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ADAU1781声音编解码器Linux驱动程序
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Table of Contents
ADAU1781 Sound CODEC Linux Driver
Supported Devices
Evaluation Boards
Source Code
Status
Files
| Function | File |
|---|---|
| driver | sound/soc/codecs/adau1781.c |
| driver | sound/soc/codecs/adau17x1.c |
| include | sound/soc/codecs/adau1781.h |
| include | include/sound/adau17x1.h |
Example device initialization
For compile time configuration, it’s common Linux practice to keep board- and application-specific configuration out of the main driver file, instead putting it into the board support file.
For devices on custom boards, as typical of embedded and SoC-(system-on-chip) based hardware, Linux uses platform_data to point to board-specific structures describing devices and how they are connected to the SoC. This can include available ports, chip variants, preferred modes, default initialization, additional pin roles, and so on. This shrinks the board-support packages (BSPs) and minimizes board and application specific #ifdefs in drivers.
I2C
Declaring I2C devices
Unlike PCI or USB devices, I2C devices are not enumerated at the hardware level. Instead, the software must know which devices are connected on each I2C bus segment, and what address these devices are using. For this reason, the kernel code must instantiate I2C devices explicitly. There are different ways to achieve this, depending on the context and requirements. However the most common method is to declare the I2C devices by bus number.
This method is appropriate when the I2C bus is a system bus, as in many embedded systems, wherein each I2C bus has a number which is known in advance. It is thus possible to pre-declare the I2C devices that inhabit this bus. This is done with an array of struct i2c_board_info, which is registered by calling i2c_register_board_info().
So, to enable such a driver one need only edit the board support file by adding an appropriate entry to i2c_board_info.
For more information see: Documentation/i2c/instantiating-devices
The I2C device id depends on the ADDR0 and ADDR1 pin settings and needs to be set according to your board setup.
| ADDR1 | ADDR0 | I2C device id |
|---|---|---|
| 0 | 0 | 0x38 |
| 0 | 1 | 0x39 |
| 1 | 0 | 0x3a |
| 1 | 1 | 0x3b |
In this example we assume ADDR0=0 and ADDR1=0.
static struct i2c_board_info __initdata bfin_i2c_board_info[] = { [--snip--] { I2C_BOARD_INFO("adau1781", 0x38), }, [--snip--] }
static int __init stamp_init(void) { [--snip--] i2c_register_board_info(0, bfin_i2c_board_info, ARRAY_SIZE(bfin_i2c_board_info)); [--snip--] return 0; } arch_initcall(board_init);
ASoC DAPM Widgets
| Name | Description |
|---|---|
| AOUTL | Left Lineout Amplifier |
| AOUTR | Right Lineout Amplifier |
| SP | Speaker Amplifier |
| BEEP | Beep Signal Input |
| LMIC | Left Microphone Input or Digital Microphone Input 1 |
| RMIC | Right Microphone Input or Digital Microphone Input 2 |
| MICBIAS | Bias Voltage for Electret Microphone |
ALSA Controls
| Name | Description |
|---|---|
| ADC High Pass Filter Switch | Enable/Disable ADC high-pass-filter |
| Playback De-emphasis | Enable/Disable Playback de-empahsis |
| Capture Boost | Mixer amplifier bias boost Valid values: “Normal operation”, “Boost Level 1”, “Boost Level 2”, “Boost Level 3” |
| Mic Bias Mode | Microphone bias. Valid values: “Normal operation”, “High performance” |
| DAC Mono Stereo | DAC mono mode. Valid values: “Stereo”, “Mono Left Channel (L+R)”, “Mono Right Channel (L+R)”, “Mono (L+R)” |
| DSP Bypass Capture Switch | Bypass DSP on the capture path and send ADC data directly to the serial ports |
| DSP Bypass Playback Switch | Bypass DSP on the playback path and send serial port data directly to the DACs |
| Digital Capture Volume | Digital volume attenuation for input from either the ADC or the digital microphone input. |
| Digital Playback Volume | Digital volume attenuation for output from the DAC |
| Beep Capture Volume | Beep input signal gain |
| Beep Capture Switch | Mute/Unmute Beep input signal |
| PGA Capture Volume | Analog Microphone input PGA Gain |
| PGA Capture Switch | Mute/Unmute Analog Microphone input |
| Lineout Playback Switch | Mute/Unmute Lineout |
| Beep ZC Switch | Enable Beep Zero Cross Detection |
| Mono Playback Switch | Mute/Unmute Mono(Speaker) output |
| Mono Playback Volume | Mono(Speaker) output gain |
| ADC Bias | ADC bias. Valid values: “Normal operation”, “Extreme powersaving”, “Enhanced performance”, “Power saving” |
| DAC Bias | DAC bias. Valid values: “Normal operation”, “Extreme powersaving”, “Enhanced performance”, “Power saving” |
| Capture Bias | Record path bias. Valid values: “Normal operation”, “Extreme powersaving”, “Enhanced performance”, “Power saving” |
| Playback Bias | Playback path bias. Valid values: “Normal operation”, “Extreme powersaving”, “Enhanced performance”, “Power saving” |
| Speaker Bias | Headphone bias. Valid values: “Normal operation”, “Enhanced performance”, “Power saving” |
| Mono Mixer Left Switch | Mix Left DAC signal into the Mono Mixer |
| Mono Mixer Right Switch | Mix Right DAC signal into the Mono Mixer |
| Mono Mixer Beep Playback Volume | Beep signal gain into the Mono Mixer |
| Right Lineout Mixer Switch | Mix Right DAC signal into the Right Lineout Mixer |
| Right Lineout Mixer Beep Playback Volume | Beep signal gain into the Right Lineout Mixer |
| Left Lineout Mixer Switch | Mix Left DAC signal into the Left Lineout Mixer |
| Left Lineout Mixer Beep Playback Volume | Beep signal gain into the Left Lineout Mixer |
PLL configuration
The ADAU1781 features one PLL:
enum adau17x1_pll { ADAU17X1_PLL };
The PLL input signal is the MCLK signal.
enum adau1xx1_pll_src { ADAU1XX1_PLL_SRC_MCLK, };
(The input frequency must configured to be between 8000000 and 27000000 Hz (8MHz - 27MHz). The output frequency must be configured to be between 45158000 and 49152000. Configuring the PLL with other input or output frequency will fail.)
The PLL runs at 1024 times the base sample rate. So for a 48000 Hz based sample rate you'd normally choose 49152000 Hz for the PLL output frequncey and for a 44100 Hz based sample rate 45158400 Hz.
DAI configuration
The codec driver registers one DAI: adau-hifi
Supported DAI formats
| Name | Supported by driver | Description |
|---|---|---|
| SND_SOC_DAIFMT_I2S | yes | I2S mode |
| SND_SOC_DAIFMT_RIGHT_J | yes | Right Justified mode |
| SND_SOC_DAIFMT_LEFT_J | yes | Left Justified mode |
| SND_SOC_DAIFMT_DSP_A | yes | data MSB after FRM LRC |
| SND_SOC_DAIFMT_DSP_B | yes | data MSB during FRM LRC |
| SND_SOC_DAIFMT_AC97 | no | AC97 mode |
| SND_SOC_DAIFMT_PDM | no | Pulse density modulation |
| SND_SOC_DAIFMT_NB_NF | yes | Normal bit- and frameclock |
| SND_SOC_DAIFMT_NB_IF | yes | Normal bitclock, inverted frameclock |
| SND_SOC_DAIFMT_IB_NF | yes | Inverted frameclock, normal bitclock |
| SND_SOC_DAIFMT_IB_IF | yes | Inverted bit- and frameclock |
| SND_SOC_DAIFMT_CBM_CFM | yes | Codec bit- and frameclock master |
| SND_SOC_DAIFMT_CBS_CFM | no | Codec bitclock slave, frameclock master |
| SND_SOC_DAIFMT_CBM_CFS | no | Codec bitclock master, frameclock slave |
| SND_SOC_DAIFMT_CBS_CFS | yes | Codec bit- and frameclock slave |
DAI sysclk
The DAIs can either use the PLL or the MCLK signal as source.
When using the PLL the DAIs rate should be set to the rate of the PLL. When using MCLK the rate should be set to frequency of the external MCLK signal.
enum adau17x1_clk_src { ADAU17X1_CLK_SRC_MCLK, ADAU17X1_CLK_SRC_PLL, };
When using the MCLK as the DAI source it is possible to use an internal prescaler to divide the signals frequency. Valid divider values are 1, 2, 3 and 4.
Example clock divider configuration:
ret = snd_soc_dai_set_clkdiv(codec_dai, 0, 4);
Example DAI configuration
static int bfin_eval_adau1x81_hw_params(struct snd_pcm_substream *substream, struct snd_pcm_hw_params *params) { struct snd_soc_pcm_runtime *rtd = substream->private_data; struct snd_soc_dai *cpu_dai = rtd->cpu_dai; struct snd_soc_dai *codec_dai = rtd->codec_dai; int pll_rate; int ret; ret = snd_soc_dai_set_fmt(cpu_dai, SND_SOC_DAIFMT_I2S | SND_SOC_DAIFMT_NB_NF | SND_SOC_DAIFMT_CBM_CFM); if (ret) return ret; ret = snd_soc_dai_set_fmt(codec_dai, SND_SOC_DAIFMT_I2S | SND_SOC_DAIFMT_NB_NF | SND_SOC_DAIFMT_CBM_CFM); if (ret) return ret; switch (params_rate(params)) { case 48000: case 8000: case 12000: case 16000: case 24000: case 32000: pll_rate = 48000 * 1024; break; case 44100: case 7350: case 11025: case 14700: case 22050: case 29400: pll_rate = 44100 * 1024; break; default: return -EINVAL; } ret = snd_soc_dai_set_pll(codec_dai, ADAU17X1_PLL, ADAU17X1_PLL_SRC_MCLK, 12288000, pll_rate); if (ret) return ret; ret = snd_soc_dai_set_sysclk(codec_dai, ADAU17X1_CLK_SRC_PLL, pll_rate, SND_SOC_CLOCK_IN); return ret; } static struct snd_soc_ops bfin_eval_adau1x81_ops = { .hw_params = bfin_eval_adau1x81_hw_params, }; static struct snd_soc_dai_link bfin_eval_adau1x81_dai = { .name = "adau1x81", .stream_name = "ADAU1X81", .cpu_dai_name = "bfin-i2s.0", .codec_dai_name = "adau-hifi", .platform_name = "bfin-i2s-pcm-audio", .codec_name = "adau1781.0-0038", .ops = &bfin_eval_adau1x81_ops, };
TDM configuration
The ADAU1381 and ADAU1781 chips have basic TDM support.
- The number of slots can be either 2, 4 or 8.
- The slot width can be 32, 64, 48, 128 or 256
- The slot mask must be either 0x03 (slot 0 and 1), 0x0c (slot 2 and 3), 0x30 (slot 4 and 5), 0xc0 (slot 6 and 7)
Example TDM configuration:
ret = snd_soc_dai_set_tdm_slot(codec_dai, 0x30, 0x0c, 8, 64);
ADAU1X81 evaluation board driver
There is no dedicated Blackfin STAMP evaluation board for the ADAU1381/ADAU1781. During test and driver development we used the EVAL-ADAU1381Z/EVAL-ADAU1781Z board.
It can be easily wired to the Blackfin STAMP SPORT header.
Source
Status
Files
| Function | File |
|---|---|
| driver | sound/soc/blackfin/bfin-eval-adau1x81.c |
Kernel configuration
Device Drivers ---> [*] I2C support ---> [*] I2C Hardware Bus support ---> *** I2C system bus drivers (mostly embedded / system-on-chip) *** <*> Blackfin TWI I2C support (100) Blackfin TWI I2C clock (kHz)
Enable ALSA SoC evaluation board driver:
Device Drivers --->Sound card support ---> Advanced Linux Sound Architecture ---> ALSA for SoC audio support ---> Support for the EVAL-ADAU1X81 boards on Blackfin eval boards
Hardware configuration
Connect the STAMP SPORT 0 port (P6) to the EVAL-ADAU1X81 Control port(J1) and Serial Data Interface(J4) headers.
Note that the SPORT has separate signals for the capture and playback clocks, while the ADAU1381/ADAU1781 uses the same clock signals for both, so the EVAL-ADAU1X81 clock signal pins need to be connected to two STAMP pins each.
| STAMP pin | EVAL-ADAU1X81 pin | Function |
|---|---|---|
| P6-26 (SPORT 0 - PJ2_SCL) | J1-1 | I2C SCL |
| P6-24 (SPORT 0 - PJ3_SDA) | J1-3 | I2C SDA |
| P6-6 (SPORT 0 - PJ9_TSCLK0), P6-16 (SPORT 0 - PJ6_RSCLK0) | J4-7 | BCLK |
| P6-11 (SPORT 0 - PJ10_TFS0), P6-7 (SPORT 0 - PJ7_RFS0) | J4-5 | LRCLK |
| P6-8 (SPORT 0 - PJ8_DR0PRI) | J4-9 | Captrue data |
| P6-14 (SPORT 0 - PJ11_DT0PRI | J4-11 | Playback data |
| P6-33 | J4-2 | GND |
Driver testing
Load the driver and make sure the sound card is properly instantiated.
This specifies any shell prompt running on the target
root:/> modprobe snd-bf5xx-i2s root:/> modprobe snd-soc-bf5xx-i2s root:/> modprobe snd-soc-adau1781 root:/> modprobe snd-soc-bfin-eval-adau1x81 bfin-i2s bfin-i2s.0: dma rx:3 tx:4, err irq:45, regs:ffc00800 dma_alloc_init: dma_page @ 0x02791000 - 256 pages at 0x03f00000 asoc: adau-hifi <-> bfin-i2s.0 mapping ok ALSA device list: #0: bfin-eval-adau1x81
This specifies any shell prompt running on the target
root:/> modprobe snd-pcm-oss root:/> tone TONE: generating sine wave at 1000 Hz... root:/> arecord -f cd | aplay Recording WAVE 'stdin' : Signed 16 bit Little Endian, Rate 44100 Hz, Stereo Playing WAVE 'stdin' : Signed 16 bit Little Endian, Rate 44100 Hz, Stereo
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