mirror of
https://github.com/jialexd/sdk-ameba-v4.0c_180328.git
synced 2024-11-28 09:10:28 +00:00
200 lines
5.3 KiB
C
Executable file
200 lines
5.3 KiB
C
Executable file
#include "sgtl5000.h"
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#include "PinNames.h"
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#include "basic_types.h"
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#include "i2c_api.h"
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#include "i2c_ex_api.h"
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#include "pinmap.h"
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#include "wait_api.h"
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//#define I2C_MTR_SDA PC_4//PB_3
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//#define I2C_MTR_SCL PC_5//PB_2
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#define I2C_MTR_SDA PB_3
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#define I2C_MTR_SCL PB_2
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#define I2C_BUS_CLK 100000 //100K HZ
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i2c_t sgtl5000_i2c;
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uint16_t ana_ctrl;
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uint8_t i2c_addr;
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bool muted;
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u8 sgtl5000_reg_write(u16 reg, u16 val)
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{
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int length = 0;
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char buf[4];
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buf[0] = (char)(reg >> 8);
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buf[1] = (char)(reg&0xff);
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buf[2] = (char)(val>>8);
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buf[3] = (char)(val&0xff);
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length = i2c_write(&sgtl5000_i2c, i2c_addr, &buf[0], 4, 1);
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return (length==4)?0:1;
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}
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u8 sgtl5000_reg_read(u16 reg, u16* val)
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{
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int tmp;
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char *buf = (char*)&tmp;
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u8 ret = 0;
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buf[0] = (char)(reg >> 8);
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buf[1] = (char)(reg&0xff);
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if(i2c_write(&sgtl5000_i2c, i2c_addr, &buf[0], 2, 1) != 2){
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DBG_8195A("sgtl5000_reg_read(): write register addr fail\n");
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ret = 1;
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}
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buf[0] = 0xaa;
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buf[1] = 0xaa;
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if(i2c_read(&sgtl5000_i2c, i2c_addr, &buf[0], 2, 1) < 2){
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DBG_8195A("sgtl5000_reg_read(): read register value fail\n");
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ret = 1;
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}else
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*val = ((buf[0]&0xFF)<<8)|(buf[1]&0xFF);
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return ret;
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}
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u16 sgtl5000_reg_modify(u16 reg, u16 val, u16 iMask)
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{
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u16 val1;
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sgtl5000_reg_read(reg, &val1);
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u16 val2 = (val1 &(~iMask))|val;
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if(!sgtl5000_reg_write(reg, val2)) return 0;
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return val2;
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}
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void sgtl5000_setAddress(uint8_t level)
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{
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if (level == 0) {
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i2c_addr = SGTL5000_I2C_ADDR_CS_LOW;
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} else {
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i2c_addr = SGTL5000_I2C_ADDR_CS_HIGH;
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}
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}
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void sgtl5000_i2c_master_txc_callback(void *userdata)
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{
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}
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void sgtl5000_i2c_master_rxc_callback(void *userdata)
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{
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}
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void sgtl5000_i2c_master_err_callback(void *userdata)
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{
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//DBG_8195A("I2C Ack address:%d", (sgtl5000_i2c.I2Cx->IC_TAR)& BIT_CTRL_IC_TAR);//sgtl5000_i2c.SalI2CHndPriv.SalI2CHndPriv.I2CAckAddr);
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//DBG_8195A("I2C Error:%x\n", sgtl5000_i2c.I2Cx->IC_TX_ABRT_SOURCE);//sgtl5000_i2c.SalI2CHndPriv.SalI2CHndPriv.ErrType);
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}
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void sgtl5000_reg_dump(void);
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u8 sgtl5000_enable(void){
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u16 temp = 0;
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u8 ret = 0;
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muted = 1;
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memset(&sgtl5000_i2c, 0x00, sizeof(sgtl5000_i2c));
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i2c_init(&sgtl5000_i2c, I2C_MTR_SDA, I2C_MTR_SCL);
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i2c_frequency(&sgtl5000_i2c, I2C_BUS_CLK);
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i2c_set_user_callback(&sgtl5000_i2c, I2C_ERR_OCCURRED, sgtl5000_i2c_master_err_callback);
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// set I2C address
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sgtl5000_setAddress(0); // CTRL_ADR0_CS is tied to GND
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wait_ms(5);
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ret = sgtl5000_reg_read(CHIP_ID, &temp);
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if(ret == 0)
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DBG_8195A("SGTL5000 CHIP ID:0x%04X\n", temp);
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else
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DBG_8195A("Get SGTL5000 CHIP ID fail\n");
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sgtl5000_reg_write(CHIP_ANA_POWER, 0x4060); // VDDD is externally driven with 1.8V
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sgtl5000_reg_write(CHIP_LINREG_CTRL, 0x006C); // VDDA & VDDIO both over 3.1V
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sgtl5000_reg_write(CHIP_REF_CTRL, 0x01F2); // VAG=1.575, normal ramp, +12.5% bias current
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sgtl5000_reg_write(CHIP_LINE_OUT_CTRL, 0x0F22); // LO_VAGCNTRL=1.65V, OUT_CURRENT=0.54mA
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sgtl5000_reg_write(CHIP_SHORT_CTRL, 0x4446); // allow up to 125mA
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sgtl5000_reg_write(CHIP_ANA_CTRL, 0x0137); // enable zero cross detectors
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sgtl5000_reg_write(CHIP_ANA_POWER, 0x40FF); // power up: lineout, hp, adc, dac
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sgtl5000_reg_write(CHIP_DIG_POWER, 0x0073); // power up all digital stuff
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wait_ms(400);
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sgtl5000_reg_write(CHIP_LINE_OUT_VOL, 0x1D1D); // default approx 1.3 volts peak-to-peak
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sgtl5000_reg_write(CHIP_CLK_CTRL, 0x0004); // 44.1 kHz, 256*Fs
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sgtl5000_reg_write(CHIP_I2S_CTRL, 0x0130); // SCLK=32*Fs, 16bit, I2S format
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// default signal routing is ok?
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sgtl5000_reg_write(CHIP_SSS_CTRL, 0x0010); // ADC->I2S, I2S->DAC
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sgtl5000_reg_write(CHIP_ADCDAC_CTRL, 0x0000); // disable dac mute
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sgtl5000_reg_write(CHIP_DAC_VOL, 0x3C3C); // digital gain, 0dB
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sgtl5000_reg_write(CHIP_ANA_HP_CTRL, 0x7F7F); // set volume (lowest level)
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sgtl5000_reg_write(CHIP_ANA_CTRL, 0x0036); // enable zero cross detectors
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//semi_automated = true;
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//sgtl5000_reg_dump();
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return 0;
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}
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bool sgtl5000_muteHeadphone(void) {
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return sgtl5000_reg_write(CHIP_ANA_CTRL, ana_ctrl | (1<<4));
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}
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bool sgtl5000_unmuteHeadphone(void) {
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return sgtl5000_reg_write(CHIP_ANA_CTRL, ana_ctrl & ~(1<<4));
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}
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bool sgtl5000_muteLineout(void) {
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return sgtl5000_reg_write(CHIP_ANA_CTRL, ana_ctrl | (1<<8));
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}
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bool sgtl5000_unmuteLineout(void) {
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return sgtl5000_reg_write(CHIP_ANA_CTRL, ana_ctrl & ~(1<<8));
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}
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u8 sgtl5000_setVolume(float val){
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int volumeInt = 0;
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volumeInt = (int)(val * 129 + 0.499);
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if (volumeInt == 0) {
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muted = 1;
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sgtl5000_reg_write(CHIP_ANA_HP_CTRL, 0x7F7F);
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return sgtl5000_muteHeadphone();
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} else if (volumeInt > 0x80) {
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volumeInt = 0;
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} else {
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volumeInt = 0x80 - volumeInt;
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}
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if (muted) {
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muted = 0;
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sgtl5000_unmuteHeadphone();
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}
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volumeInt = volumeInt | (volumeInt << 8);
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return sgtl5000_reg_write(CHIP_ANA_HP_CTRL, volumeInt); // set volume
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}
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void sgtl5000_reg_dump(void)
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{
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u16 reg;
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u8 ret = 0;
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u16 value;
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DBG_8195A("SGTL5000 codec reg dump\n\r");
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DBG_8195A("------------------------\n\r");
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for(reg = 0; reg <= 0x013A; ){
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ret = sgtl5000_reg_read(reg, &value);
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if(ret == 0)
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DBG_8195A("0x%04X : 0x%04X\n\r", reg, value);
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reg += 0x02;
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}
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DBG_8195A("------------------------\n\r");
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}
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