Nicolas Jendrowiak
/
BNO055
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BNO055.cpp
- Committer:
- spicyoasiis
- Date:
- 2021-04-12
- Revision:
- 7:3ae15880fca7
- Parent:
- 6:1f722ffec323
File content as of revision 7:3ae15880fca7:
#include "BNO055.h"
#include "mbed.h"
BNO055::BNO055(PinName SDA, PinName SCL) : _i2c(SDA,SCL){
//Set I2C fast and bring reset line high
_i2c.frequency(400000);
address = BNOAddress;
accel_scale = 0.001f;
rate_scale = 1.0f/16.0f;
angle_scale = 1.0f/16.0f;
temp_scale = 1;
}
void BNO055::reset(){
//Perform a power-on-reset
readchar(BNO055_SYS_TRIGGER_ADDR);
rx = rx | 0x20;
writechar(BNO055_SYS_TRIGGER_ADDR,rx);
//Wait for the system to come back up again (datasheet says 650ms)
ThisThread::sleep_for(675ms);
}
bool BNO055::check(){
//Check we have communication link with the chip
rx = 0;
readchar(BNO055_CHIP_ID_ADDR);
if (rx != 0xA0) return false;
//Grab the chip ID and software versions
tx[0] = BNO055_CHIP_ID_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,7,false);
ID.id = rawdata[0];
ID.accel = rawdata[1];
ID.mag = rawdata[2];
ID.gyro = rawdata[3];
ID.sw[0] = rawdata[4];
ID.sw[1] = rawdata[5];
ID.bootload = rawdata[6];
setpage(1);
tx[0] = BNO055_UNIQUE_ID_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,ID.serial,16,false);
setpage(0);
return true;
}
void BNO055::SetExternalCrystal(bool yn){
// Read the current status from the device
readchar(BNO055_SYS_TRIGGER_ADDR);
if (yn) rx = rx | 0x80;
else rx = rx & 0x7F;
writechar(BNO055_SYS_TRIGGER_ADDR,rx);
}
void BNO055::set_accel_units(char units){
readchar(BNO055_UNIT_SEL_ADDR);
if(units == MPERSPERS){
rx = rx & 0xFE;
accel_scale = 0.01f;
}
else {
rx = rx | units;
accel_scale = 0.001f;
}
writechar(BNO055_UNIT_SEL_ADDR,rx);
}
void BNO055::set_anglerate_units(char units){
readchar(BNO055_UNIT_SEL_ADDR);
if (units == DEG_PER_SEC){
rx = rx & 0xFD;
rate_scale = 1.0f/16.0f;
}
else {
rx = rx | units;
rate_scale = 1.0f/900.0f;
}
writechar(BNO055_UNIT_SEL_ADDR,rx);
}
void BNO055::set_angle_units(char units){
readchar(BNO055_UNIT_SEL_ADDR);
if (units == DEGREES){
rx = rx & 0xFB;
angle_scale = 1.0f/16.0f;
}
else {
rx = rx | units;
rate_scale = 1.0f/900.0f;
}
writechar(BNO055_UNIT_SEL_ADDR,rx);
}
void BNO055::set_temp_units(char units){
readchar(BNO055_UNIT_SEL_ADDR);
if (units == CENTIGRADE){
rx = rx & 0xEF;
temp_scale = 1;
}
else {
rx = rx | units;
temp_scale = 2;
}
writechar(BNO055_UNIT_SEL_ADDR,rx);
}
void BNO055::set_orientation(char units){
readchar(BNO055_UNIT_SEL_ADDR);
if (units == WINDOWS) rx = rx &0x7F;
else rx = rx | units;
writechar(BNO055_UNIT_SEL_ADDR,rx);
}
void BNO055::setmode(char omode){
writechar(BNO055_OPR_MODE_ADDR,omode);
op_mode = omode;
}
void BNO055::setpowermode(char pmode){
writechar(BNO055_PWR_MODE_ADDR,pmode);
pwr_mode = pmode;
}
void BNO055::get_accel(void){
tx[0] = BNO055_ACCEL_DATA_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,6,0);
accel.rawx = (rawdata[1] << 8 | rawdata[0]);
accel.rawy = (rawdata[3] << 8 | rawdata[2]);
accel.rawz = (rawdata[5] << 8 | rawdata[4]);
accel.x = float(accel.rawx)*accel_scale;
accel.y = float(accel.rawy)*accel_scale;
accel.z = float(accel.rawz)*accel_scale;
}
void BNO055::get_gyro(void){
tx[0] = BNO055_GYRO_DATA_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,6,0);
gyro.rawx = (rawdata[1] << 8 | rawdata[0]);
gyro.rawy = (rawdata[3] << 8 | rawdata[2]);
gyro.rawz = (rawdata[5] << 8 | rawdata[4]);
gyro.x = float(gyro.rawx)*rate_scale;
gyro.y = float(gyro.rawy)*rate_scale;
gyro.z = float(gyro.rawz)*rate_scale;
}
void BNO055::get_mag(void){
tx[0] = BNO055_MAG_DATA_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,6,0);
mag.rawx = (rawdata[1] << 8 | rawdata[0]);
mag.rawy = (rawdata[3] << 8 | rawdata[2]);
mag.rawz = (rawdata[5] << 8 | rawdata[4]);
mag.x = float(mag.rawx);
mag.y = float(mag.rawy);
mag.z = float(mag.rawz);
}
void BNO055::get_lia(void){
tx[0] = BNO055_LINEAR_ACCEL_DATA_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,6,0);
lia.rawx = (rawdata[1] << 8 | rawdata[0]);
lia.rawy = (rawdata[3] << 8 | rawdata[2]);
lia.rawz = (rawdata[5] << 8 | rawdata[4]);
lia.x = float(lia.rawx)*accel_scale;
lia.y = float(lia.rawy)*accel_scale;
lia.z = float(lia.rawz)*accel_scale;
}
void BNO055::get_grv(void){
tx[0] = BNO055_GRAVITY_DATA_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,6,0);
gravity.rawx = (rawdata[1] << 8 | rawdata[0]);
gravity.rawy = (rawdata[3] << 8 | rawdata[2]);
gravity.rawz = (rawdata[5] << 8 | rawdata[4]);
gravity.x = float(gravity.rawx)*accel_scale;
gravity.y = float(gravity.rawy)*accel_scale;
gravity.z = float(gravity.rawz)*accel_scale;
}
void BNO055::get_quat(void){
tx[0] = BNO055_QUATERNION_DATA_W_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,8,0);
quat.raww = (rawdata[1] << 8 | rawdata[0]);
quat.rawx = (rawdata[3] << 8 | rawdata[2]);
quat.rawy = (rawdata[5] << 8 | rawdata[4]);
quat.rawz = (rawdata[7] << 8 | rawdata[6]);
quat.w = float(quat.raww)/16384.0f;
quat.x = float(quat.rawx)/16384.0f;
quat.y = float(quat.rawy)/16384.0f;
quat.z = float(quat.rawz)/16384.0f;
}
void BNO055::get_angles(void){
tx[0] = BNO055_EULER_H_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address+1,rawdata,6,0);
euler.rawyaw = (rawdata[1] << 8 | rawdata[0]);
euler.rawroll = (rawdata[3] << 8 | rawdata[2]);
euler.rawpitch = (rawdata[5] << 8 | rawdata[4]);
euler.yaw = float(euler.rawyaw)*angle_scale;
euler.roll = float(euler.rawroll)*angle_scale;
euler.pitch = float(euler.rawpitch)*angle_scale;
}
void BNO055::get_temp(void){
readchar(BNO055_TEMP_ADDR);
temperature = rx / temp_scale;
}
void BNO055::get_calib(void){
readchar(BNO055_CALIB_STAT_ADDR);
calib = rx;
}
void BNO055::read_calibration_data(void){
char tempmode = op_mode;
setmode(OPERATION_MODE_CONFIG);
ThisThread::sleep_for(20ms);
tx[0] = ACCEL_OFFSET_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.read(address,calibration,22,false);
setmode(tempmode);
ThisThread::sleep_for(10ms);
}
void BNO055::write_calibration_data(void){
char tempmode = op_mode;
setmode(OPERATION_MODE_CONFIG);
ThisThread::sleep_for(20ms);
tx[0] = ACCEL_OFFSET_X_LSB_ADDR;
_i2c.write(address,tx,1,true);
_i2c.write(address,calibration,22,false);
setmode(tempmode);
ThisThread::sleep_for(10ms);
}
void BNO055::set_mapping(char orient){
switch (orient){
case 0:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x21);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x04);
break;
case 1:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x24);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x00);
break;
case 2:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x24);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x00);
break;
case 3:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x21);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x02);
break;
case 4:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x24);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x03);
break;
case 5:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x21);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x01);
break;
case 6:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x21);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x07);
break;
case 7:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x24);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x05);
break;
default:
writechar(BNO055_AXIS_MAP_CONFIG_ADDR,0x24);
writechar(BNO055_AXIS_MAP_SIGN_ADDR,0x00);
}
}