*/
#include "ao.h"
+#include "ao_pins.h"
volatile __xdata struct ao_adc ao_adc_ring[AO_ADC_RING];
+#if HAS_ACCEL_REF
+volatile __xdata uint16_t ao_accel_ref[AO_ADC_RING];
+#endif
volatile __data uint8_t ao_adc_head;
void
ao_adc_poll(void)
{
+#if HAS_ACCEL_REF
+ ADCCON3 = ADCCON3_EREF_VDD | ADCCON3_EDIV_512 | 2;
+#else
ADCCON3 = ADCCON3_EREF_VDD | ADCCON3_EDIV_512 | 0;
-}
-
-void
-ao_adc_sleep(void)
-{
- ao_sleep(&ao_adc_ring);
+#endif
}
void
ao_adc_get(__xdata struct ao_adc *packet)
{
- uint8_t i = ao_adc_ring_prev(ao_adc_head);
+ uint8_t i = ao_adc_ring_prev(ao_flight_adc);
memcpy(packet, &ao_adc_ring[i], sizeof (struct ao_adc));
}
void
-ao_adc_isr(void) interrupt 1
+ao_adc_isr(void) __interrupt 1
{
uint8_t sequence;
uint8_t __xdata *a;
sequence = (ADCCON2 & ADCCON2_SCH_MASK) >> ADCCON2_SCH_SHIFT;
- a = (uint8_t __xdata *) (&ao_adc_ring[ao_adc_head].accel + sequence);
+#if HAS_ACCEL_REF
+ if (sequence == 2) {
+ a = (uint8_t __xdata *) (&ao_accel_ref[ao_adc_head]);
+ sequence = 0;
+ } else
+#endif
+ {
+ if (sequence == ADCCON3_ECH_TEMP)
+ sequence = 2;
+ a = (uint8_t __xdata *) (&ao_adc_ring[ao_adc_head].accel + sequence);
+ sequence++;
+ }
a[0] = ADCL;
a[1] = ADCH;
- if (sequence < 5) {
+ if (sequence < 6) {
+#if HAS_EXTERNAL_TEMP == 0
/* start next channel conversion */
- ADCCON3 = ADCCON3_EREF_VDD | ADCCON3_EDIV_512 | (sequence + 1);
+ /* v0.2 replaces external temp sensor with internal one */
+ if (sequence == 2)
+ ADCCON3 = ADCCON3_EREF_1_25 | ADCCON3_EDIV_512 | ADCCON3_ECH_TEMP;
+ else
+#endif
+ ADCCON3 = ADCCON3_EREF_VDD | ADCCON3_EDIV_512 | sequence;
} else {
/* record this conversion series */
ao_adc_ring[ao_adc_head].tick = ao_time();
ao_adc_head = ao_adc_ring_next(ao_adc_head);
- ao_wakeup(ao_adc_ring);
+ ao_wakeup(DATA_TO_XDATA(&ao_adc_head));
}
}
{
ADCCFG = ((1 << 0) | /* acceleration */
(1 << 1) | /* pressure */
- (1 << 2) | /* temperature */
+#if HAS_EXTERNAL_TEMP
+ (1 << 2) | /* v0.1 temperature */
+#endif
(1 << 3) | /* battery voltage */
(1 << 4) | /* drogue sense */
(1 << 5)); /* main sense */