Jim Carver / Mbed 2 deprecated K64F_eCompass_LCD

This is an example of a tilt compensated eCompass running on a K64F Freedom Platform using the on board FXOS8700 6 axis sensor and Freescale's eCompass software library in a linkable object library compiled for a FPU enabled Cortex M4. This version also used the LCD in an App Shield to display navigation data.

Dependencies:   C12832 FXOS8700Q eCompass_FPU_Lib mbed-rtos mbed

Fork of K64F_eCompass by Jim Carver

main.cpp

Committer:
JimCarver
Date:
2014-04-14
Revision:
0:32e37c82ef4a
Child:
2:770f77c92bab

File content as of revision 0:32e37c82ef4a:

#include "mbed.h"
#include "FXOS8700Q.h"
#include "eCompass_Lib.h"
#include "rtos.h"



FXOS8700Q combo1( PTE25, PTE24, FXOS8700CQ_SLAVE_ADDR1);
Serial pc(USBTX, USBRX);
DigitalOut gpo(D0);
DigitalOut led(LED_RED);
eCompass compass;

extern axis6_t axis6;
extern uint32_t seconds;
extern uint32_t compass_type; // optional, NED compass is default
extern int32_t tcount;
extern uint8_t cdebug;
int  l = 0;


void hal_map( int16_t * acc, int16_t * mag)
{
int16_t t;
// swap and negate X & Y axis
t = acc[0];
acc[0] = acc[1] * -1;
acc[1] = t * -1;
// swap mag X & Y axis
t = mag[0];
mag[0] = mag[1];
mag[1] = t;
// negate mag Z axis
mag[2] *= -1;
}

//
// Print data values for debug
//
void debug_print(void)
{
    // Some useful printf statements for debug
    printf("roll=%d, pitch=%d, yaw=%d\r\n", axis6.roll, axis6.pitch, axis6.yaw);
    printf("Acc: X= %2.3f Y= %2.3f Z= %2.3f    ", axis6.fGax, axis6.fGay, axis6.fGaz);
    printf("Mag: X= %4.1f Y= %4.1f Z= %4.1f\r\n\r\n", axis6.fUTmx, axis6.fUTmy, axis6.fUTmz);
    printf("Quaternion: Q0= %1.4f Q1= %1.4f Q2= %1.4f Q3= %1.4f\r\n\r\n", axis6.q0, axis6.q1, axis6.q2, axis6.q3); 
}


void compass_thread(void const *argument) {
    static int16_t acc_raw[3], mag_raw[3];
    // get raw data from the sensors
    combo1.AccXYZraw( acc_raw);
    combo1.MagXYZraw( mag_raw);
    if(tcount) compass.run( acc_raw, mag_raw); // calculate the eCompass
    if(l++ >= 50) { // take car of business once a second
        seconds++;
        debug_print();
        compass.calibrate(); // re-calibrate the eCompass every second
        l = 0;
        led = !led;
        }
    tcount++;
}
         
int main() {

uint8_t d[2];
int16_t acc_raw[3], mag_raw[3];
d[0] = 0;
//cdebug = 1;  // uncomment to disable compass
printf("\r\n\n\n\n\n\n\n");
combo1.enable();
combo1.readRegs( FXOS8700Q_STATUS, d, 1);
printf("Status= %X\r\n", d[0]);
combo1.readRegs( FXOS8700Q_WHOAMI, d, 1);
printf("Who AM I= %X\r\n", d[0]);
combo1.readRegs( FXOS8700Q_XYZ_DATA_CFG, d, 1);
printf("XYZ Cfg= %X\r\n", d[0]);
combo1.readRegs( FXOS8700Q_CTRL_REG1, d, 1);
printf("CTRL REG1= %X\r\n", d[0]);
combo1.readRegs( FXOS8700Q_M_CTRL_REG1, d, 1);
printf("MAG CTRL REG1= %X\r\n", d[0]);
combo1.readRegs( FXOS8700Q_M_CTRL_REG2, d, 1);
printf("Mag CTRL REG2= %X\r\n\r\n", d[0]);

combo1.AccXYZraw( acc_raw);
combo1.MagXYZraw( mag_raw);

RtosTimer compass_timer(compass_thread, osTimerPeriodic);
compass_timer.start(20); // Run the Compass every 20ms
Thread::wait(osWaitForever);  
}