aic3204配置

时间：10-02 整理：3721RD 点击：

我打算在c5515中实现一个简易的MP3，预想是先将MP3转换为PCM格式，然后在aic3204中播放，可不知该怎么配置。

void aic3204_init_mono(void)
{
SYS_EXBUSSEL = 0x6100;         // Enable I2C bus
USBSTK5515_I2C_init( );        // Initialize I2C

   /* Configure AIC3204 */
   AIC3204_rset( 0, 0x00 );          // Select page 0
   AIC3204_rset( 1, 0x01 );          // Reset codec
   AIC3204_rset( 0, 0x01 );          // Select page 1
   AIC3204_rset( 1, 0x08 );          // Disable crude AVDD generation from DVDD
   AIC3204_rset( 2, 0x01 );          // Enable Analog Blocks, use LDO power
   AIC3204_rset( 10, 0x00 );        //#Set the input common mode to 0.9V
   AIC3204_rset( 61, 0x00 );        //#Set ADC PTM_R4
   AIC3204_rset( 71, 0x00 );        //#Set MicPGA startup delay to 3.1ms
   AIC3204_rset( 123, 0x01 );       //#Set the REF charging time to 40ms

   /* PLL and Clocks config and Power Up */
   AIC3204_rset( 0, 0 );          // Select page 0
   AIC3204_rset( 27, 0x4d );       // BCLK and WCLK is set as o/p to AIC3204(Master) interface DSP
   AIC3204_rset( 28, 0x02 );       //#Data offset value ( ajout de 1 BCLK's)
   AIC3204_rset( 29, 0x08 );       //# Audio interface set
   AIC3204_rset( 61, 0x01 );       //ADC Signal Processing Block Control Register
   AIC3204_rset( 60, 0x8 );        //DAC Signal Processing Block Control Register
   AIC3204_rset( 4, 3 );          // PLL setting: PLLCLK <- MCLK, CODEC_CLKIN <-PLL CLK
   AIC3204_rset( 6, 8 );          // PLL setting: J=8
   AIC3204_rset( 7, 0x07 );       // PLL setting: HI_BYTE(D=1680)
   AIC3204_rset( 8, 0x80 );       // PLL setting: LO_BYTE(D=1680)
   AIC3204_rset( 30, 0xc0 );      // For 32 bit clocks per frame in Master mode ONLY
                                  // BCLK=DAC_CLK/N =(12288000/8) = 1.536MHz = 32*fs
   AIC3204_rset( 5, 0x91 );       // PLL setting: Power up PLL, P=1 and R=1
   AIC3204_rset( 13, 03 );        // Hi_Byte(DOSR) for DOSR = 768 decimal or 0x0300 DAC oversamppling
   AIC3204_rset( 14, 0x00 );      // Lo_Byte(DOSR) for DOSR = 768 decimal or 0x0300
   AIC3204_rset( 20, 0x80 );      // AOSR for AOSR = 128 decimal or 0x80 for decimation filters 1 to 6
   AIC3204_rset( 11, 0x88 );      // Power up NDAC and set NDAC value to 2
   AIC3204_rset( 12, 0x82 );      // Power up MDAC and set MDAC value to 8
   AIC3204_rset( 18, 0x88 );      // Power up NADC and set NADC value to 8
   AIC3204_rset( 19, 0x8c );      // Power up MADC and set MADC value to 12

   AIC3204_rset( 81, 0x00 ); // Power down Left and Right ADC
   AIC3204_rset( 63, 0x14 ); // Power down left,right data paths and set channel
   AIC3204_rset( 61, 2 );       // PRB_R2
   // set biquad A to low pass fc = 3628
   AIC3204_rset( 0, 8 ); // Select page 8
   AIC3204_rset( 36, 0x6A ); // Left N0 H
   AIC3204_rset( 37, 0xC3 ); // Left N0 M
   AIC3204_rset( 38, 0x6F ); // Left N0 L
   AIC3204_rset( 40, 0x35 ); // Left N1 H
   AIC3204_rset( 41, 0x61 ); // Left N1 M
   AIC3204_rset( 42, 0xB7 ); // Left N1 L
   AIC3204_rset( 44, 0x00 ); // Left N2 H
   AIC3204_rset( 45, 0x00 ); // Left N2 M
   AIC3204_rset( 46, 0x00 ); // Left N2 L
   AIC3204_rset( 48, 0xD5 ); // Left D1 H
   AIC3204_rset( 49, 0x3C ); // Left D1 M
   AIC3204_rset( 50, 0x91 ); // Left D1 L
   AIC3204_rset( 52, 0x00 ); // Left D2 H
   AIC3204_rset( 53, 0x00 ); // Left D2 M
   AIC3204_rset( 54, 0x00 ); // Left D2 L

   AIC3204_rset( 0, 9 ); // Select page 9
   AIC3204_rset( 44, 0x6F ); // Right N0 H
   AIC3204_rset( 45, 0x96 ); // Right N0 M
   AIC3204_rset( 46, 0x52 ); // Right N0 L
   AIC3204_rset( 48, 0x37 ); // Right N1 H
   AIC3204_rset( 49, 0xCB ); // Right N1 M
   AIC3204_rset( 50, 0x29 ); // Right N1 L
   AIC3204_rset( 52, 0x00 ); // Right N2 H
   AIC3204_rset( 53, 0x00 ); // Right N2 M
   AIC3204_rset( 54, 0x00 ); // Right N2 L
   AIC3204_rset( 56, 0xD0 ); // Right D1 H
   AIC3204_rset( 57, 0x69 ); // Right D1 M
   AIC3204_rset( 58, 0xAD ); // Right D1 L
   AIC3204_rset( 60, 0x00 ); // Right D2 H
   AIC3204_rset( 61, 0x00 ); // Right D2 M
   AIC3204_rset( 62, 0x00 ); // Right D2 L

   /* DAC ROUTING and Power Up */
   AIC3204_rset( 0, 0x01 );      // Select page 1
   AIC3204_rset( 9, 0x30 );       //# OUTPUT DRIVER POWER CONTROL hp->ON lineout->OFF mixer->OFF
   AIC3204_rset( 10, 0x03 );      //#COMMON MODE CONTROL REGISTER Output of HP is powered by LDOIN
   AIC3204_rset( 11, 0x10 );      //Over Current detection is enabled for HPL & HPR
   AIC3204_rset( 12, 0x08 );      //# Left DAC (+) -> HPL
   AIC3204_rset( 13, 0x00 );      //# Left DAC (-) -> HPR
   AIC3204_rset( 14, 0x00 );      //# LOL is not routed
   AIC3204_rset( 15, 0x00 );      //# LOR is not routed
   AIC3204_rset( 16, 0x3c );      // HPL Driver gain setting register Unmute HPL , 0dB gain
   AIC3204_rset( 17, 0x3c );      // volume de sortie headphone 0x00 -> 0dB 0x3A -> -6dB 0x1d -> +29dB
   AIC3204_rset( 18, 0x40 );     //# LOL driver gain settings register
   AIC3204_rset( 19, 0x40 );     //# LOL & LOR MUTED
   AIC3204_rset( 20, 0x25 );     //#HEADPHONE DRIVER STARTUP Headphone amps power up slowly in 5.0 time constants / Headphone amps power up time is determined with 6K resistance
   AIC3204_rset( 22, 0x00 );     //# IN1L to HPL volume control bypass 0dB
   AIC3204_rset( 23, 0x00 );     //# IN1L to HPL volume control bypass 0dB
   AIC3204_rset( 24, 0x00 );     //# MIXERAMP Left volume control
   AIC3204_rset( 25, 0x00 );
   AIC3204_rset( 51, 0x50 );      //# setting du micbias micbias = Vcc
   AIC3204_rset( 0, 0x00 );      // Select page 0
   AIC3204_rset( 64, 0x00 );      //#DAC L UNMUTED, R&L independant DAC R MUTED (mode differentiel)
                                  //# 0x00 -> 0dB 0xFF -> -0.5dB 0x81 -> -63dB
   AIC3204_rset( 65, 0x00 );      //# Left DAC channel digital volume control register
   AIC3204_rset( 66, 0x00 );      //# Right DAC Channel Digital Volume Control Register
   AIC3204_rset( 63, 0x90 );      //#DAC L switched ON, R OFF, soft-stepping enabled

   /* ADC ROUTING and Power Up */
   AIC3204_rset( 0, 1 );          // Select page 1
   AIC3204_rset( 52, 0x30 );      //# IN2L -> Left MICPGA +   40K resistance
   AIC3204_rset( 54, 0x30 );      //# IN2R -> Left MICPGA - 40K resistance
   AIC3204_rset( 55, 0x00 );      //# Right MICPGA positive terminal input routing
   AIC3204_rset( 57, 0x00 );      //# Right MICPGA negative terminal input routing
   AIC3204_rset( 58, 0xbb );      //#Floating Input Configuration register
   AIC3204_rset( 59, 0 );         // MIC_PGA_L unmute
   AIC3204_rset( 60, 0 );         // MIC_PGA_R unmute
   AIC3204_rset( 0, 0 );          // Select page 0
   AIC3204_rset( 81, 0x80 );     //#ADC right OFF & left ON
   AIC3204_rset( 82, 0x08 );     //#ADC left UNMUTED right MUTED
   AIC3204_rset( 83, 0x67 );     //#ADC left & right channel volume control
   AIC3204_rset( 84, 0x67 );     //#ADC volume 20dB -- 0x28    -12dB -- 0x67
   AIC3204_rset( 85, 0x81 );     //#ADC phase adjust register

   AIC3204_rset( 0, 0 );
   USBSTK5515_wait( 200 );        // Wait

   // I2S settings
   I2S0_SRGR = 0x0;
   I2S0_CR = 0x8010;
   I2S0_ICMR = 0x2b;
}
/* ------------------------------------------------------------------------ *
*                                                                          *
* AIC3204 Tone                                                            *
*      Output a 1 kHz tone through the HEADPHONE jack                      *
*                                                                          *
* ------------------------------------------------------------------------ */
Int16 aic3204_tone_headphone(Int16* sinetable )
{
   aic3204_init_mono();
   Int16 i, sample;
   /* Play Tone */
   for ( i = 0 ; i < 50000; i++ )
   {
       while((XmitR & I2S0_IR) == 0);        // Wait for transmit interrupt to be pending
       //sample = sinetable[i];
       sample = ((sinetable[i] &0xff) << 8) | ((sinetable[i] &0xff00) >> 8);
       I2S0_W0_MSW_W = sample ; // 16 bit left channel transmit audio data
       I2S0_W1_MSW_W = sample; // 16 bit right channel transmit audio data

   }
   /* Disble I2S */
   I2S0_CR = 0x00;

   return 0;
}

这是我的配置代码和调用代码，其中sinetable数组中储存了从pcm文件中读取的数据，希望给予帮助，谢谢

没有看到在调试中遇到了什么问题呢?

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