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@@ -8,7 +8,7 @@ |
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#include "control_ak4558.h" |
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#include "Wire.h" |
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void AudioControlAK4558::readInitConfig(void) |
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void AudioControlAK4558::initConfig(void) |
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{ |
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// puts all default registers values inside an array |
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// this allows us to modify registers locally using annotation like follows: |
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@@ -18,13 +18,28 @@ void AudioControlAK4558::readInitConfig(void) |
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// |
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// after manipulation, we can write the entire register value on the CODEC |
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unsigned int n = 0; |
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Wire.requestFrom(AK4558_I2C_ADDR, 10); |
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Wire.requestFrom(AK4558_I2C_ADDR,10); |
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while(Wire.available()) { |
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Serial.print("Register "); |
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Serial.print(n); |
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Serial.print(" = "); |
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registers[n++] = Wire.read(); |
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Serial.println(registers[n-1]); |
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Serial.println(registers[n-1], BIN); |
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} |
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} |
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void AudioControlAK4558::readConfig(void) |
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{ |
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// reads registers values |
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unsigned int n = 0; |
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char c = 0; |
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Wire.requestFrom(AK4558_I2C_ADDR, 10); |
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while(Wire.available()) { |
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Serial.print("Register "); |
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Serial.print(n++); |
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Serial.print(" = "); |
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c = Wire.read(); |
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Serial.println(c, BIN); |
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} |
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} |
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@@ -33,14 +48,13 @@ bool AudioControlAK4558::write(unsigned int reg, unsigned int val) |
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Wire.beginTransmission(AK4558_I2C_ADDR); |
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Wire.write(reg); |
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Wire.write(val); |
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return (Wire.endTransmission()==0); |
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return (Wire.endTransmission(true)==0); |
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} |
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bool AudioControlAK4558::enable(void) |
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{ |
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Serial.println("Starting setup..."); |
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delay(1000); |
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Serial.println("Setup start"); |
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// Power Up and Reset |
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// Clock Setup (datasheet page 72) |
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pinMode(PIN_PDN, OUTPUT); |
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@@ -53,7 +67,7 @@ bool AudioControlAK4558::enable(void) |
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Serial.println("PDN is HIGH"); |
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// Control register settings become available in 10ms (min.) when LDOE pin = “H” |
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Wire.begin(); |
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readInitConfig(); |
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initConfig(); |
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// access all registers to store locally their default values |
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// DIF2-0, DFS1-0 and ACKS bits must be set before MCKI, LRCK and BICK are supplied |
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@@ -73,6 +87,8 @@ bool AudioControlAK4558::enable(void) |
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Serial.println(registers[AK4558_CTRL_2], BIN); |
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// MCKS1-0 = 00 (Master Clock Input Frequency Select, set 256fs for Normal Speed Mode -> 11.2896 MHz) |
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registers[AK4558_MODE_CTRL] &= ~AK4558_BCKO0; |
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registers[AK4558_MODE_CTRL] |= AK4558_LOPS; //| AK4558_FS1; |
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// Set the DAC output to power-save mode: LOPS bit “0” → “1” |
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Serial.print("MODE_CTRL set to "); |
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Serial.println(registers[AK4558_MODE_CTRL], BIN); |
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// BCKO1-0 = 00 (BICK Output Frequency at Master Mode = 32fs = 1.4112 MHz) |
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@@ -90,20 +106,20 @@ bool AudioControlAK4558::enable(void) |
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// into the next address. |
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// ADC/DAC Output setup (datasheet pages 74, 75) |
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registers[AK4558_PLL_CTRL] |= AK4558_PLL2; |
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registers[AK4558_PLL_CTRL] &= ~AK4558_PLL1; |
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write(AK4558_I2C_ADDR, registers[AK4558_PLL_CTRL]); |
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Serial.print("PLL_CTRL set to "); |
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Serial.println(registers[AK4558_PLL_CTRL], BIN); |
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delay(10); |
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// registers[AK4558_PLL_CTRL] |= AK4558_PLL2; |
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// registers[AK4558_PLL_CTRL] &= ~AK4558_PLL1; |
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// write(AK4558_I2C_ADDR, registers[AK4558_PLL_CTRL]); |
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// Serial.print("PLL_CTRL set to "); |
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// Serial.println(registers[AK4558_PLL_CTRL], BIN); |
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// delay(10); |
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// as per table 16, set PLL_CTRL.PLL3-2-1-0 to 0101 for MICK as PLL Reference, 11.2896 MHz |
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// also, wait 10 ms for PLL lock |
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// TODO: IS IT NEEDED? |
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// Set the DAC output to power-save mode: LOPS bit “0” → “1” |
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registers[AK4558_MODE_CTRL] |= AK4558_FS1 | AK4558_LOPS; |
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write(AK4558_I2C_ADDR, registers[AK4558_MODE_CTRL]); |
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Serial.print("MODE_CTRL set to "); |
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Serial.println(registers[AK4558_MODE_CTRL], BIN); |
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// registers[AK4558_MODE_CTRL] |= AK4558_LOPS; //| AK4558_FS1; |
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// write(AK4558_I2C_ADDR, registers[AK4558_MODE_CTRL]); |
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// Serial.print("MODE_CTRL set to "); |
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// Serial.println(registers[AK4558_MODE_CTRL], BIN); |
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// Set up the sampling frequency (FS3-0 bits). The ADC must be powered-up in consideration of PLL |
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// lock time. (in this case (ref. table 17): Set clock to mode 5 / 44.100 KHz) |
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// Set up the audio format (Addr=03H). (in this case: TDM1-0 = 00 (Time Division Multiplexing mode OFF) by default) |
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@@ -112,8 +128,8 @@ bool AudioControlAK4558::enable(void) |
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// ignore this, leaving default values - DAC: Set up the digital filter mode. |
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// ignore this, leaving default values - Set up the digital output volume (Address = 08H, 09H). |
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registers[AK4558_PWR_MNGT] |= AK4558_PMADR | AK4558_PMADL | AK4558_PMDAR | AK4558_PMDAL; |
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write(AK4558_I2C_ADDR, registers[AK4558_PWR_MNGT]); |
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registers[AK4558_PWR_MNGT] |= AK4558_PMDAR | AK4558_PMDAL | AK4558_PMADR | AK4558_PMADL; |
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write(AK4558_PWR_MNGT, registers[AK4558_PWR_MNGT]); |
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Serial.print("PWR_MNGT set to "); |
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Serial.println(registers[AK4558_PWR_MNGT], BIN); |
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delay(300); |
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@@ -123,13 +139,13 @@ bool AudioControlAK4558::enable(void) |
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// Outputs of the LOUT and ROUT pins start rising. Rise time is 300ms (max.) when C = 1μF. |
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registers[AK4558_MODE_CTRL] &= ~AK4558_LOPS; |
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write(AK4558_I2C_ADDR, registers[AK4558_MODE_CTRL]); |
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write(AK4558_I2C_ADDR, registers[AK4558_MODE_CTRL]); |
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write(AK4558_MODE_CTRL, registers[AK4558_MODE_CTRL]); |
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Serial.print("MODE_CTRL set to "); |
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Serial.println(registers[AK4558_MODE_CTRL], BIN); |
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// Release power-save mode of the DAC output: LOPS bit = “1” → “0” |
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// Set LOPS bit to “0” after the LOUT and ROUT pins output “H”. Sound data will be output from the |
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// LOUT and ROUT pins after this setting. |
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Serial.println("Setup ended"); |
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write(AK4558_ROUT_VOL,255); //dummy write to last register to reset address counter to 0 |
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return true; |
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} |
Michele Perla
9 år sedan