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Merge remote-tracking branch 'g4klx/master'

48kHz
Andy CA6JAU 2016-11-11 14:23:10 -03:00
parent 09e3e784db 823b68d5ed
commit 355c93a48f
1 changed files with 70 additions and 40 deletions
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110
IOTeensy.cpp
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@ -32,6 +32,8 @@
#define PIN_DMR 8
#define PIN_YSF 7
#define PIN_P25 6
#define PIN_ADC 5 // A0
#define PIN_RSSI 8 // A2
// A Teensy 3.6
#elif defined(__MK66FX1M0__)
@ -43,12 +45,17 @@
#define PIN_DMR 8
#define PIN_YSF 7
#define PIN_P25 6
#define PIN_ADC 5 // A0
#define PIN_RSSI 8 // A2
#endif
#define PDB_CH0C1_TOS 0x0100
#define PDB_CH0C1_EN 0x01
const uint16_t DC_OFFSET = 2048U;
extern "C" {
void adc0_isr()
void pdb_isr()
{
io.interrupt();
}
@ -71,44 +78,57 @@ void CIO::initInt()
#endif
}
#define PDB_CH0C1_TOS 0x0100
#define PDB_CH0C1_EN 0x01
void CIO::startInt()
{
// Initialise ADC0 conversion to be triggered by the PDB
// Initialise ADC0
ADC0_CFG1 = ADC_CFG1_ADIV(1) | ADC_CFG1_ADICLK(1) | ADC_CFG1_MODE(1) |
ADC_CFG1_ADLSMP; // Single-ended 12 bits, long sample time
ADC0_CFG2 = ADC_CFG2_MUXSEL | ADC_CFG2_ADLSTS(2); // Select channels ADxxxb
ADC0_SC2 = ADC_SC2_REFSEL(1) | ADC_SC2_ADTRG; // Voltage ref internal, hardware trigger
ADC0_SC3 = ADC_SC3_AVGE | ADC_SC3_AVGS(0); // Enable averaging, 4 samples
ADC0_SC1A = ADC_SC1_AIEN | 5; // Enable ADC interrupt, use A0
NVIC_ENABLE_IRQ(IRQ_ADC0);
// Setup PDB for ADC0 at 24 kHz
SIM_SCGC6 |= SIM_SCGC6_PDB; // Enable PDB clock
#if F_BUS == 60000000
// 60 MHz for the Teensy 3.5/3.6
PDB0_MOD = 2500; // Timer period for 60 MHz bus
#else
// 48 MHz for the Teensy 3.1/3.2
PDB0_MOD = 2000; // Timer period for 48 MHz bus
#endif
PDB0_IDLY = 0; // Interrupt delay
PDB0_CH0C1 = PDB_CH0C1_TOS | PDB_CH0C1_EN; // Enable pre-trigger
PDB0_SC = PDB_SC_TRGSEL(15) | PDB_SC_PDBEN | PDB_SC_PDBIE |
PDB_SC_CONT | PDB_SC_PRESCALER(7) | PDB_SC_MULT(1) |
PDB_SC_LDOK;
PDB0_SC |= PDB_SC_SWTRIG; // Software trigger (reset and restart counter)
ADC0_SC3 = ADC_SC3_CAL; // Begin calibration
while ((ADC0_SC3 & ADC_SC3_CAL) == ADC_SC3_CAL) // Wait for calibration
;
uint16_t sum0 = ADC0_CLPS + ADC0_CLP4 + ADC0_CLP3 + ADC0_CLP2 + ADC0_CLP1 + ADC0_CLP0; // Plus side gain
sum0 = (sum0 / 2U) | 0x8000U;
ADC0_PG = sum0;
#if defined(SEND_RSSI_DATA)
// Initialise ADC1 conversion to be triggered by the PDB
// Initialise ADC1
ADC1_CFG1 = ADC_CFG1_ADIV(1) | ADC_CFG1_ADICLK(1) | ADC_CFG1_MODE(1) |
ADC_CFG1_ADLSMP; // Single-ended 12 bits, long sample time
ADC1_CFG2 = ADC_CFG2_MUXSEL | ADC_CFG2_ADLSTS(2); // Select channels ADxxxb
ADC1_SC2 = ADC_SC2_REFSEL(1) | ADC_SC2_ADTRG; // Voltage ref internal, hardware trigger
ADC1_SC3 = ADC_SC3_AVGE | ADC_SC3_AVGS(0); // Enable averaging, 4 samples
// Setup interrupt on ADC1 conversion finished
ADC1_SC3 = ADC_SC3_CAL; // Begin calibration
while ((ADC1_SC3 & ADC_SC3_CAL) == ADC_SC3_CAL) // Wait for calibration
;
// Setup PDB for ADC1 at 24 kHz
uint16_t sum1 = ADC1_CLPS + ADC1_CLP4 + ADC1_CLP3 + ADC1_CLP2 + ADC1_CLP1 + ADC1_CLP0; // Plus side gain
sum1 = (sum1 / 2U) | 0x8000U;
ADC1_PG = sum1;
#endif
// Setup PDB for ADC0 at 24 kHz
SIM_SCGC6 |= SIM_SCGC6_PDB; // Enable PDB clock
#if F_BUS == 60000000
// 60 MHz for the Teensy 3.5/3.6
PDB0_MOD = 2500 - 1; // Timer period for 60 MHz bus
#else
// 48 MHz for the Teensy 3.1/3.2
PDB0_MOD = 2000 - 1; // Timer period for 48 MHz bus
#endif
PDB0_IDLY = 0; // Interrupt delay
PDB0_CH0C1 = PDB_CH0C1_TOS | PDB_CH0C1_EN; // Enable pre-trigger
PDB0_SC = PDB_SC_TRGSEL(15) | PDB_SC_PDBEN | PDB_SC_PDBIE |
PDB_SC_CONT | PDB_SC_PRESCALER(7) | PDB_SC_MULT(1) |
PDB_SC_LDOK;
PDB0_SC |= PDB_SC_SWTRIG; // Software trigger (reset and restart counter)
NVIC_ENABLE_IRQ(IRQ_PDB);
// Initialise the DAC
SIM_SCGC2 |= SIM_SCGC2_DAC0;
DAC0_C0 = DAC_C0_DACEN | DAC_C0_DACRFS; // 1.2V VDDA is DACREF_2
@ -120,29 +140,39 @@ void CIO::startInt()
void CIO::interrupt()
{
if ((ADC0_SC1A & ADC_SC1_COCO) == ADC_SC1_COCO) {
uint8_t control = MARK_NONE;
uint16_t sample = DC_OFFSET;
uint8_t control = MARK_NONE;
uint16_t sample = DC_OFFSET;
m_txBuffer.get(sample, control);
*(int16_t *)&(DAC0_DAT0L) = sample;
m_txBuffer.get(sample, control);
*(int16_t *)&(DAC0_DAT0L) = sample;
sample = ADC0_RA;
m_rxBuffer.put(sample, control);
ADC0_SC1A = PIN_ADC; // Start read on A0
// Wait for the read to complete
while ((ADC0_SC1A & ADC_SC1_COCO) != ADC_SC1_COCO)
;
sample = ADC0_RA;
m_rxBuffer.put(sample, control);
#if !defined(SEND_RSSI_DATA)
m_rssiBuffer.put(0U);
m_rssiBuffer.put(0U);
#endif
m_watchdog++;
}
#if defined(SEND_RSSI_DATA)
if ((ADC1_SC1A & ADC_SC1_COCO) == ADC_SC1_COCO) {
uint16_t rssi = ADC1_RA;
m_rssiBuffer.put(rssi);
}
ADC1_SC1A = PIN_RSSI; // Start read on A2
// Wait for the read to complete
while ((ADC1_SC1A & ADC_SC1_COCO) != ADC_SC1_COCO)
;
uint16_t rssi = ADC1_RA;
m_rssiBuffer.put(rssi);
#endif
PDB0_SC &= ~PDB_SC_PDBIF; // Clear interrupt flag
m_watchdog++;
}
bool CIO::getCOSInt()