void aic23b_dac_decrease_volume(void)
{
int8_t volume = aic23b_get_headphone_volume(AIC23B_LEFT_CHANNEL);
if( volume != AIC23B_MUTED )
volume--;
aic23b_set_headphone_volume(AIC23B_LEFT_CHANNEL | AIC23B_RIGHT_CHANNEL,
volume,
true);
}
void aic23b_dac_increase_volume(void)
{
int8_t volume = aic23b_get_headphone_volume(AIC23B_LEFT_CHANNEL);
if( volume < AIC23B_HP_VOL_MIN )
volume = AIC23B_HP_VOL_MIN;
aic23b_set_headphone_volume(AIC23B_LEFT_CHANNEL | AIC23B_RIGHT_CHANNEL,
volume + 1,
true);
}
void aic23b_dac_start(uint32_t sample_rate_hz,
uint8_t num_channels,
uint8_t bits_per_sample,
bool swap_channels,
void (*callback)(uint32_t arg),
uint32_t callback_opt,
uint32_t pba_hz)
{
#if AIC23B_CTRL_INTERFACE == AIC23B_CTRL_INTERFACE_SPI
static const spi_options_t AIC23B_SPI_OPTIONS =
{
.reg = AIC23B_SPI_NPCS,
.baudrate = AIC23B_SPI_MASTER_SPEED,
.bits = AIC23B_CTRL_SIZE,
.spck_delay = 0,
.trans_delay = 0,
.stay_act = 0,
.spi_mode = 3,
.modfdis = 1
};
spi_setupChipReg(AIC23B_SPI, &AIC23B_SPI_OPTIONS, pba_hz);
#endif
aic23b_dac_stop();
gpio_enable_module(AIC23B_SSC_DAC_GPIO_MAP,
sizeof(AIC23B_SSC_DAC_GPIO_MAP) / sizeof(AIC23B_SSC_DAC_GPIO_MAP[0]));
aic23b_pdc_t pdc;
pdc.data = AIC23B_DEFAULT(AIC23B_PDC);
pdc.off = 0;
pdc.clk = 0;
pdc.osc = 0;
pdc.out = 0;
pdc.dac = 0;
pdc.adc = 1;
pdc.mic = 1;
pdc.line = 1;
aic23b_set_power_down_state(pdc);
aic23b_dac_setup(sample_rate_hz,
num_channels,
bits_per_sample,
swap_channels,
callback,
callback_opt,
pba_hz);
aic23b_aapc_t aapc;
aapc.data = AIC23B_DEFAULT(AIC23B_AAPC);
aapc.ste = 0;
aapc.dac = 1;
aapc.byp = 0;
aapc.micm = 1;
aapc.micb = 0;
aic23b_set_analog_audio_path(aapc);
aic23b_dapc_t dapc;
dapc.data = AIC23B_DEFAULT(AIC23B_DAPC);
dapc.dacm = 0;
dapc.deemp = AIC23B_DAPC_DEEMP_NONE;
dapc.adchp = 1;
aic23b_set_digital_audio_path(dapc);
// set an acceptable start volume
aic23b_set_headphone_volume(AIC23B_LEFT_CHANNEL | AIC23B_RIGHT_CHANNEL,
-30,
true);
aic23b_activate_dig_audio(true);
INTC_register_interrupt(&aic23b_ssc_tx_pdca_int_handler,
AIC23B_SSC_TX_PDCA_IRQ,
AIC23B_SSC_TX_PDCA_INT_LEVEL);
}
void aic23b_dac_setup(uint32_t sample_rate_hz,
uint8_t num_channels,
uint8_t bits_per_sample,
bool swap_channels,
void (*callback)(uint32_t arg),
uint32_t callback_opt,
uint32_t pba_hz)
{
#if defined(AIC23B_DAC_USE_RX_CLOCK) && AIC23B_DAC_USE_RX_CLOCK == true
#if defined(AIC23B_DAC_RX_CLOCK_SET_CALLBACK)
AIC23B_DAC_RX_CLOCK_SET_CALLBACK(2 * sample_rate_hz *
((bits_per_sample <= 16) ? 16 :
(bits_per_sample <= 20) ? 20 :
(bits_per_sample <= 24) ? 24 :
32));
#endif
ssc_i2s_init(AIC23B_SSC,
sample_rate_hz,
bits_per_sample,
(bits_per_sample <= 16) ? 16 :
(bits_per_sample <= 20) ? 20 :
(bits_per_sample <= 24) ? 24 :
32,
SSC_I2S_MODE_STEREO_OUT_EXT_CLK,
pba_hz);
#else
ssc_i2s_init(AIC23B_SSC,
sample_rate_hz,
bits_per_sample,
(bits_per_sample <= 16) ? 16 :
(bits_per_sample <= 20) ? 20 :
(bits_per_sample <= 24) ? 24 :
32,
SSC_I2S_MODE_STEREO_OUT,
pba_hz);
#endif
pdca_channel_options_t aic23b_ssc_pdca_options =
{
.addr = NULL,
.size = 0,
.r_addr = NULL,
.r_size = 0,
.pid = AIC23B_SSC_TX_PDCA_PID,
.transfer_size = (bits_per_sample <= 8) ? PDCA_TRANSFER_SIZE_BYTE :
(bits_per_sample <= 16) ? PDCA_TRANSFER_SIZE_HALF_WORD :
PDCA_TRANSFER_SIZE_WORD
};
pdca_init_channel(AIC23B_SSC_TX_PDCA_CHANNEL, &aic23b_ssc_pdca_options);
pdca_enable(AIC23B_SSC_TX_PDCA_CHANNEL);
#if !defined(AIC23B_DAC_USE_RX_CLOCK) || AIC23B_DAC_USE_RX_CLOCK == false || \
!defined(AIC23B_DAC_RX_CLOCK_SET_CALLBACK)
// Set DAC frequency
aic23b_configure_freq(AIC23B_MCLK_HZ, sample_rate_hz);
#endif
aic23b_daif_t daif;
daif.data = AIC23B_DEFAULT(AIC23B_DAIF);
daif.ms = AIC23B_DAIF_MS_SLAVE;
daif.lrswap = swap_channels;
daif.lrp = 0;
daif.iwl = (bits_per_sample <= 16) ? AIC23B_DAIF_IWL_16 :
(bits_per_sample <= 20) ? AIC23B_DAIF_IWL_20 :
(bits_per_sample <= 24) ? AIC23B_DAIF_IWL_24 :
AIC23B_DAIF_IWL_32;
daif.fmt = AIC23B_DAIF_FMT_I2S;
aic23b_write_reg(AIC23B_DAIF, daif.data);
aic23b_output_params.num_channels = num_channels;
aic23b_output_params.callback = callback;
aic23b_output_params.callback_opt = callback_opt;
}
#endif
bool aic23b_dac_output(void *sample_buffer, size_t sample_length)
{
bool global_interrupt_enabled;
if (!(pdca_get_transfer_status(AIC23B_SSC_TX_PDCA_CHANNEL) &
PDCA_TRANSFER_COUNTER_RELOAD_IS_ZERO))
return false;
if (sample_length)
{
if (aic23b_output_params.num_channels == 1)
{
int16_t *s16_sample_buffer = sample_buffer;
int i;
for (i = sample_length - 1; i >= 0; i--)
{
s16_sample_buffer[2 * i + 1] =
s16_sample_buffer[2 * i] = s16_sample_buffer[i];
}
}
// The PDCA is not able to synchronize its start of transfer with the SSC
// start of period, so this has to be done by polling the TF pin.
// Not doing so may result in channels being swapped randomly.
if ((global_interrupt_enabled = Is_global_interrupt_enabled()))
Disable_global_interrupt();
if (pdca_get_transfer_status(AIC23B_SSC_TX_PDCA_CHANNEL) &
PDCA_TRANSFER_COMPLETE)
{
while (gpio_get_pin_value(AIC23B_SSC_TX_FRAME_SYNC_PIN));
while (!gpio_get_pin_value(AIC23B_SSC_TX_FRAME_SYNC_PIN));
}
pdca_reload_channel(AIC23B_SSC_TX_PDCA_CHANNEL, sample_buffer, sample_length * 2);
pdca_get_reload_size(AIC23B_SSC_TX_PDCA_CHANNEL);
if (global_interrupt_enabled)
Enable_global_interrupt();
if (aic23b_output_params.callback_opt & AUDIO_DAC_OUT_OF_SAMPLE_CB)
pdca_enable_interrupt_transfer_complete(AIC23B_SSC_TX_PDCA_CHANNEL);
if (aic23b_output_params.callback_opt & AUDIO_DAC_RELOAD_CB)
pdca_enable_interrupt_reload_counter_zero(AIC23B_SSC_TX_PDCA_CHANNEL);
}
return true;
}
void aic23b_dac_set_average_headphone_volume(uint8_t volume)
{
aic23b_set_headphone_volume(AIC23B_LEFT_CHANNEL | AIC23B_RIGHT_CHANNEL,volume,true);
}
void aic23b_codec_start(uint32_t sample_rate_hz,
uint8_t num_channels,
uint8_t bits_per_sample,
bool swap_channels,
void (*callback)(uint32_t arg),
uint32_t callback_opt,
uint32_t pba_hz)
{
#if AIC23B_CTRL_INTERFACE == AIC23B_CTRL_INTERFACE_SPI
static const spi_options_t AIC23B_SPI_OPTIONS =
{
.reg = AIC23B_SPI_NPCS,
.baudrate = AIC23B_SPI_MASTER_SPEED,
.bits = AIC23B_CTRL_SIZE,
.spck_delay = 0,
.trans_delay = 0,
.stay_act = 0,
.spi_mode = 3,
.modfdis = 1
};
spi_setupChipReg(AIC23B_SPI, &AIC23B_SPI_OPTIONS, pba_hz);
#endif
aic23b_codec_stop();
gpio_enable_module(AIC23B_SSC_CODEC_GPIO_MAP,
sizeof(AIC23B_SSC_CODEC_GPIO_MAP) / sizeof(AIC23B_SSC_CODEC_GPIO_MAP[0]));
aic23b_pdc_t pdc;
pdc.data = AIC23B_DEFAULT(AIC23B_PDC);
pdc.off = 0;
pdc.clk = 0;
pdc.osc = 0;
pdc.out = 0;
pdc.dac = 0;
pdc.adc = 0;
#if (AIC23B_INPUT==AIC23B_INPUT_LINE)
pdc.mic = 1;
pdc.line = 0;
#elif (AIC23B_INPUT==AIC23B_INPUT_MIC)
pdc.mic = 0;
pdc.line = 1;
#else
#error No Input defined in file 'conf_tlv320aic23b.h'
#endif
aic23b_set_power_down_state(pdc);
aic23b_codec_setup(sample_rate_hz,
num_channels,
bits_per_sample,
swap_channels,
callback,
callback_opt,
pba_hz);
aic23b_aapc_t aapc;
aapc.data = AIC23B_DEFAULT(AIC23B_AAPC);
#if (AIC23B_INPUT==AIC23B_INPUT_LINE)
aapc.ste = 0;
aapc.dac = 1;
aapc.byp = 0;
aapc.insel = 0;
aapc.micm = 0;
aapc.micb = 1;
#elif (AIC23B_INPUT==AIC23B_INPUT_MIC)
aapc.ste = 0;
aapc.dac = 1;
aapc.sta = 4;
aapc.byp = 0;
aapc.insel = 1;
aapc.micm = 0;
aapc.micb = 1;
#else
#error No Input defined in file 'conf_tlv320aic23b.h'
#endif
aic23b_set_analog_audio_path(aapc);
aic23b_dapc_t dapc;
dapc.data = AIC23B_DEFAULT(AIC23B_DAPC);
dapc.dacm = 0;
dapc.deemp = AIC23B_DAPC_DEEMP_NONE;
dapc.adchp = 0;
aic23b_set_digital_audio_path(dapc);
aic23b_llicvc_t llivc;
llivc.data = AIC23B_DEFAULT(AIC23B_LLICVC);
llivc.liv = 20;
llivc.lim = 0;
llivc.lrs = 1;
aic23b_write_reg(AIC23B_LLICVC, llivc.data);
aic23b_rlicvc_t rlivc;
rlivc.data = AIC23B_DEFAULT(AIC23B_RLICVC);
rlivc.riv = 20;
rlivc.rim = 0;
rlivc.rls = 1;
aic23b_write_reg(AIC23B_RLICVC, rlivc.data);
INTC_register_interrupt(&aic23b_ssc_rx_pdca_int_handler,
AIC23B_SSC_RX_PDCA_IRQ,
AIC23B_SSC_RX_PDCA_INT_LEVEL);
// set an acceptable start volume
aic23b_set_headphone_volume(AIC23B_LEFT_CHANNEL | AIC23B_RIGHT_CHANNEL,
-30,
true);
aic23b_activate_dig_audio(true);
INTC_register_interrupt(&aic23b_ssc_tx_pdca_int_handler,
AIC23B_SSC_TX_PDCA_IRQ,
AIC23B_SSC_TX_PDCA_INT_LEVEL);
}
void aic23b_codec_setup(uint32_t sample_rate_hz,
uint8_t num_channels,
uint8_t bits_per_sample,
bool swap_channels,
void (*callback)(uint32_t opt),
uint32_t callback_opt,
uint32_t pba_hz)
{
ssc_i2s_init(AIC23B_SSC,
sample_rate_hz,
bits_per_sample,
(bits_per_sample <= 16) ? 16 :
(bits_per_sample <= 20) ? 20 :
(bits_per_sample <= 24) ? 24 :
32,
SSC_I2S_MODE_STEREO_OUT_STEREO_IN,
pba_hz);
pdca_channel_options_t aic23b_ssc_pdca_options_rx =
{
.addr = NULL,
.size = 0,
.r_addr = NULL,
.r_size = 0,
.pid = AIC23B_SSC_RX_PDCA_PID,
.transfer_size = (bits_per_sample <= 8) ? PDCA_TRANSFER_SIZE_BYTE :
(bits_per_sample <= 16) ? PDCA_TRANSFER_SIZE_HALF_WORD :
PDCA_TRANSFER_SIZE_WORD
};
pdca_init_channel(AIC23B_SSC_RX_PDCA_CHANNEL, &aic23b_ssc_pdca_options_rx);
pdca_enable(AIC23B_SSC_RX_PDCA_CHANNEL);
pdca_channel_options_t aic23b_ssc_pdca_options_tx =
{
.addr = NULL,
.size = 0,
.r_addr = NULL,
.r_size = 0,
.pid = AIC23B_SSC_TX_PDCA_PID,
.transfer_size = (bits_per_sample <= 8) ? PDCA_TRANSFER_SIZE_BYTE :
(bits_per_sample <= 16) ? PDCA_TRANSFER_SIZE_HALF_WORD :
PDCA_TRANSFER_SIZE_WORD
};
pdca_init_channel(AIC23B_SSC_TX_PDCA_CHANNEL, &aic23b_ssc_pdca_options_tx);
pdca_enable(AIC23B_SSC_TX_PDCA_CHANNEL);
// Set codec frequency
aic23b_configure_freq(AIC23B_MCLK_HZ, sample_rate_hz);
aic23b_daif_t daif;
daif.data = AIC23B_DEFAULT(AIC23B_DAIF);
daif.ms = AIC23B_DAIF_MS_SLAVE;
daif.lrswap = swap_channels;
daif.lrp = 0;
daif.iwl = (bits_per_sample <= 16) ? AIC23B_DAIF_IWL_16 :
(bits_per_sample <= 20) ? AIC23B_DAIF_IWL_20 :
(bits_per_sample <= 24) ? AIC23B_DAIF_IWL_24 :
AIC23B_DAIF_IWL_32;
daif.fmt = AIC23B_DAIF_FMT_I2S;
aic23b_write_reg(AIC23B_DAIF, daif.data);
aic23b_output_params.num_channels = num_channels;
aic23b_output_params.callback = callback;
aic23b_output_params.callback_opt = callback_opt;
}
void aic23b_codec_flush(void)
{
pdca_disable_interrupt_transfer_complete(AIC23B_SSC_RX_PDCA_CHANNEL);
while (!(pdca_get_transfer_status(AIC23B_SSC_RX_PDCA_CHANNEL) &
PDCA_TRANSFER_COMPLETE));
pdca_disable_interrupt_transfer_complete(AIC23B_SSC_TX_PDCA_CHANNEL);
while (!(pdca_get_transfer_status(AIC23B_SSC_TX_PDCA_CHANNEL) &
PDCA_TRANSFER_COMPLETE));
}
void aic23b_codec_stop(void)
{
aic23b_codec_flush();
aic23b_reset();
aic23b_pdc_t pdc;
pdc.data = AIC23B_DEFAULT(AIC23B_PDC);
pdc.off = 1;
pdc.clk = 1;
pdc.osc = 1;
pdc.out = 1;
pdc.dac = 1;
pdc.adc = 1;
pdc.mic = 1;
pdc.line = 1;
aic23b_set_power_down_state(pdc);
pdca_disable(AIC23B_SSC_RX_PDCA_CHANNEL);
pdca_disable(AIC23B_SSC_TX_PDCA_CHANNEL);
ssc_i2s_reset(AIC23B_SSC);
gpio_enable_gpio(AIC23B_SSC_CODEC_GPIO_MAP,
sizeof(AIC23B_SSC_CODEC_GPIO_MAP) / sizeof(AIC23B_SSC_CODEC_GPIO_MAP[0]));
aic23b_output_params.num_channels = 0;
aic23b_output_params.callback = NULL;
aic23b_output_params.callback_opt = 0;
}
void aic23b_codec_start(uint32_t sample_rate_hz,
uint8_t num_channels,
uint8_t bits_per_sample,
bool swap_channels,
void (*callback)(uint32_t arg),
uint32_t callback_opt,
uint32_t pba_hz)
{
#if AIC23B_CTRL_INTERFACE == AIC23B_CTRL_INTERFACE_SPI
static const spi_options_t AIC23B_SPI_OPTIONS =
{
.reg = AIC23B_SPI_NPCS,
.baudrate = AIC23B_SPI_MASTER_SPEED,
.bits = AIC23B_CTRL_SIZE,
.spck_delay = 0,
.trans_delay = 0,
.stay_act = 0,
.spi_mode = 3,
.modfdis = 1
};
spi_setupChipReg(AIC23B_SPI, &AIC23B_SPI_OPTIONS, pba_hz);
#endif
aic23b_codec_stop();
gpio_enable_module(AIC23B_SSC_CODEC_GPIO_MAP,
sizeof(AIC23B_SSC_CODEC_GPIO_MAP) / sizeof(AIC23B_SSC_CODEC_GPIO_MAP[0]));
aic23b_pdc_t pdc;
pdc.data = AIC23B_DEFAULT(AIC23B_PDC);
pdc.off = 0;
pdc.clk = 0;
pdc.osc = 0;
pdc.out = 0;
pdc.dac = 0;
pdc.adc = 0;
#if (AIC23B_INPUT==AIC23B_INPUT_LINE)
pdc.mic = 1;
pdc.line = 0;
#elif (AIC23B_INPUT==AIC23B_INPUT_MIC)
pdc.mic = 0;
pdc.line = 1;
#else
#error No Input defined in file 'conf_tlv320aic23b.h'
#endif
aic23b_set_power_down_state(pdc);
aic23b_codec_setup(sample_rate_hz,
num_channels,
bits_per_sample,
swap_channels,
callback,
callback_opt,
pba_hz);
aic23b_aapc_t aapc;
aapc.data = AIC23B_DEFAULT(AIC23B_AAPC);
#if (AIC23B_INPUT==AIC23B_INPUT_LINE)
aapc.ste = 0;
aapc.dac = 1;
aapc.byp = 0;
aapc.insel = 0;
aapc.micm = 0;
aapc.micb = 1;
#elif (AIC23B_INPUT==AIC23B_INPUT_MIC)
aapc.ste = 0;
aapc.dac = 1;
aapc.sta = 4;
aapc.byp = 0;
aapc.insel = 1;
aapc.micm = 0;
aapc.micb = 1;
#else
#error No Input defined in file 'conf_tlv320aic23b.h'
#endif
aic23b_set_analog_audio_path(aapc);
aic23b_dapc_t dapc;
dapc.data = AIC23B_DEFAULT(AIC23B_DAPC);
dapc.dacm = 0;
dapc.deemp = AIC23B_DAPC_DEEMP_NONE;
dapc.adchp = 0;
aic23b_set_digital_audio_path(dapc);
aic23b_llicvc_t llivc;
llivc.data = AIC23B_DEFAULT(AIC23B_LLICVC);
llivc.liv = 20;
llivc.lim = 0;
llivc.lrs = 1;
aic23b_write_reg(AIC23B_LLICVC, llivc.data);
aic23b_rlicvc_t rlivc;
rlivc.data = AIC23B_DEFAULT(AIC23B_RLICVC);
rlivc.riv = 20;
rlivc.rim = 0;
rlivc.rls = 1;
aic23b_write_reg(AIC23B_RLICVC, rlivc.data);
INTC_register_interrupt(&aic23b_ssc_rx_pdca_int_handler,
AIC23B_SSC_RX_PDCA_IRQ,
AIC23B_SSC_RX_PDCA_INT_LEVEL);
// set an acceptable start volume
aic23b_set_headphone_volume(AIC23B_LEFT_CHANNEL | AIC23B_RIGHT_CHANNEL,
-30,
true);
aic23b_activate_dig_audio(true);
INTC_register_interrupt(&aic23b_ssc_tx_pdca_int_handler,
AIC23B_SSC_TX_PDCA_IRQ,
AIC23B_SSC_TX_PDCA_INT_LEVEL);
}
void aic23b_codec_setup(uint32_t sample_rate_hz,
uint8_t num_channels,
uint8_t bits_per_sample,
bool swap_channels,
void (*callback)(uint32_t opt),
uint32_t callback_opt,
uint32_t pba_hz)
{
uint32_t master_clock = AIC23B_MCLK_HZ; // default configuration
// Change the CPU frequency
//
//Disable_global_interrupt();
// Switch to OSC0 during OSC1 transition
//pm_switch_to_osc0(&AVR32_PM, FOSC0, OSC0_STARTUP);
// Switch to PLL0 as the master clock
//pm_switch_to_clock(&AVR32_PM, AVR32_PM_MCCTRL_MCSEL_PLL0);
if (sample_rate_hz < (8000 + 8021) / 2)
{ // 8000 Hz
}
else if (sample_rate_hz < (8021 + 32000) / 2)
{ // 8021 Hz
}
else if (sample_rate_hz < (32000 + 44100) / 2)
{ // 32000 Hz
master_clock = usb_stream_resync_frequency = 8192000;
cs2200_freq_clk_out(_32_BITS_RATIO(usb_stream_resync_frequency, FOSC0));
pba_hz = FCPU_HZ = FHSB_HZ = FPBA_HZ = FPBB_HZ = FMCK_HZ(8192000);
}
else if (sample_rate_hz < (44100 + 48000) / 2)
{ // 44100 Hz
master_clock = usb_stream_resync_frequency = 11289600;
cs2200_freq_clk_out(_32_BITS_RATIO(usb_stream_resync_frequency, FOSC0));
pba_hz = FCPU_HZ = FHSB_HZ = FPBA_HZ = FPBB_HZ = FMCK_HZ(11289600);
}
else if (sample_rate_hz < (48000 + 88200) / 2)
{ // 48000 Hz
master_clock = usb_stream_resync_frequency = 12288000;
cs2200_freq_clk_out(_32_BITS_RATIO(usb_stream_resync_frequency, FOSC0));
pba_hz = FCPU_HZ = FHSB_HZ = FPBA_HZ = FPBB_HZ = FMCK_HZ(12288000);
}
else if (sample_rate_hz < (88200 + 96000) / 2)
{ // 88200 Hz
}
else
{ // 96000 Hz
}
//Enable_global_interrupt();
ssc_i2s_init(AIC23B_SSC,
sample_rate_hz,
bits_per_sample,
(bits_per_sample <= 16) ? 16 :
(bits_per_sample <= 20) ? 20 :
(bits_per_sample <= 24) ? 24 :
32,
SSC_I2S_MODE_STEREO_OUT_STEREO_IN,
pba_hz);
pdca_channel_options_t aic23b_ssc_pdca_options_rx =
{
.addr = NULL,
.size = 0,
.r_addr = NULL,
.r_size = 0,
.pid = AIC23B_SSC_RX_PDCA_PID,
.transfer_size = (bits_per_sample <= 8) ? PDCA_TRANSFER_SIZE_BYTE :
(bits_per_sample <= 16) ? PDCA_TRANSFER_SIZE_HALF_WORD :
PDCA_TRANSFER_SIZE_WORD
};
pdca_init_channel(AIC23B_SSC_RX_PDCA_CHANNEL, &aic23b_ssc_pdca_options_rx);
pdca_enable(AIC23B_SSC_RX_PDCA_CHANNEL);
pdca_channel_options_t aic23b_ssc_pdca_options_tx =
{
.addr = NULL,
.size = 0,
.r_addr = NULL,
.r_size = 0,
.pid = AIC23B_SSC_TX_PDCA_PID,
.transfer_size = (bits_per_sample <= 8) ? PDCA_TRANSFER_SIZE_BYTE :
(bits_per_sample <= 16) ? PDCA_TRANSFER_SIZE_HALF_WORD :
PDCA_TRANSFER_SIZE_WORD
};
pdca_init_channel(AIC23B_SSC_TX_PDCA_CHANNEL, &aic23b_ssc_pdca_options_tx);
pdca_enable(AIC23B_SSC_TX_PDCA_CHANNEL);
// Set codec frequency
aic23b_configure_freq(master_clock, sample_rate_hz);
aic23b_daif_t daif;
daif.data = AIC23B_DEFAULT(AIC23B_DAIF);
daif.ms = AIC23B_DAIF_MS_SLAVE;
daif.lrswap = swap_channels;
daif.lrp = 0;
daif.iwl = (bits_per_sample <= 16) ? AIC23B_DAIF_IWL_16 :
(bits_per_sample <= 20) ? AIC23B_DAIF_IWL_20 :
(bits_per_sample <= 24) ? AIC23B_DAIF_IWL_24 :
AIC23B_DAIF_IWL_32;
daif.fmt = AIC23B_DAIF_FMT_I2S;
aic23b_write_reg(AIC23B_DAIF, daif.data);
aic23b_output_params.num_channels = num_channels;
aic23b_output_params.callback = callback;
aic23b_output_params.callback_opt = callback_opt;
}
void aic23b_codec_flush(void)
{
pdca_disable_interrupt_transfer_complete(AIC23B_SSC_RX_PDCA_CHANNEL);
while (!(pdca_get_transfer_status(AIC23B_SSC_RX_PDCA_CHANNEL) &
PDCA_TRANSFER_COMPLETE));
pdca_disable_interrupt_transfer_complete(AIC23B_SSC_TX_PDCA_CHANNEL);
while (!(pdca_get_transfer_status(AIC23B_SSC_TX_PDCA_CHANNEL) &
PDCA_TRANSFER_COMPLETE));
}
void aic23b_codec_stop(void)
{
aic23b_codec_flush();
aic23b_reset();
aic23b_pdc_t pdc;
pdc.data = AIC23B_DEFAULT(AIC23B_PDC);
pdc.off = 1;
pdc.clk = 1;
pdc.osc = 1;
pdc.out = 1;
pdc.dac = 1;
pdc.adc = 1;
pdc.mic = 1;
pdc.line = 1;
aic23b_set_power_down_state(pdc);
pdca_disable(AIC23B_SSC_RX_PDCA_CHANNEL);
pdca_disable(AIC23B_SSC_TX_PDCA_CHANNEL);
ssc_i2s_reset(AIC23B_SSC);
gpio_enable_gpio(AIC23B_SSC_CODEC_GPIO_MAP,
sizeof(AIC23B_SSC_CODEC_GPIO_MAP) / sizeof(AIC23B_SSC_CODEC_GPIO_MAP[0]));
aic23b_output_params.num_channels = 0;
aic23b_output_params.callback = NULL;
aic23b_output_params.callback_opt = 0;
}