LSB_ADDR = 0X16,
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BNO055_GYRO_DATA_Y_MSB_ADDR = 0X17,
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BNO055_GYRO_DATA_Z_LSB_ADDR = 0X18,
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BNO055_GYRO_DATA_Z_MSB_ADDR = 0X19,
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/* Euler data registers */
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BNO055_EULER_H_LSB_ADDR = 0X1A,
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BNO055_EULER_H_MSB_ADDR = 0X1B,
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BNO055_EULER_R_LSB_ADDR = 0X1C,
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BNO055_EULER_R_MSB_ADDR = 0X1D,
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BNO055_EULER_P_LSB_ADDR = 0X1E,
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BNO055_EULER_P_MSB_ADDR = 0X1F,
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/* Quaternion data registers */
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BNO055_QUATERNION_DATA_W_LSB_ADDR = 0X20,
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BNO055_QUATERNION_DATA_W_MSB_ADDR = 0X21,
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BNO055_QUATERNION_DATA_X_LSB_ADDR = 0X22,
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BNO055_QUATERNION_DATA_X_MSB_ADDR = 0X23,
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BNO055_QUATERNION_DATA_Y_LSB_ADDR = 0X24,
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BNO055_QUATERNION_DATA_Y_MSB_ADDR = 0X25,
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BNO055_QUATERNION_DATA_Z_LSB_ADDR = 0X26,
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BNO055_QUATERNION_DATA_Z_MSB_ADDR = 0X27,
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/* Linear acceleration data registers */
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BNO055_LINEAR_ACCEL_DATA_X_LSB_ADDR = 0X28,
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BNO055_LINEAR_ACCEL_DATA_X_MSB_ADDR = 0X29,
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BNO055_LINEAR_ACCEL_DATA_Y_LSB_ADDR = 0X2A,
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BNO055_LINEAR_ACCEL_DATA_Y_MSB_ADDR = 0X2B,
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BNO055_LINEAR_ACCEL_DATA_Z_LSB_ADDR = 0X2C,
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BNO055_LINEAR_ACCEL_DATA_Z_MSB_ADDR = 0X2D,
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/* Gravity data registers */
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BNO055_GRAVITY_DATA_X_LSB_ADDR = 0X2E,
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BNO055_GRAVITY_DATA_X_MSB_ADDR = 0X2F,
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BNO055_GRAVITY_DATA_Y_LSB_ADDR = 0X30,
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BNO055_GRAVITY_DATA_Y_MSB_ADDR = 0X31,
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BNO055_GRAVITY_DATA_Z_LSB_ADDR = 0X32,
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BNO055_GRAVITY_DATA_Z_MSB_ADDR = 0X33,
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/* Temperature data register */
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BNO055_TEMP_ADDR = 0X34,
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/* Status registers */
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BNO055_CALIB_STAT_ADDR = 0X35,
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BNO055_SELFTEST_RESULT_ADDR = 0X36,
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BNO055_INTR_STAT_ADDR = 0X37,
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BNO055_SYS_CLK_STAT_ADDR = 0X38,
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BNO055_SYS_STAT_ADDR = 0X39,
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BNO055_SYS_ERR_ADDR = 0X3A,
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/* Unit selection register */
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BNO055_UNIT_SEL_ADDR = 0X3B,
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BNO055_DATA_SELECT_ADDR = 0X3C,
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/* Mode registers */
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BNO055_OPR_MODE_ADDR = 0X3D,
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BNO055_PWR_MODE_ADDR = 0X3E,
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BNO055_SYS_TRIGGER_ADDR = 0X3F,
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BNO055_TEMP_SOURCE_ADDR = 0X40,
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/* Axis remap registers */
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BNO055_AXIS_MAP_CONFIG_ADDR = 0X41,
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BNO055_AXIS_MAP_SIGN_ADDR = 0X42,
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/* SIC registers */
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BNO055_SIC_MATRIX_0_LSB_ADDR = 0X43,
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BNO055_SIC_MATRIX_0_MSB_ADDR = 0X44,
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BNO055_SIC_MATRIX_1_LSB_ADDR = 0X45,
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BNO055_SIC_MATRIX_1_MSB_ADDR = 0X46,
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BNO055_SIC_MATRIX_2_LSB_ADDR = 0X47,
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BNO055_SIC_MATRIX_2_MSB_ADDR = 0X48,
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BNO055_SIC_MATRIX_3_LSB_ADDR = 0X49,
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BNO055_SIC_MATRIX_3_MSB_ADDR = 0X4A,
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BNO055_SIC_MATRIX_4_LSB_ADDR = 0X4B,
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BNO055_SIC_MATRIX_4_MSB_ADDR = 0X4C,
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BNO055_SIC_MATRIX_5_LSB_ADDR = 0X4D,
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BNO055_SIC_MATRIX_5_MSB_ADDR = 0X4E,
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BNO055_SIC_MATRIX_6_LSB_ADDR = 0X4F,
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BNO055_SIC_MATRIX_6_MSB_ADDR = 0X50,
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BNO055_SIC_MATRIX_7_LSB_ADDR = 0X51,
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BNO055_SIC_MATRIX_7_MSB_ADDR = 0X52,
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BNO055_SIC_MATRIX_8_LSB_ADDR = 0X53,
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BNO055_SIC_MATRIX_8_MSB_ADDR = 0X54,
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/* Accelerometer Offset registers */
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ACCEL_OFFSET_X_LSB_ADDR = 0X55,
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ACCEL_OFFSET_X_MSB_ADDR = 0X56,
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ACCEL_OFFSET_Y_LSB_ADDR = 0X57,
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ACCEL_OFFSET_Y_MSB_ADDR = 0X58,
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ACCEL_OFFSET_Z_LSB_ADDR = 0X59,
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ACCEL_OFFSET_Z_MSB_ADDR = 0X5A,
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/* Magnetometer Offset registers */
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MAG_OFFSET_X_LSB_ADDR = 0X5B,
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MAG_OFFSET_X_MSB_ADDR = 0X5C,
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MAG_OFFSET_Y_LSB_ADDR = 0X5D,
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MAG_OFFSET_Y_MSB_ADDR = 0X5E,
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MAG_OFFSET_Z_LSB_ADDR = 0X5F,
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MAG_OFFSET_Z_MSB_ADDR = 0X60,
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/* Gyroscope Offset register s*/
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GYRO_OFFSET_X_LSB_ADDR = 0X61,
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GYRO_OFFSET_X_MSB_ADDR = 0X62,
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GYRO_OFFSET_Y_LSB_ADDR = 0X63,
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GYRO_OFFSET_Y_MSB_ADDR = 0X64,
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GYRO_OFFSET_Z_LSB_ADDR = 0X65,
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GYRO_OFFSET_Z_MSB_ADDR = 0X66,
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/* Radius registers */
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ACCEL_RADIUS_LSB_ADDR = 0X67,
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ACCEL_RADIUS_MSB_ADDR = 0X68,
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MAG_RADIUS_LSB_ADDR = 0X69,
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MAG_RADIUS_MSB_ADDR = 0X6A
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} adafruit_bno055_reg_t; |
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typedef enum |
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{
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POWER_MODE_NORMAL = 0X00,
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POWER_MODE_LOWPOWER = 0X01,
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POWER_MODE_SUSPEND = 0X02
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} adafruit_bno055_powermode_t; |
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typedef enum |
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{
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/* Operation mode settings*/
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OPERATION_MODE_CONFIG = 0X00,
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OPERATION_MODE_ACCONLY = 0X01,
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OPERATION_MODE_MAGONLY = 0X02,
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OPERATION_MODE_GYRONLY = 0X03,
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OPERATION_MODE_ACCMAG = 0X04,
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OPERATION_MODE_ACCGYRO = 0X05,
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OPERATION_MODE_MAGGYRO = 0X06,
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OPERATION_MODE_AMG = 0X07,
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OPERATION_MODE_IMUPLUS = 0X08,
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OPERATION_MODE_COMPASS = 0X09,
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OPERATION_MODE_M4G = 0X0A,
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OPERATION_MODE_NDOF_FMC_OFF = 0X0B,
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OPERATION_MODE_NDOF = 0X0C
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} adafruit_bno055_opmode_t; |
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typedef struct |
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{
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uint8_t accel_rev; |
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uint8_t mag_rev; |
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uint8_t gyro_rev; |
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uint16_t sw_rev; |
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uint8_t bl_rev; |
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} adafruit_bno055_rev_info_t; |
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typedef enum |
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{
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VECTOR_ACCELEROMETER = BNO055_ACCEL_DATA_X_LSB_ADDR, |
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VECTOR_MAGNETOMETER = BNO055_MAG_DATA_X_LSB_ADDR, |
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VECTOR_GYROSCOPE = BNO055_GYRO_DATA_X_LSB_ADDR, |
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VECTOR_EULER = BNO055_EULER_H_LSB_ADDR, |
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VECTOR_LINEARACCEL = BNO055_LINEAR_ACCEL_DATA_X_LSB_ADDR, |
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VECTOR_GRAVITY = BNO055_GRAVITY_DATA_X_LSB_ADDR |
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} adafruit_vector_type_t; |
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Adafruit_BNO055 ( int32_t sensorID = -1, uint8_t address = BNO055_ADDRESS_A );
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bool begin ( adafruit_bno055_opmode_t mode = OPERATION_MODE_NDOF );
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void setMode ( adafruit_bno055_opmode_t mode );
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void getRevInfo ( adafruit_bno055_rev_info_t* );
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void displayRevInfo ( void ); |
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void setExtCrystalUse ( boolean usextal );
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void getSystemStatus ( uint8_t *system_status,
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uint8_t *self_test_result, |
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uint8_t *system_error); |
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void displaySystemStatus ( void ); |
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void getCalibration ( uint8_t* system, uint8_t* gyro, uint8_t* accel, uint8_t* mag);
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imu::Vector<3> getVector ( adafruit_vector_type_t vector_type );
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imu::Quaternion getQuat ( void );
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int8_t getTemp ( void );
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/* Adafruit_Sensor implementation */
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bool getEvent ( sensors_event_t* );
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void getSensor ( sensor_t* );
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private:
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byte read8 ( adafruit_bno055_reg_t ); |
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bool readLen ( adafruit_bno055_reg_t, byte* buffer, uint8_t len );
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bool write8 ( adafruit_bno055_reg_t, byte value );
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uint8_t _address; |
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int32_t _sensorID; |
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adafruit_bno055_opmode_t _mode; |
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}; |
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#endif
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