Mark Peter Vargha / BNO055

I2C library for Bosch BNO055 sensor

Dependents:   Project Campus_Safety_Bot

Fork of BNO055 by Dave Turner

BNO055.h@7:f5880506defe, 2017-05-10 (annotated)

Committer:
vargham
Date:
Wed May 10 12:12:13 2017 +0000
Revision:
7:f5880506defe
Parent:
3:1db1628eb8b2 
Added I2C object and I2C address arguments to constructor.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
StressedDave 0:24f23c36dd24 1 #ifndef BNO055_H
StressedDave 0:24f23c36dd24 2 #define BNO055_H
StressedDave 0:24f23c36dd24 3
StressedDave 0:24f23c36dd24 4 #include "mbed.h"
StressedDave 0:24f23c36dd24 5 //
StressedDave 0:24f23c36dd24 6 #define BNOAddress (0x28 << 1)
StressedDave 0:24f23c36dd24 7 //Register definitions
vargham 7:f5880506defe 8 /* Page id register definition */
StressedDave 0:24f23c36dd24 9 #define BNO055_PAGE_ID_ADDR 0x07
vargham 7:f5880506defe 10 /* PAGE0 REGISTER DEFINITION START*/
vargham 7:f5880506defe 11 #define BNO055_CHIP_ID_ADDR 0x00
StressedDave 0:24f23c36dd24 12 #define BNO055_ACCEL_REV_ID_ADDR 0x01
StressedDave 0:24f23c36dd24 13 #define BNO055_MAG_REV_ID_ADDR 0x02
StressedDave 0:24f23c36dd24 14 #define BNO055_GYRO_REV_ID_ADDR 0x03
StressedDave 0:24f23c36dd24 15 #define BNO055_SW_REV_ID_LSB_ADDR 0x04
StressedDave 0:24f23c36dd24 16 #define BNO055_SW_REV_ID_MSB_ADDR 0x05
StressedDave 0:24f23c36dd24 17 #define BNO055_BL_REV_ID_ADDR 0x06
vargham 7:f5880506defe 18 /* Accel data register */
StressedDave 0:24f23c36dd24 19 #define BNO055_ACCEL_DATA_X_LSB_ADDR 0x08
StressedDave 0:24f23c36dd24 20 #define BNO055_ACCEL_DATA_X_MSB_ADDR 0x09
StressedDave 0:24f23c36dd24 21 #define BNO055_ACCEL_DATA_Y_LSB_ADDR 0x0A
StressedDave 0:24f23c36dd24 22 #define BNO055_ACCEL_DATA_Y_MSB_ADDR 0x0B
vargham 7:f5880506defe 23 #define BNO055_ACCEL_DATA_Z_LSB_ADDR 0x0C
StressedDave 0:24f23c36dd24 24 #define BNO055_ACCEL_DATA_Z_MSB_ADDR 0x0D
vargham 7:f5880506defe 25 /* Mag data register */
StressedDave 0:24f23c36dd24 26 #define BNO055_MAG_DATA_X_LSB_ADDR 0x0E
StressedDave 0:24f23c36dd24 27 #define BNO055_MAG_DATA_X_MSB_ADDR 0x0F
StressedDave 0:24f23c36dd24 28 #define BNO055_MAG_DATA_Y_LSB_ADDR 0x10
StressedDave 0:24f23c36dd24 29 #define BNO055_MAG_DATA_Y_MSB_ADDR 0x11
StressedDave 0:24f23c36dd24 30 #define BNO055_MAG_DATA_Z_LSB_ADDR 0x12
StressedDave 0:24f23c36dd24 31 #define BNO055_MAG_DATA_Z_MSB_ADDR 0x13
vargham 7:f5880506defe 32 /* Gyro data registers */
StressedDave 0:24f23c36dd24 33 #define BNO055_GYRO_DATA_X_LSB_ADDR 0x14
StressedDave 0:24f23c36dd24 34 #define BNO055_GYRO_DATA_X_MSB_ADDR 0x15
StressedDave 0:24f23c36dd24 35 #define BNO055_GYRO_DATA_Y_LSB_ADDR 0x16
StressedDave 0:24f23c36dd24 36 #define BNO055_GYRO_DATA_Y_MSB_ADDR 0x17
StressedDave 0:24f23c36dd24 37 #define BNO055_GYRO_DATA_Z_LSB_ADDR 0x18
StressedDave 0:24f23c36dd24 38 #define BNO055_GYRO_DATA_Z_MSB_ADDR 0x19
vargham 7:f5880506defe 39 /* Euler data registers */
StressedDave 0:24f23c36dd24 40 #define BNO055_EULER_H_LSB_ADDR 0x1A
StressedDave 0:24f23c36dd24 41 #define BNO055_EULER_H_MSB_ADDR 0x1B
StressedDave 0:24f23c36dd24 42 #define BNO055_EULER_R_LSB_ADDR 0x1C
StressedDave 0:24f23c36dd24 43 #define BNO055_EULER_R_MSB_ADDR 0x1D
StressedDave 0:24f23c36dd24 44 #define BNO055_EULER_P_LSB_ADDR 0x1E
StressedDave 0:24f23c36dd24 45 #define BNO055_EULER_P_MSB_ADDR 0x1F
vargham 7:f5880506defe 46 /* Quaternion data registers */
StressedDave 0:24f23c36dd24 47 #define BNO055_QUATERNION_DATA_W_LSB_ADDR 0x20
StressedDave 0:24f23c36dd24 48 #define BNO055_QUATERNION_DATA_W_MSB_ADDR 0x21
StressedDave 0:24f23c36dd24 49 #define BNO055_QUATERNION_DATA_X_LSB_ADDR 0x22
StressedDave 0:24f23c36dd24 50 #define BNO055_QUATERNION_DATA_X_MSB_ADDR 0x23
StressedDave 0:24f23c36dd24 51 #define BNO055_QUATERNION_DATA_Y_LSB_ADDR 0x24
StressedDave 0:24f23c36dd24 52 #define BNO055_QUATERNION_DATA_Y_MSB_ADDR 0x25
StressedDave 0:24f23c36dd24 53 #define BNO055_QUATERNION_DATA_Z_LSB_ADDR 0x26
StressedDave 0:24f23c36dd24 54 #define BNO055_QUATERNION_DATA_Z_MSB_ADDR 0x27
vargham 7:f5880506defe 55 /* Linear acceleration data registers */
StressedDave 0:24f23c36dd24 56 #define BNO055_LINEAR_ACCEL_DATA_X_LSB_ADDR 0x28
StressedDave 0:24f23c36dd24 57 #define BNO055_LINEAR_ACCEL_DATA_X_MSB_ADDR 0x29
StressedDave 0:24f23c36dd24 58 #define BNO055_LINEAR_ACCEL_DATA_Y_LSB_ADDR 0x2A
StressedDave 0:24f23c36dd24 59 #define BNO055_LINEAR_ACCEL_DATA_Y_MSB_ADDR 0x2B
StressedDave 0:24f23c36dd24 60 #define BNO055_LINEAR_ACCEL_DATA_Z_LSB_ADDR 0x2C
StressedDave 0:24f23c36dd24 61 #define BNO055_LINEAR_ACCEL_DATA_Z_MSB_ADDR 0x2D
vargham 7:f5880506defe 62 /* Gravity data registers */
StressedDave 0:24f23c36dd24 63 #define BNO055_GRAVITY_DATA_X_LSB_ADDR 0x2E
StressedDave 0:24f23c36dd24 64 #define BNO055_GRAVITY_DATA_X_MSB_ADDR 0x2F
StressedDave 0:24f23c36dd24 65 #define BNO055_GRAVITY_DATA_Y_LSB_ADDR 0x30
StressedDave 0:24f23c36dd24 66 #define BNO055_GRAVITY_DATA_Y_MSB_ADDR 0x31
StressedDave 0:24f23c36dd24 67 #define BNO055_GRAVITY_DATA_Z_LSB_ADDR 0x32
StressedDave 0:24f23c36dd24 68 #define BNO055_GRAVITY_DATA_Z_MSB_ADDR 0x33
vargham 7:f5880506defe 69 /* Temperature data register */
vargham 7:f5880506defe 70 #define BNO055_TEMP_ADDR 0x34
vargham 7:f5880506defe 71 /* Status registers */
vargham 7:f5880506defe 72 #define BNO055_CALIB_STAT_ADDR 0x35
vargham 7:f5880506defe 73 #define BNO055_SELFTEST_RESULT_ADDR 0x36
vargham 7:f5880506defe 74 #define BNO055_INTR_STAT_ADDR 0x37
vargham 7:f5880506defe 75 #define BNO055_SYS_CLK_STAT_ADDR 0x38
vargham 7:f5880506defe 76 #define BNO055_SYS_STAT_ADDR 0x39
vargham 7:f5880506defe 77 #define BNO055_SYS_ERR_ADDR 0x3A
vargham 7:f5880506defe 78 /* Unit selection register */
vargham 7:f5880506defe 79 #define BNO055_UNIT_SEL_ADDR 0x3B
vargham 7:f5880506defe 80 #define BNO055_DATA_SELECT_ADDR 0x3C
vargham 7:f5880506defe 81 /* Mode registers */
vargham 7:f5880506defe 82 #define BNO055_OPR_MODE_ADDR 0x3D
vargham 7:f5880506defe 83 #define BNO055_PWR_MODE_ADDR 0x3E
vargham 7:f5880506defe 84 #define BNO055_SYS_TRIGGER_ADDR 0x3F
vargham 7:f5880506defe 85 #define BNO055_TEMP_SOURCE_ADDR 0x40
vargham 7:f5880506defe 86 /* Axis remap registers */
vargham 7:f5880506defe 87 #define BNO055_AXIS_MAP_CONFIG_ADDR 0x41
vargham 7:f5880506defe 88 #define BNO055_AXIS_MAP_SIGN_ADDR 0x42
vargham 7:f5880506defe 89 /* Accelerometer Offset registers */
vargham 7:f5880506defe 90 #define ACCEL_OFFSET_X_LSB_ADDR 0x55
vargham 7:f5880506defe 91 #define ACCEL_OFFSET_X_MSB_ADDR 0x56
StressedDave 0:24f23c36dd24 92 #define ACCEL_OFFSET_Y_LSB_ADDR 0x57
vargham 7:f5880506defe 93 #define ACCEL_OFFSET_Y_MSB_ADDR 0x58
vargham 7:f5880506defe 94 #define ACCEL_OFFSET_Z_LSB_ADDR 0x59
vargham 7:f5880506defe 95 #define ACCEL_OFFSET_Z_MSB_ADDR 0x5A
vargham 7:f5880506defe 96 /* Magnetometer Offset registers */
StressedDave 0:24f23c36dd24 97 #define MAG_OFFSET_X_LSB_ADDR 0x5B
StressedDave 0:24f23c36dd24 98 #define MAG_OFFSET_X_MSB_ADDR 0x5C
StressedDave 0:24f23c36dd24 99 #define MAG_OFFSET_Y_LSB_ADDR 0x5D
StressedDave 0:24f23c36dd24 100 #define MAG_OFFSET_Y_MSB_ADDR 0x5E
StressedDave 0:24f23c36dd24 101 #define MAG_OFFSET_Z_LSB_ADDR 0x5F
StressedDave 0:24f23c36dd24 102 #define MAG_OFFSET_Z_MSB_ADDR 0x60
vargham 7:f5880506defe 103 /* Gyroscope Offset registers*/
StressedDave 0:24f23c36dd24 104 #define GYRO_OFFSET_X_LSB_ADDR 0x61
StressedDave 0:24f23c36dd24 105 #define GYRO_OFFSET_X_MSB_ADDR 0x62
StressedDave 0:24f23c36dd24 106 #define GYRO_OFFSET_Y_LSB_ADDR 0x63
StressedDave 0:24f23c36dd24 107 #define GYRO_OFFSET_Y_MSB_ADDR 0x64
StressedDave 0:24f23c36dd24 108 #define GYRO_OFFSET_Z_LSB_ADDR 0x65
StressedDave 0:24f23c36dd24 109 #define GYRO_OFFSET_Z_MSB_ADDR 0x66
vargham 7:f5880506defe 110 /* Radius registers */
vargham 7:f5880506defe 111 #define ACCEL_RADIUS_LSB_ADDR 0x67
vargham 7:f5880506defe 112 #define ACCEL_RADIUS_MSB_ADDR 0x68
vargham 7:f5880506defe 113 #define MAG_RADIUS_LSB_ADDR 0x69
vargham 7:f5880506defe 114 #define MAG_RADIUS_MSB_ADDR 0x6A
StressedDave 0:24f23c36dd24 115
StressedDave 0:24f23c36dd24 116 /* Page 1 registers */
StressedDave 0:24f23c36dd24 117 #define BNO055_UNIQUE_ID_ADDR 0x50
StressedDave 0:24f23c36dd24 118
StressedDave 0:24f23c36dd24 119 //Definitions for unit selection
StressedDave 0:24f23c36dd24 120 #define MPERSPERS 0x00
StressedDave 0:24f23c36dd24 121 #define MILLIG 0x01
StressedDave 0:24f23c36dd24 122 #define DEG_PER_SEC 0x00
StressedDave 0:24f23c36dd24 123 #define RAD_PER_SEC 0x02
StressedDave 0:24f23c36dd24 124 #define DEGREES 0x00
StressedDave 1:2c3322a8d417 125 #define RADIANS 0x04
StressedDave 0:24f23c36dd24 126 #define CENTIGRADE 0x00
StressedDave 1:2c3322a8d417 127 #define FAHRENHEIT 0x10
StressedDave 1:2c3322a8d417 128 #define WINDOWS 0x00
StressedDave 1:2c3322a8d417 129 #define ANDROID 0x80
StressedDave 0:24f23c36dd24 130
StressedDave 0:24f23c36dd24 131 //Definitions for power mode
vargham 7:f5880506defe 132 #define POWER_MODE_NORMAL 0x00
vargham 7:f5880506defe 133 #define POWER_MODE_LOWPOWER 0x01
vargham 7:f5880506defe 134 #define POWER_MODE_SUSPEND 0x02
StressedDave 0:24f23c36dd24 135
StressedDave 0:24f23c36dd24 136 //Definitions for operating mode
vargham 7:f5880506defe 137 #define OPERATION_MODE_CONFIG 0x00
vargham 7:f5880506defe 138 #define OPERATION_MODE_ACCONLY 0x01
vargham 7:f5880506defe 139 #define OPERATION_MODE_MAGONLY 0x02
vargham 7:f5880506defe 140 #define OPERATION_MODE_GYRONLY 0x03
vargham 7:f5880506defe 141 #define OPERATION_MODE_ACCMAG 0x04
vargham 7:f5880506defe 142 #define OPERATION_MODE_ACCGYRO 0x05
vargham 7:f5880506defe 143 #define OPERATION_MODE_MAGGYRO 0x06
vargham 7:f5880506defe 144 #define OPERATION_MODE_AMG 0x07
vargham 7:f5880506defe 145 #define OPERATION_MODE_IMUPLUS 0x08
vargham 7:f5880506defe 146 #define OPERATION_MODE_COMPASS 0x09
vargham 7:f5880506defe 147 #define OPERATION_MODE_M4G 0x0A
vargham 7:f5880506defe 148 #define OPERATION_MODE_NDOF_FMC_OFF 0x0B
vargham 7:f5880506defe 149 #define OPERATION_MODE_NDOF 0x0C
StressedDave 0:24f23c36dd24 150
StressedDave 0:24f23c36dd24 151 typedef struct values{
StressedDave 0:24f23c36dd24 152 int16_t rawx,rawy,rawz;
StressedDave 0:24f23c36dd24 153 float x,y,z;
StressedDave 0:24f23c36dd24 154 }values;
vargham 7:f5880506defe 155
StressedDave 0:24f23c36dd24 156 typedef struct angles{
StressedDave 0:24f23c36dd24 157 int16_t rawroll,rawpitch,rawyaw;
StressedDave 0:24f23c36dd24 158 float roll, pitch, yaw;
StressedDave 0:24f23c36dd24 159 } angles;
vargham 7:f5880506defe 160
StressedDave 0:24f23c36dd24 161 typedef struct quaternion{
StressedDave 0:24f23c36dd24 162 int16_t raww,rawx,rawy,rawz;
StressedDave 0:24f23c36dd24 163 float w,x,y,z;
StressedDave 0:24f23c36dd24 164 }quaternion;
StressedDave 0:24f23c36dd24 165
StressedDave 0:24f23c36dd24 166 typedef struct chip{
StressedDave 0:24f23c36dd24 167 char id;
StressedDave 0:24f23c36dd24 168 char accel;
StressedDave 0:24f23c36dd24 169 char gyro;
StressedDave 0:24f23c36dd24 170 char mag;
StressedDave 0:24f23c36dd24 171 char sw[2];
StressedDave 0:24f23c36dd24 172 char bootload;
StressedDave 0:24f23c36dd24 173 char serial[16];
StressedDave 0:24f23c36dd24 174 }chip;
StressedDave 0:24f23c36dd24 175
StressedDave 2:695c6e5d239a 176 /** Class for operating Bosch BNO055 sensor over I2C **/
vargham 7:f5880506defe 177 class BNO055
vargham 7:f5880506defe 178 {
vargham 7:f5880506defe 179 public:
StressedDave 0:24f23c36dd24 180
StressedDave 2:695c6e5d239a 181 /** Create BNO055 instance **/
vargham 7:f5880506defe 182 BNO055(PinName SDA, PinName SCL, char i2cAddress = BNOAddress);
vargham 7:f5880506defe 183
vargham 7:f5880506defe 184 /** Create BNO055 instance **/
vargham 7:f5880506defe 185 BNO055(I2C &i2c, char i2cAddress = BNOAddress);
vargham 7:f5880506defe 186
StressedDave 2:695c6e5d239a 187 /** Perform a power-on reset of the BNO055 **/
StressedDave 0:24f23c36dd24 188 void reset();
vargham 7:f5880506defe 189 /** Check that the BNO055 is connected and download the software details
StressedDave 2:695c6e5d239a 190 and serial number of chip and store in ID structure **/
StressedDave 0:24f23c36dd24 191 bool check();
StressedDave 2:695c6e5d239a 192 /** Turn the external timing crystal on/off **/
StressedDave 0:24f23c36dd24 193 void SetExternalCrystal(bool yn);
vargham 7:f5880506defe 194 /** Set the operation mode of the sensor **/
StressedDave 0:24f23c36dd24 195 void setmode(char mode);
StressedDave 2:695c6e5d239a 196 /** Set the power mode of the sensor **/
StressedDave 0:24f23c36dd24 197 void setpowermode(char mode);
vargham 7:f5880506defe 198
StressedDave 2:695c6e5d239a 199 /** Set the output units from the accelerometer, either MPERSPERS or MILLIG **/
StressedDave 0:24f23c36dd24 200 void set_accel_units(char units);
StressedDave 2:695c6e5d239a 201 /** Set the output units from the gyroscope, either DEG_PER_SEC or RAD_PER_SEC **/
StressedDave 0:24f23c36dd24 202 void set_anglerate_units(char units);
StressedDave 2:695c6e5d239a 203 /** Set the output units from the IMU, either DEGREES or RADIANS **/
StressedDave 0:24f23c36dd24 204 void set_angle_units(char units);
StressedDave 2:695c6e5d239a 205 /** Set the output units from the temperature sensor, either CENTIGRADE or FAHRENHEIT **/
StressedDave 0:24f23c36dd24 206 void set_temp_units(char units);
vargham 7:f5880506defe 207 /** Set the data output format to either WINDOWS or ANDROID **/
StressedDave 1:2c3322a8d417 208 void set_orientation(char units);
StressedDave 2:695c6e5d239a 209 /** Set the mapping of the exes/directions as per page 25 of datasheet
StressedDave 2:695c6e5d239a 210 range 0-7, any value outside this will set the orientation to P1 (default at power up) **/
StressedDave 1:2c3322a8d417 211 void set_mapping(char orient);
vargham 7:f5880506defe 212
StressedDave 2:695c6e5d239a 213 /** Get the current values from the accelerometer **/
StressedDave 0:24f23c36dd24 214 void get_accel(void);
StressedDave 2:695c6e5d239a 215 /** Get the current values from the gyroscope **/
StressedDave 0:24f23c36dd24 216 void get_gyro(void);
StressedDave 2:695c6e5d239a 217 /** Get the current values from the magnetometer **/
StressedDave 0:24f23c36dd24 218 void get_mag(void);
StressedDave 2:695c6e5d239a 219 /** Get the corrected linear acceleration **/
StressedDave 0:24f23c36dd24 220 void get_lia(void);
StressedDave 2:695c6e5d239a 221 /** Get the current gravity vector **/
StressedDave 0:24f23c36dd24 222 void get_grv(void);
StressedDave 2:695c6e5d239a 223 /** Get the output quaternion **/
StressedDave 0:24f23c36dd24 224 void get_quat(void);
StressedDave 2:695c6e5d239a 225 /** Get the current Euler angles **/
StressedDave 2:695c6e5d239a 226 void get_angles(void);
StressedDave 2:695c6e5d239a 227 /** Get the current temperature **/
StressedDave 1:2c3322a8d417 228 void get_temp(void);
StressedDave 1:2c3322a8d417 229
StressedDave 2:695c6e5d239a 230 /** Read the calibration status register and store the result in the calib variable **/
StressedDave 0:24f23c36dd24 231 void get_calib(void);
StressedDave 2:695c6e5d239a 232 /** Read the offset and radius values into the calibration array**/
StressedDave 1:2c3322a8d417 233 void read_calibration_data(void);
vargham 7:f5880506defe 234 /** Write the contents of the calibration array into the registers **/
StressedDave 1:2c3322a8d417 235 void write_calibration_data(void);
vargham 7:f5880506defe 236
StressedDave 2:695c6e5d239a 237 /** Structures containing 3-axis data for acceleration, rate of turn and magnetic field.
StressedDave 2:695c6e5d239a 238 x,y,z are the scale floating point values and
StressedDave 2:695c6e5d239a 239 rawx, rawy, rawz are the int16_t values read from the sensors **/
StressedDave 0:24f23c36dd24 240 values accel,gyro,mag,lia,gravity;
StressedDave 2:695c6e5d239a 241 /** Stucture containing the Euler angles as yaw, pitch, roll as scaled floating point
StressedDave 2:695c6e5d239a 242 and rawyaw, rawroll & rollpitch as the int16_t values loaded from the registers **/
StressedDave 0:24f23c36dd24 243 angles euler;
StressedDave 2:695c6e5d239a 244 /** Quaternion values as w,x,y,z (scaled floating point) and raww etc... as int16_t loaded from the
vargham 7:f5880506defe 245 registers **/
StressedDave 0:24f23c36dd24 246 quaternion quat;
StressedDave 2:695c6e5d239a 247
StressedDave 2:695c6e5d239a 248 /** Current contents of calibration status register **/
StressedDave 0:24f23c36dd24 249 char calib;
StressedDave 2:695c6e5d239a 250 /** Contents of the 22 registers containing offset and radius values used as calibration by the sensor **/
StressedDave 0:24f23c36dd24 251 char calibration[22];
StressedDave 3:1db1628eb8b2 252 /** Structure containing sensor numbers, software version and chip UID **/
StressedDave 0:24f23c36dd24 253 chip ID;
StressedDave 2:695c6e5d239a 254 /** Current temperature **/
StressedDave 1:2c3322a8d417 255 int temperature;
vargham 7:f5880506defe 256
StressedDave 0:24f23c36dd24 257 private:
vargham 7:f5880506defe 258
StressedDave 0:24f23c36dd24 259 I2C _i2c;
StressedDave 0:24f23c36dd24 260 char rx,tx[2],address; //I2C variables
StressedDave 1:2c3322a8d417 261 char rawdata[22]; //Temporary array for input data values
StressedDave 0:24f23c36dd24 262 char op_mode;
StressedDave 0:24f23c36dd24 263 char pwr_mode;
StressedDave 1:2c3322a8d417 264 float accel_scale,rate_scale,angle_scale;
StressedDave 1:2c3322a8d417 265 int temp_scale;
vargham 7:f5880506defe 266
StressedDave 0:24f23c36dd24 267 void readchar(char location){
StressedDave 0:24f23c36dd24 268 tx[0] = location;
StressedDave 0:24f23c36dd24 269 _i2c.write(address,tx,1,true);
StressedDave 0:24f23c36dd24 270 _i2c.read(address,&rx,1,false);
StressedDave 0:24f23c36dd24 271 }
StressedDave 0:24f23c36dd24 272
StressedDave 0:24f23c36dd24 273 void writechar(char location, char value){
StressedDave 0:24f23c36dd24 274 tx[0] = location;
StressedDave 0:24f23c36dd24 275 tx[1] = value;
StressedDave 0:24f23c36dd24 276 _i2c.write(address,tx,2);
StressedDave 0:24f23c36dd24 277 }
StressedDave 0:24f23c36dd24 278
StressedDave 0:24f23c36dd24 279 void setpage(char value){
StressedDave 0:24f23c36dd24 280 writechar(BNO055_PAGE_ID_ADDR,value);
StressedDave 0:24f23c36dd24 281 }
StressedDave 0:24f23c36dd24 282 };
vargham 7:f5880506defe 283 #endif