/* control_tlv320aic3206 Created: Brendan Flynn (http://www.flexvoltbiosensor.com/) for Tympan, Jan-Feb 2017 Purpose: Control module for Texas Instruments TLV320AIC3206 compatible with Teensy Audio Library License: MIT License. Use at your own risk. */ #include "control_tlv320aic3206.h" #include //******************************** Constants *******************************// #define AIC3206_I2C_ADDR 0x18 #ifndef AIC_FS # define AIC_FS 44100UL #endif #define AIC_BITS 16 //#define AIC_BITS 32 #define AIC_I2S_SLAVE 1 #if AIC_I2S_SLAVE // Direction of BCLK and WCLK (reg 27) is input if a slave: # define AIC_CLK_DIR 0 #else // If master, make outputs: # define AIC_CLK_DIR 0x0C #endif //#ifndef AIC_CODEC_CLKIN_BCLK //# define AIC_CODEC_CLKIN_BCLK 0 //#endif //**************************** Clock Setup **********************************// //********************************** 44100 *********************************// #if AIC_FS == 44100 // MCLK = 180000000 * 16 / 255 = 11.294117 MHz // FROM TEENSY, FIXED // PLL setup. PLL_OUT = MCLK * R * J.D / P //// J.D = 7.5264, P = 1, R = 1 => 90.32 MHz // FROM 12MHz CHA AND WHF // // J.D = 7.9968, P = 1, R = 1 => 90.3168 MHz // For 44.1kHz exact // J.D = 8.0000000002, P = 1, R = 1 => 9.35294117888MHz // for TEENSY 44.11764706kHz #define PLL_J 8 #define PLL_D 0 // Bitclock divisor. // BCLK = DAC_CLK/N = PLL_OUT/NDAC/N = 32*fs or 16*fs // PLL_OUT = fs*NDAC*MDAC*DOSR // BLCK = 32*fs = 1411200 = PLL #if AIC_BITS == 16 #define BCLK_N 8 #elif AIC_BITS == 32 #define BCLK_N 4 #endif // ADC/DAC FS setup. // ADC_MOD_CLK = CODEC_CLKIN / (NADC * MADC) // DAC_MOD_CLK = CODEC_CLKIN / (NDAC * MDAC) // ADC_FS = PLL_OUT / (NADC*MADC*AOSR) // DAC_FS = PLL_OUT / (NDAC*MDAC*DOSR) // FS = 90.3168MHz / (8*2*128) = 44100 Hz. // MOD = 90.3168MHz / (8*2) = 5644800 Hz // Actual from Teensy: 44117.64706Hz * 128 => 5647058.82368Hz * 8*2 => 90352941.17888Hz // DAC clock config. // Note: MDAC*DOSR/32 >= RC, where RC is 8 for the default filter. // See Table 2-21 // http://www.ti.com/lit/an/slaa463b/slaa463b.pdf // PB1 - RC = 8. Use M8, N2 // PB25 - RC = 12. Use M8, N2 #define DOSR 128 #define NDAC 2 #define MDAC 8 #define AOSR 128 #define NADC 2 #define MADC 8 // Signal Processing Modes, Playback and Recording. #define PRB_P 1 #define PRB_R 1 #endif // end fs if block //**************************** Chip Setup **********************************// //******************* INPUT DEFINITIONS *****************************// // MIC routing registers #define AIC3206_MICPGA_LEFT_POSITIVE_REG 0x0134 // page 1 register 52 #define AIC3206_MICPGA_LEFT_NEGATIVE_REG 0x0136 // page 1 register 54 #define AIC3206_MICPGA_RIGHT_POSITIVE_REG 0x0137 // page 1 register 55 #define AIC3206_MICPGA_RIGHT_NEGATIVE_REG 0x0139 // page 1 register 57 #define AIC3206_MIC_ROUTING_POSITIVE_IN1 0b11000000 // #define AIC3206_MIC_ROUTING_POSITIVE_IN2 0b00110000 // #define AIC3206_MIC_ROUTING_POSITIVE_IN3 0b00001100 // #define AIC3206_MIC_ROUTING_POSITIVE_REVERSE 0b00000011 // #define AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L 0b11000000 // #define AIC3206_MIC_ROUTING_NEGATIVE_IN2_REVERSE 0b00110000 // #define AIC3206_MIC_ROUTING_NEGATIVE_IN3_REVERSE 0b00001100 // #define AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM2L 0b00000011 // #define AIC3206_MIC_ROUTING_RESISTANCE_10k 0b01010101 #define AIC3206_MIC_ROUTING_RESISTANCE_20k 0b10101010 #define AIC3206_MIC_ROUTING_RESISTANCE_40k 0b11111111 #define AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT AIC3206_MIC_ROUTING_RESISTANCE_10k //datasheet (application notes) defaults to 20K...why? #define AIC3206_MICPGA_LEFT_VOLUME_REG 0x013B // page 1 register 59 // 0 to 47.5dB in 0.5dB steps #define AIC3206_MICPGA_RIGHT_VOLUME_REG 0x013C // page 1 register 60 // 0 to 47.5dB in 0.5dB steps #define AIC3206_MICPGA_VOLUME_ENABLE 0x00 // default is 0b11000000 - clear to 0 to enable #define AIC3206_MIC_BIAS_REG 0x0133 // page 1 reg 51 #define AIC3206_MIC_BIAS_POWER_ON 0x40 #define AIC3206_MIC_BIAS_POWER_OFF 0x00 #define AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_1_25 0x00 #define AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_1_7 0x01 #define AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_2_5 0x10 #define AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_VSUPPLY 0x11 #define AIC3206_ADC_PROCESSING_BLOCK_REG 0x003d // page 0 register 61 #define AIC3206_ADC_CHANNEL_POWER_REG 0x0051 // page 0 register81 #define AIC3206_ADC_CHANNELS_ON 0b11000000 // power up left and right #define AIC3206_ADC_MUTE_REG 0x0052 // page 0, register 82 #define AIC3206_ADC_UNMUTE 0x00 bool AudioControlTLV320AIC3206::enable(void) { delay(100); // Setup for Master mode, pins 18/19, external pullups, 400kHz, 200ms default timeout Wire.begin(); delay(5); //hard reset the AIC //Serial.println("Hardware reset of AIC..."); //define RESET_PIN 21 #define RESET_PIN (resetPinAIC) pinMode(RESET_PIN,OUTPUT); digitalWrite(RESET_PIN,HIGH);delay(50); //not reset digitalWrite(RESET_PIN,LOW);delay(50); //reset digitalWrite(RESET_PIN,HIGH);delay(50);//not reset aic_reset(); delay(100); //soft reset aic_init(); delay(100); aic_initADC(); delay(100); aic_initDAC(); delay(100); aic_readPage(0, 27); // check a specific register - a register read test if (debugToSerial) Serial.println("TLV320 enable done"); return true; } bool AudioControlTLV320AIC3206::disable(void) { return true; } //dummy function to keep compatible with Teensy Audio Library bool AudioControlTLV320AIC3206::inputLevel(float volume) { return false; } bool AudioControlTLV320AIC3206::inputSelect(int n) { if (n == AIC3206_INPUT_IN1) { aic_writeAddress(AIC3206_MICPGA_LEFT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN1 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_LEFT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN1 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // BIAS OFF setMicBias(AIC3206_MIC_BIAS_OFF); if (debugToSerial) Serial.println("Set Audio Input to IN1"); return true; } else if (n == AIC3206_INPUT_IN3_MICBIAS) { aic_writeAddress(AIC3206_MICPGA_LEFT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN3 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_LEFT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN3 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // BIAS on, using default setMicBias(AIC3206_DEFAULT_MIC_BIAS); if (debugToSerial) Serial.println("Set Audio Input to IN3, BIAS SET TO DEFAULT 2.5V"); return true; } else if (n == AIC3206_INPUT_IN3) { aic_writeAddress(AIC3206_MICPGA_LEFT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN3 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_LEFT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN3 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // BIAS Off setMicBias(AIC3206_MIC_BIAS_OFF); if (debugToSerial) Serial.println("Set Audio Input to IN3, BIAS OFF"); return true; } else if (n == AIC3206_INPUT_IN2) { aic_writeAddress(AIC3206_MICPGA_LEFT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN2 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_LEFT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN2 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // BIAS Off setMicBias(AIC3206_MIC_BIAS_OFF); if (debugToSerial) Serial.println("Set Audio Input to IN2, BIAS OFF"); return true; } Serial.print("controlTLV320AIC3206: ERROR: Unable to Select Input - Value not supported: "); Serial.println(n); return false; } bool AudioControlTLV320AIC3206::setMicBias(int n) { if (n == AIC3206_MIC_BIAS_1_25) { aic_writeAddress(AIC3206_MIC_BIAS_REG, AIC3206_MIC_BIAS_POWER_ON | AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_1_25); // power up mic bias return true; } else if (n == AIC3206_MIC_BIAS_1_7) { aic_writeAddress(AIC3206_MIC_BIAS_REG, AIC3206_MIC_BIAS_POWER_ON | AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_1_7); // power up mic bias return true; } else if (n == AIC3206_MIC_BIAS_2_5) { aic_writeAddress(AIC3206_MIC_BIAS_REG, AIC3206_MIC_BIAS_POWER_ON | AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_2_5); // power up mic bias return true; } else if (n == AIC3206_MIC_BIAS_VSUPPLY) { aic_writeAddress(AIC3206_MIC_BIAS_REG, AIC3206_MIC_BIAS_POWER_ON | AIC3206_MIC_BIAS_OUTPUT_VOLTAGE_VSUPPLY); // power up mic bias return true; } else if (n == AIC3206_MIC_BIAS_OFF) { aic_writeAddress(AIC3206_MIC_BIAS_REG, AIC3206_MIC_BIAS_POWER_OFF); // power up mic bias return true; } Serial.print("controlTLV320AIC3206: ERROR: Unable to set MIC BIAS - Value not supported: "); Serial.println(n); return false; } void AudioControlTLV320AIC3206::aic_reset() { if (debugToSerial) Serial.println("INFO: Reseting AIC"); aic_writePage(0x00, 0x01, 0x01); // aic_writeAddress(0x0001, 0x01); delay(10); } // example - turn on IN3 - mic jack, with negatives routed to CM1L and with 10k resistance // aic_writeAddress(AIC3206_LEFT_MICPGA_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN3 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // aic_writeAddress(AIC3206_LEFT_MICPGA_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // aic_writeAddress(AIC3206_RIGHT_MICPGA_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN3 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); // aic_writeAddress(AIC3206_RIGHT_MICPGA_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); void AudioControlTLV320AIC3206::aic_initADC() { if (debugToSerial) Serial.println("INFO: Initializing AIC ADC"); aic_writeAddress(AIC3206_ADC_PROCESSING_BLOCK_REG, PRB_R); // processing blocks - ADC aic_writePage(1, 61, 0); // 0x3D // Select ADC PTM_R4 Power Tune? (this line is from datasheet (application guide, Section 4.2) aic_writePage(1, 71, 0b00110001); // 0x47 // Set MicPGA startup delay to 3.1ms aic_writeAddress(AIC3206_MIC_BIAS_REG, AIC3206_MIC_BIAS_POWER_ON | AIC3206_MIC_BIAS_2_5); // power up mic bias aic_writeAddress(AIC3206_MICPGA_LEFT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN2 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_LEFT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_POSITIVE_REG, AIC3206_MIC_ROUTING_POSITIVE_IN2 & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_RIGHT_NEGATIVE_REG, AIC3206_MIC_ROUTING_NEGATIVE_CM_TO_CM1L & AIC3206_MIC_ROUTING_RESISTANCE_DEFAULT); aic_writeAddress(AIC3206_MICPGA_LEFT_VOLUME_REG, AIC3206_MICPGA_VOLUME_ENABLE); // enable Left MicPGA, set gain to 0 dB aic_writeAddress(AIC3206_MICPGA_RIGHT_VOLUME_REG, AIC3206_MICPGA_VOLUME_ENABLE); // enable Right MicPGA, set gain to 0 dB aic_writeAddress(AIC3206_ADC_MUTE_REG, AIC3206_ADC_UNMUTE); // Unmute Left and Right ADC Digital Volume Control aic_writeAddress(AIC3206_ADC_CHANNEL_POWER_REG, AIC3206_ADC_CHANNELS_ON); // Unmute Left and Right ADC Digital Volume Control } // set MICPGA volume, 0-47.5dB in 0.5dB setps bool AudioControlTLV320AIC3206::setInputGain_dB(float volume) { if (volume < 0.0) { volume = 0.0; // 0.0 dB Serial.println("controlTLV320AIC3206: WARNING: Attempting to set MIC volume outside range"); } if (volume > 47.5) { volume = 47.5; // 47.5 dB Serial.println("controlTLV320AIC3206: WARNING: Attempting to set MIC volume outside range"); } volume = volume * 2.0; // convert to value map (0.5 dB steps) int8_t volume_int = (int8_t) (round(volume)); // round if (debugToSerial) { Serial.print("INFO: Setting MIC volume to "); Serial.print(volume, 1); Serial.print(". Converted to volume map => "); Serial.println(volume_int); } aic_writeAddress(AIC3206_MICPGA_LEFT_VOLUME_REG, AIC3206_MICPGA_VOLUME_ENABLE | volume_int); // enable Left MicPGA, set gain to 0 dB aic_writeAddress(AIC3206_MICPGA_RIGHT_VOLUME_REG, AIC3206_MICPGA_VOLUME_ENABLE | volume_int); // enable Right MicPGA, set gain to 0 dB return true; } //******************* OUTPUT DEFINITIONS *****************************// #define AIC3206_DAC_PROCESSING_BLOCK_REG 0x003c // page 0 register 60 #define AIC3206_DAC_VOLUME_LEFT_REG 0x0041 // page 0 reg 65 #define AIC3206_DAC_VOLUME_RIGHT_REG 0x0042 // page 0 reg 66 //volume control, similar to Teensy Audio Board // value between 0.0 and 1.0. Set to span -58 to +15 dB bool AudioControlTLV320AIC3206::volume(float volume) { volume = max(0.0, min(1.0, volume)); float vol_dB = -58.f + (15.0 - (-58.0f)) * volume; volume_dB(vol_dB); return true; } bool AudioControlTLV320AIC3206::enableAutoMuteDAC(bool enable, uint8_t mute_delay_code=7) { if (enable) { mute_delay_code = max(0,min(mute_delay_code,7)); if (mute_delay_code == 0) enable = false; } else { mute_delay_code = 0; //this disables the auto mute } uint8_t val = aic_readPage(0,64); val = val & 0b10001111; //clear these bits val = val | (mute_delay_code << 4); //set these bits aic_writePage(0,64,val); return enable; } // -63.6 to +24 dB in 0.5dB steps. uses signed 8-bit bool AudioControlTLV320AIC3206::volume_dB(float volume) { // Constrain to limits if (volume > 24.0) { volume = 24.0; Serial.println("controlTLV320AIC3206: WARNING: Attempting to set DAC Volume outside range"); } if (volume < -63.5) { volume = -63.5; Serial.println("controlTLV320AIC3206: WARNING: Attempting to set DAC Volume outside range"); } volume = volume * 2.0; // convert to value map (0.5 dB steps) int8_t volume_int = (int8_t) (round(volume)); // round if (debugToSerial) { Serial.print("controlTLV320AIC3206: Setting DAC volume to "); Serial.print(volume, 1); Serial.print(". Converted to volume map => "); Serial.println(volume_int); } aic_writeAddress(AIC3206_DAC_VOLUME_RIGHT_REG, volume_int); aic_writeAddress(AIC3206_DAC_VOLUME_LEFT_REG, volume_int); return true; } void AudioControlTLV320AIC3206::aic_initDAC() { if (debugToSerial) Serial.println("controlTLV320AIC3206: Initializing AIC DAC"); outputSelect(AIC3206_OUTPUT_HEADPHONE_JACK_OUT); //default } bool AudioControlTLV320AIC3206::outputSelect(int n) { // PLAYBACK SETUP: // HPL/HPR are headphone output left and right // LOL/LOR are line output left and right aic_writeAddress(AIC3206_DAC_PROCESSING_BLOCK_REG, PRB_P); // processing blocks - DAC //mute, disable, then power-down everything aic_writePage(1, 16, 0b01000000); // mute HPL Driver, 0 gain aic_writePage(1, 17, 0b01000000); // mute HPR Driver, 0 gain aic_writePage(1, 18, 0b01000000); // mute LOL Driver, 0 gain aic_writePage(1, 19, 0b01000000); // mute LOR Driver, 0 gain aic_writePage(0, 63, 0); //disable LDAC/RDAC aic_writePage(1, 9, 0); // Power down HPL/HPR and LOL/LOR drivers aic_writePage(1,12,0); //unroute from HPL aic_writePage(1,13,0); //unroute from HPR aic_writePage(1,14,0); //unroute from LOL aic_writePage(1,15,0); //unroute from LOR if (n == AIC3206_OUTPUT_HEADPHONE_JACK_OUT) { //aic_writePage(1, 20, 0x25); // 0x14 De-Pop //aic_writePage(1, 12, 8); // route LDAC/RDAC to HPL/HPR //aic_writePage(1, 13, 8); // route LDAC/RDAC to HPL/HPR aic_writePage(1, 12, 0b00001000); // route LDAC/RDAC to HPL/HPR aic_writePage(1, 13, 0b00001000); // route LDAC/RDAC to HPL/HPR aic_writePage(0, 63, 0xD6); // 0x3F // Power up LDAC/RDAC aic_writePage(1, 16, 0); // unmute HPL Driver, 0 gain aic_writePage(1, 17, 0); // unmute HPR Driver, 0 gain aic_writePage(1, 9, 0x30); // Power up HPL/HPR drivers 0b00110000 delay(100); aic_writeAddress(AIC3206_DAC_VOLUME_LEFT_REG, 0); // default to 0 dB aic_writeAddress(AIC3206_DAC_VOLUME_RIGHT_REG, 0); // default to 0 dB aic_writePage(0, 64, 0); // 0x40 // Unmute LDAC/RDAC if (debugToSerial) Serial.println("controlTLV320AIC3206: Set Audio Output to Headphone Jack"); return true; } else if (n == AIC3206_OUTPUT_LINE_OUT) { //aic_writePage(1, 20, 0x25); // 0x14 De-Pop aic_writePage(1, 14, 0b00001000); // route LDAC/RDAC to LOL/LOR aic_writePage(1, 15, 0b00001000); // route LDAC/RDAC to LOL/LOR aic_writePage(0, 63, 0xD6); // 0x3F // Power up LDAC/RDAC aic_writePage(1, 18, 0); // unmute LOL Driver, 0 gain aic_writePage(1, 19, 0); // unmute LOR Driver, 0 gain aic_writePage(1, 9, 0b00001100); // Power up LOL/LOR drivers delay(100); aic_writeAddress(AIC3206_DAC_VOLUME_LEFT_REG, 0); // default to 0 dB aic_writeAddress(AIC3206_DAC_VOLUME_RIGHT_REG, 0); // default to 0 dB aic_writePage(0, 64, 0); // 0x40 // Unmute LDAC/RDAC if (debugToSerial) Serial.println("controlTLV320AIC3206: Set Audio Output to Line Out"); return true; } else if (n == AIC3206_OUTPUT_HEADPHONE_AND_LINE_OUT) { aic_writePage(1, 12, 0b00001000); // route LDAC/RDAC to HPL/HPR aic_writePage(1, 13, 0b00001000); // route LDAC/RDAC to HPL/HPR aic_writePage(1, 14, 0b00001000); // route LDAC/RDAC to LOL/LOR aic_writePage(1, 15, 0b00001000); // route LDAC/RDAC to LOL/LOR aic_writePage(0, 63, 0xD6); // 0x3F // Power up LDAC/RDAC aic_writePage(1, 18, 0); // unmute LOL Driver, 0 gain aic_writePage(1, 19, 0); // unmute LOR Driver, 0 gain aic_writePage(1, 16, 0); // unmute HPL Driver, 0 gain aic_writePage(1, 17, 0); // unmute HPR Driver, 0 gain aic_writePage(1, 9, 0b00111100); // Power up both the HPL/HPR and the LOL/LOR drivers delay(100); aic_writeAddress(AIC3206_DAC_VOLUME_LEFT_REG, 0); // default to 0 dB aic_writeAddress(AIC3206_DAC_VOLUME_RIGHT_REG, 0); // default to 0 dB aic_writePage(0, 64, 0); // 0x40 // Unmute LDAC/RDAC if (debugToSerial) Serial.println("controlTLV320AIC3206: Set Audio Output to Headphone Jack and Line out"); return true; } Serial.print("controlTLV320AIC3206: ERROR: Unable to Select Output - Value not supported: "); Serial.println(n); return false; } void AudioControlTLV320AIC3206::aic_init() { if (debugToSerial) Serial.println("controlTLV320AIC3206: Initializing AIC"); // PLL aic_writePage(0, 4, 3); // 0x04 low PLL clock range, MCLK is PLL input, PLL_OUT is CODEC_CLKIN aic_writePage(0, 5, (PLL_J != 0 ? 0x91 : 0x11)); aic_writePage(0, 6, PLL_J); aic_writePage(0, 7, PLL_D >> 8); aic_writePage(0, 8, PLL_D &0xFF); // CLOCKS aic_writePage(0, 11, 0x80 | NDAC); // 0x0B aic_writePage(0, 12, 0x80 | MDAC); // 0x0C aic_writePage(0, 13, 0); // 0x0D aic_writePage(0, 14, DOSR); // 0x0E // aic_writePage(0, 18, 0); // 0x12 // powered down, ADC_CLK same as DAC_CLK // aic_writePage(0, 19, 0); // 0x13 // powered down, ADC_MOD_CLK same as DAC_MOD_CLK aic_writePage(0, 18, 0x80 | NADC); // 0x12 aic_writePage(0, 19, 0x80 | MADC); // 0x13 aic_writePage(0, 20, AOSR); aic_writePage(0, 30, 0x80 | BCLK_N); // power up BLCK N Divider, default is 128 // POWER aic_writePage(1, 0x01, 8); // Reg 1, Val = 8 = 0b00001000 = disable weak connection AVDD to DVDD. Keep headphone charge pump disabled. aic_writePage(1, 0x02, 0); // Reg 2, Val = 0 = 0b00000000 = Enable Master Analog Power Control aic_writePage(1, 0x7B, 1); // Reg 123, Val = 1 = 0b00000001 = Set reference to power up in 40ms when analog blocks are powered up aic_writePage(1, 0x7C, 6); // Reg 124, Val = 6 = 0b00000110 = Charge Pump, full peak current (000), clock divider (110) to Div 6 = 333 kHz aic_writePage(1, 0x01, 10); // Reg 1, Val = 10 = 0x0A = 0b00001010. Activate headphone charge pump. aic_writePage(1, 0x0A, 0); // Reg 10, Val = 0 = common mode 0.9 for full chip, HP, LO // from WHF/CHA aic_writePage(1, 0x47, 0x31); // Reg 71, val = 0x31 = 0b00110001 = Set input power-up time to 3.1ms (for ADC) aic_writePage(1, 0x7D, 0x53); // Reg 125, Val = 0x53 = 0b01010011 = 0 10 1 00 11: HPL is master gain, Enable ground-centered mode, 100% output power, DC offset correction // from WHF/CHA // !!!!!!!!! The below writes are from WHF/CHA - probably don't need? // aic_writePage(1, 1, 10); // 10 = 0b00001010 // weakly connect AVDD to DVDD. Activate charge pump aic_writePage(0, 27, 0x01 | AIC_CLK_DIR | (AIC_BITS == 32 ? 0x30 : 0)); // 0x1B // aic_writePage(0, 28, 0); // 0x1C } unsigned int AudioControlTLV320AIC3206::aic_readPage(uint8_t page, uint8_t reg) { unsigned int val; if (aic_goToPage(page)) { Wire.beginTransmission(AIC3206_I2C_ADDR); Wire.write(reg); unsigned int result = Wire.endTransmission(); if (result != 0) { Serial.print("controlTLV320AIC3206: ERROR: Read Page. Page: ");Serial.print(page); Serial.print(" Reg: ");Serial.print(reg); Serial.print(". Received Error During Read Page: "); Serial.println(result); val = 300 + result; return val; } if (Wire.requestFrom(AIC3206_I2C_ADDR, 1) < 1) { Serial.print("controlTLV320AIC3206: ERROR: Read Page. Page: ");Serial.print(page); Serial.print(" Reg: ");Serial.print(reg); Serial.println(". Nothing to return"); val = 400; return val; } if (Wire.available() >= 1) { uint16_t val = Wire.read(); if (debugToSerial) { Serial.print("controlTLV320AIC3206: Read Page. Page: ");Serial.print(page); Serial.print(" Reg: ");Serial.print(reg); Serial.print(". Received: "); Serial.println(val, HEX); } return val; } } else { Serial.print("controlTLV320AIC3206: INFO: Read Page. Page: ");Serial.print(page); Serial.print(" Reg: ");Serial.print(reg); Serial.println(". Failed to go to read page. Could not go there."); val = 500; return val; } val = 600; return val; } bool AudioControlTLV320AIC3206::aic_writeAddress(uint16_t address, uint8_t val) { uint8_t reg = (uint8_t) (address & 0xFF); uint8_t page = (uint8_t) ((address >> 8) & 0xFF); return aic_writePage(page, reg, val); } bool AudioControlTLV320AIC3206::aic_writePage(uint8_t page, uint8_t reg, uint8_t val) { if (debugToSerial) { Serial.print("controlTLV320AIC3206: Write Page. Page: ");Serial.print(page); Serial.print(" Reg: ");Serial.print(reg); Serial.print(" Val: ");Serial.println(val); } if (aic_goToPage(page)) { Wire.beginTransmission(AIC3206_I2C_ADDR); Wire.write(reg);delay(10); Wire.write(val);delay(10); uint8_t result = Wire.endTransmission(); if (result == 0) return true; else { Serial.print("controlTLV320AIC3206: Received Error During writePage(): Error = "); Serial.println(result); } } return false; } bool AudioControlTLV320AIC3206::aic_goToPage(byte page) { Wire.beginTransmission(AIC3206_I2C_ADDR); Wire.write(0x00); delay(10);// page register //was delay(10) from BPF Wire.write(page); delay(10);// go to page //was delay(10) from BPF byte result = Wire.endTransmission(); if (result != 0) { Serial.print("controlTLV320AIC3206: Received Error During goToPage(): Error = "); Serial.println(result); if (result == 2) { // failed to transmit address //return aic_goToPage(page); } else if (result == 3) { // failed to transmit data //return aic_goToPage(page); } return false; } return true; } bool AudioControlTLV320AIC3206::updateInputBasedOnMicDetect(int setting) { //read current mic detect setting int curMicDetVal = readMicDetect(); if (curMicDetVal != prevMicDetVal) { if (curMicDetVal) { //enable the microphone input jack as our input inputSelect(setting); } else { //switch back to the on-board mics inputSelect(AIC3206_INPUT_IN2); } } prevMicDetVal = curMicDetVal; return (bool)curMicDetVal; } bool AudioControlTLV320AIC3206::enableMicDetect(bool state) { //page 0, register 67 byte curVal = aic_readPage(0,67); byte newVal = curVal; if (state) { //enable newVal = 0b111010111 & newVal; //set bits 4-2 to be 010 to set debounce to 64 msec newVal = 0b10000000 | curVal; //force bit 1 to 1 to enable headset to detect aic_writePage(0,67,newVal); //bit 7 (=1) enable headset detect, bits 4-2 (=010) debounce to 64ms } else { //disable newVal = 0b01111111 & newVal; //force bit 7 to zero to disable headset detect aic_writePage(0,67,newVal); //bit 7 (=1) enable headset detect, bits 4-2 (=010) debounce to 64ms } return state; } int AudioControlTLV320AIC3206::readMicDetect(void) { //page 0, register 46, bit D4 (for D7-D0) byte curVal = aic_readPage(0,46); curVal = (curVal & 0b00010000); curVal = (curVal != 0); return curVal; } void computeFirstOrderHPCoeff_F32(float cutoff_Hz, float fs_Hz, float *coeff) { //cutoff_Hz is the cutoff frequency in Hz //fs_Hz is the sample rate in Hz //First-order Butterworth IIR //From https://www.dsprelated.com/showcode/199.php const float pi = 3.141592653589793; float T = 1.0f/fs_Hz; //sample period float w = cutoff_Hz * 2.0 * pi; float A = 1.0f / (tan( (w*T) / 2.0)); coeff[0] = A / (1.0 + A); // first b coefficient coeff[1] = -coeff[0]; // second b coefficient coeff[2] = (1.0 - A) / (1.0 + A); //second a coefficient (Matlab sign convention) coeff[2] = -coeff[2]; //flip to be TI sign convention } #define CONST_2_31_m1 (2147483647) //2^31 - 1 void computeFirstOrderHPCoeff_i32(float cutoff_Hz, float fs_Hz, int32_t *coeff) { float coeff_f32[3]; computeFirstOrderHPCoeff_F32(cutoff_Hz,fs_Hz,coeff_f32); for (int i=0; i<3; i++) { //scale coeff_f32[i] *= (float)CONST_2_31_m1; //truncate coeff[i] = (int32_t)coeff_f32[i]; } } void AudioControlTLV320AIC3206::setHPFonADC(bool enable, float cutoff_Hz, float fs_Hz) { //fs_Hz is sample rate //see TI application guide Section 2.3.3.1.10.1: http://www.ti.com/lit/an/slaa463b/slaa463b.pdf uint32_t coeff[3]; if (enable) { HP_cutoff_Hz = cutoff_Hz; sample_rate_Hz = fs_Hz; computeFirstOrderHPCoeff_i32(cutoff_Hz,fs_Hz,(int32_t *)coeff); //Serial.print("enableHPFonADC: coefficients, Hex: "); //Serial.print(coeff[0],HEX); //Serial.print(", "); //Serial.print(coeff[1],HEX); //Serial.print(", "); //Serial.print(coeff[2],HEX); //Serial.println(); } else { //disable HP_cutoff_Hz = cutoff_Hz; //see Table 5-4 in TI application guide Coeff C4, C5, C6 coeff[0] = 0x7FFFFFFF; coeff[1] = 0; coeff[2]=0; } setIIRCoeffOnADC(AIC3206_BOTH_CHAN, coeff); //needs twos-compliment } //set first-order IIR filter coefficients on ADC void AudioControlTLV320AIC3206::setIIRCoeffOnADC(int chan, uint32_t *coeff) { //power down the AIC to allow change in coefficients uint32_t prev_state = aic_readPage(0x00,0x51); aic_writePage(0x00,0x51,prev_state & (0b00111111)); //clear first two bits if (chan == AIC3206_BOTH_CHAN) { setIIRCoeffOnADC_Left(coeff); setIIRCoeffOnADC_Right(coeff); } else if (chan == AIC3206_LEFT_CHAN) { setIIRCoeffOnADC_Left(coeff); } else { setIIRCoeffOnADC_Right(coeff); } //power the ADC back up aic_writePage(0x00,0x51,prev_state); //clear first two bits } void AudioControlTLV320AIC3206::setIIRCoeffOnADC_Left(uint32_t *coeff) { int page; uint32_t c; //See TI AIC3206 Application Guide, Table 2-13: http://www.ti.com/lit/an/slaa463b/slaa463b.pdf //Coeff N0, Coeff C4 page = 8; c = coeff[0]; aic_writePage(page,24,(uint8_t)(c>>24)); aic_writePage(page,25,(uint8_t)(c>>16)); aic_writePage(page,26,(uint8_t)(c>>8)); //int foo = aic_readPage(page,24); Serial.print("setIIRCoeffOnADC: first coefficient: "); Serial.println(foo); //Coeff N1, Coeff C5 c = coeff[1]; aic_writePage(page,28,(uint8_t)(c>>24)); aic_writePage(page,29,(uint8_t)(c>>16)); aic_writePage(page,30,(uint8_t)(c>>8)); //Coeff N2, Coeff C6 c = coeff[2]; aic_writePage(page,32,(uint8_t)(c>>24)); aic_writePage(page,33,(uint8_t)(c>>16)); aic_writePage(page,34,(uint8_t)(c>>9)); } void AudioControlTLV320AIC3206::setIIRCoeffOnADC_Right(uint32_t *coeff) { int page; uint32_t c; //See TI AIC3206 Application Guide, Table 2-13: http://www.ti.com/lit/an/slaa463b/slaa463b.pdf //Coeff N0, Coeff C36 page = 9; c = coeff[0]; aic_writePage(page,32,(uint8_t)(c>>24)); aic_writePage(page,33,(uint8_t)(c>>16)); aic_writePage(page,34,(uint8_t)(c>>8)); //Coeff N1, Coeff C37 c = coeff[1]; aic_writePage(page,36,(uint8_t)(c>>24)); aic_writePage(page,37,(uint8_t)(c>>16)); aic_writePage(page,38,(uint8_t)(c>>8)); //Coeff N2, Coeff C39 c = coeff[2];; aic_writePage(page,40,(uint8_t)(c>>24)); aic_writePage(page,41,(uint8_t)(c>>16)); aic_writePage(page,42,(uint8_t)(c>>8)); }