break;
case ADC_MUX_VCC4:
if ( !avr->vcc) {
- printf("ADC Warning : missing VCC analog voltage\n");
+ AVR_LOG(avr, LOG_WARNING, "ADC: missing VCC analog voltage\n");
} else
reg = avr->vcc / 4;
break;
switch (ref) {
case ADC_VREF_VCC:
if (!avr->vcc)
- printf("ADC Warning : missing VCC analog voltage\n");
+ AVR_LOG(avr, LOG_WARNING, "ADC: missing VCC analog voltage\n");
else
vref = avr->vcc;
break;
case ADC_VREF_AREF:
if (!avr->aref)
- printf("ADC Warning : missing AREF analog voltage\n");
+ AVR_LOG(avr, LOG_WARNING, "ADC: missing AREF analog voltage\n");
else
vref = avr->aref;
break;
case ADC_VREF_AVCC:
if (!avr->avcc)
- printf("ADC Warning : missing AVCC analog voltage\n");
+ AVR_LOG(avr, LOG_WARNING, "ADC: missing AVCC analog voltage\n");
else
vref = avr->avcc;
break;
reg = (reg * 0x3ff) / vref; // scale to 10 bits ADC
// printf("ADC to 10 bits 0x%x %d\n", reg, reg);
if (reg > 0x3ff) {
- printf("ADC Warning channel %d clipped %u/%u VREF %d\n", mux.kind, reg, 0x3ff, vref);
+ AVR_LOG(avr, LOG_WARNING, "ADC: channel %d clipped %u/%u VREF %d\n", mux.kind, reg, 0x3ff, vref);
reg = 0x3ff;
}
reg <<= shift;
if (!aden && avr_regbit_get(avr, p->aden)) {
// first conversion
p->first = 1;
- printf("ADC Start AREF %d AVCC %d\n", avr->aref, avr->avcc);
+ AVR_LOG(avr, LOG_TRACE, "ADC: Start AREF %d AVCC %d\n", avr->aref, avr->avcc);
}
if (aden && !avr_regbit_get(avr, p->aden)) {
// stop ADC
div = avr->frequency >> div;
if (p->first)
- printf("ADC starting at %uKHz\n", div / 13 / 100);
+ AVR_LOG(avr, LOG_TRACE, "ADC: starting at %uKHz\n", div / 13 / 100);
div /= p->first ? 25 : 13; // first cycle is longer
avr_cycle_timer_register(avr,
projects / simavr / blobdiff