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#include <avr/io.h>
#include <stdlib.h>
#include "fc.h"
#include "timer0.h"
#include "uart.h"
int32_t PWMHeading
= -1;
uint8_t PWMTimeout
= 0;
/*********************************************/
/* Initialize Interface to CMPS02 Compass */
/*********************************************/
void CMPS03_Init
(void)
{
// Port PC4 connected to PWM output from compass module
DDRC
&= ~
(1<<DDC4
); // set as input
PORTC
|= (1<<PORTC4
); // pull up to increase PWM counter also if nothing is connected
PWMTimeout
= 0;
}
/*********************************************/
/* Get Data from CMPS03 */
/*********************************************/
void CMPS03_Update
(void) // called every 102.4 us by timer 0 ISR
{
static uint16_t PWMCount
= 0;
// The pulse width varies from 1ms (0°) to 36.99ms (359.9°)
// in other words 100us/° with a +1ms offset.
// The signal goes low for 65ms between pulses,
// so the cycle time is 65mS + the pulse width.
// The pulse is generated by a 16 bit timer in the processor
// giving a 1uS resolution, however I would not recommend
// measuring this to anything better than 0.1° (10uS).
if(PINC
& (1<<PINC4
))
{ // If PWM signal is high increment PWM high counter
// This counter is incremented by a periode of 102.4us,
// i.e. the resoluton of pwm coded heading is approx. 1 deg.
PWMCount
++;
// pwm overflow?
if (PWMCount
> 400)
{
if(PWMTimeout
) PWMTimeout
--; // decrement timeout
PWMCount
= 0; // reset PWM Counter
}
}
else // PWM is low
{
if((PWMCount
) && (PWMCount
< 400))
{
PWMHeading
= (((uint32_t)PWMCount
* 1024L) / 1000L) - 10; // correct timebase and offset
PWMTimeout
= 12; // if 12 periodes long no valid PWM was detected the data are invalid
// 12 * 400 counts * 102.4 us = 419 ms
}
PWMCount
= 0; // reset pwm counter
}
}
/*********************************************/
/* Calculate north direction (heading) */
/*********************************************/
int16_t CMPS03_Heading
(void)
{
int16_t heading
, w
, v
;
DebugOut.
Analog[11] = PWMTimeout
;
if(PWMTimeout
)
{
w
= abs(IntegralPitch
/ 512);
v
= abs(IntegralRoll
/ 512);
if(v
> w
) w
= v
; // get maximum declination
// if declination is small enough to have valid compass heading
if(w
< 35)
{
// range from 0 to 359
heading
= (int16_t)PWMHeading
;
if (heading
< 0) heading
+= 360;
heading
= heading
%360;
}
else // compass to much tilted
{
heading
= -1;
}
}
else // no data from compass
{
if(!BeepTime
) BeepTime
= 100; // make noise to signal the compass problem
heading
= -1;
}
return heading
;
}