HEPTA-Sat Training 2017~2018
Hepta9axisSensor Library
Dependents: Lab9-01_All_transmit Lab9-03_Thermal_chamber 3daf572bcae1 Team ... more
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Hepta9axis
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CLTP 8
Hepta9axis.cpp
- Committer:
- HEPTA
- Date:
- 2017-09-05
- Revision:
- 5:098423fb0371
- Parent:
- 4:01941772f493
File content as of revision 5:098423fb0371:
#include"Hepta9axis.h"
#include"mbed.h"
Hepta9axis::Hepta9axis(PinName sda, PinName scl, int aaddr, int agaddr) : n_axis(sda,scl),addr_accel_gyro(aaddr),addr_compus(agaddr)
{
n_axis.frequency(100000);
cmd[0]=0x6B;
cmd[1]=0x00;
n_axis.write(addr_accel_gyro,cmd,2);
cmd[0] = 0x37;
cmd[1] = 0x02;
n_axis.write(addr_accel_gyro,cmd,2);
n_axis.stop();
}
void Hepta9axis::setup()
{
n_axis.frequency(100000);
cmd[0]=0x6B;
cmd[1]=0x00;
n_axis.write(addr_accel_gyro,cmd,2);
cmd[0] = 0x37;
cmd[1] = 0x02;
n_axis.write(addr_accel_gyro,cmd,2);
n_axis.stop();
}
void Hepta9axis::sen_acc(float *ax,float *ay,float *az)
{
//x軸加速度
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3B);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
xh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3C);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
xl = n_axis.read(0);
n_axis.stop();
double acc_ax = short((xh<<8) | (xl));
*ax = (acc_ax)*2/32764*9.81;
//Y軸加速度
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3D);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
yh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3E);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
yl = n_axis.read(0);
n_axis.stop();
double acc_ay = short((yh<<8) | (yl));
*ay = (acc_ay)*2/32764*9.81;
//z軸加速度
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3F);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
zh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x40);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
zl = n_axis.read(0);
n_axis.stop();
double acc_az = short((zh<<8) | (zl));
*az = (acc_az)*2/32764*9.81;
}
void Hepta9axis::sen_gyro(float *gx,float *gy,float *gz)
{
//x軸GYRO
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x43);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gxh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x44);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gxl = n_axis.read(0);
n_axis.stop();
double gyro_ax = short((gxh<<8) | (gxl));
*gx = (gyro_ax)*0.00763;
//y軸GYRO
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x45);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gyh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x46);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gyl = n_axis.read(0);
n_axis.stop();
double gyro_ay = short((gyh<<8) | (gyl));
*gy = (gyro_ay)*0.00763;
//z軸GYRO
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x47);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gzh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x48);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gzl = n_axis.read(0);
n_axis.stop();
double gyro_az = short((gzh<<8) | (gzl));
*gz = (gyro_az)*0.00763;
}
void Hepta9axis::sen_mag(float *mx,float *my,float *mz)
{
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x0A);
n_axis.write(0x12);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x03);
n_axis.start();
n_axis.write(addr_compus|0x01);
mxl = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x04);
n_axis.start();
n_axis.write(addr_compus|0x01);
mxh = n_axis.read(0);
n_axis.stop();
double mg_x = short((mxh<<8) | (mxl));
*mx = ( mg_x)*0.15;
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x05);
n_axis.start();
n_axis.write(addr_compus|0x01);
myl = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x06);
n_axis.start();
n_axis.write(addr_compus|0x01);
myh = n_axis.read(0);
n_axis.stop();
double mg_y = short((myh<<8) | (myl));
*my = ( mg_y)*0.15;
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x07);
n_axis.start();
n_axis.write(addr_compus|0x01);
mzl = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x08);
n_axis.start();
n_axis.write(addr_compus|0x01);
mzh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x09);
n_axis.start();
n_axis.write(addr_compus|0x01);
st2 = n_axis.read(0);
n_axis.stop();
double mg_z= short((mzh<<8) | (mzl));
*mz = ( mg_z)*0.15;
}
//////////////16進数表記/////////////////////////////////////////
void Hepta9axis::sen_gyro_u16(char* gx_u16,char* gy_u16,char* gz_u16)
{
//x軸GYRO
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x43);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gxh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x44);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gxl = n_axis.read(0);
n_axis.stop();
sprintf( g1, "%02X", ((gxh)) & 0xFF);
sprintf( g2, "%02X", ((gxl)) & 0xFF);
gx_u16[0]=g1[0];
gx_u16[1]=g1[1];
gx_u16[2]=g2[0];
gx_u16[3]=g2[1];
//y軸GYRO
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x45);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gyh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x46);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gyl = n_axis.read(0);
n_axis.stop();
sprintf( g1, "%02X", (gyh) & 0xFF);
sprintf( g2, "%02X", (gyl) & 0xFF);
gy_u16[0]=g1[0];
gy_u16[1]=g1[1];
gy_u16[2]=g2[0];
gy_u16[3]=g2[1];
//z軸GYRO
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x47);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gzh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x48);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
gzl = n_axis.read(0);
n_axis.stop();
sprintf( g1, "%02X", ((gzh)) & 0xFF);
sprintf( g2, "%02X", ((gzl)) & 0xFF);
gz_u16[0]=g1[0];
gz_u16[1]=g1[1];
gz_u16[2]=g2[0];
gz_u16[3]=g2[1];
//*dsize = 4;
}
void Hepta9axis::sen_acc_u16(char* ax_u16,char* ay_u16,char* az_u16)
{
//x軸加速度
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3B);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
xh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3C);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
xl = n_axis.read(0);
n_axis.stop();
sprintf( a1, "%02X", ((xh)) & 0xFF);
sprintf( a2, "%02X", ((xl)) & 0xFF);
ax_u16[0]=a1[0];
ax_u16[1]=a1[1];
ax_u16[2]=a2[0];
ax_u16[3]=a2[1];
//Y軸加速度
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3D);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
yh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3E);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
yl = n_axis.read(0);
n_axis.stop();
sprintf( a1, "%02X", ((yh)) & 0xFF);
sprintf( a2, "%02X", ((yl)) & 0xFF);
ay_u16[0]=a1[0];
ay_u16[1]=a1[1];
ay_u16[2]=a2[0];
ay_u16[3]=a2[1];
//z軸加速度
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x3F);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
zh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_accel_gyro);
n_axis.write(0x40);
n_axis.start();
n_axis.write(addr_accel_gyro|0x01);
zl = n_axis.read(0);
n_axis.stop();
sprintf( a1, "%02X", ((zh)) & 0xFF);
sprintf( a2, "%02X", ((zl)) & 0xFF);
az_u16[0]=a1[0];
az_u16[1]=a1[1];
az_u16[2]=a2[0];
az_u16[3]=a2[1];
//*dsize = 4;
}
void Hepta9axis::sen_mag_u16(char* mx_u16,char* my_u16,char* mz_u16)
{
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x0a);
n_axis.write(0x12);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x03);
n_axis.start();
n_axis.write(addr_compus|0x01);
mxl = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x04);
n_axis.start();
n_axis.write(addr_compus|0x01);
mxh = n_axis.read(0);
n_axis.stop();
sprintf( m1, "%02X", ((mxh)) & 0xFF);
sprintf( m2, "%02X", ((mxl)) & 0xFF);
mx_u16[0]=m1[0];
mx_u16[1]=m1[1];
mx_u16[2]=m2[0];
mx_u16[3]=m2[1];
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x05);
n_axis.start();
n_axis.write(addr_compus|0x01);
myl = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x06);
n_axis.start();
n_axis.write(addr_compus|0x01);
myh = n_axis.read(0);
n_axis.stop();
sprintf( m1, "%02X", ((myh)) & 0xFF);
sprintf( m2, "%02X", ((myl)) & 0xFF);
my_u16[0]=m1[0];
my_u16[1]=m1[1];
my_u16[2]=m2[0];
my_u16[3]=m2[1];
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x07);
n_axis.start();
n_axis.write(addr_compus|0x01);
mzl = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x08);
n_axis.start();
n_axis.write(addr_compus|0x01);
mzh = n_axis.read(0);
n_axis.stop();
n_axis.start();
n_axis.write(addr_compus);
n_axis.write(0x09);
n_axis.start();
n_axis.write(addr_compus|0x01);
st2 = n_axis.read(0);
n_axis.stop();
sprintf( m1, "%02X", ((mzh)) & 0xFF);
sprintf( m2, "%02X", ((mzl)) & 0xFF);
mz_u16[0]=m1[0];
mz_u16[1]=m1[1];
mz_u16[2]=m2[0];
mz_u16[3]=m2[1];
//*dsize = 4;
}