pinebuds/config/open_source/tgt_hardware.c

1107 lines
41 KiB
C

/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include "tgt_hardware.h"
#include "aud_section.h"
#include "drc.h"
#include "fir_process.h"
#include "iir_process.h"
#include "limiter.h"
#include "spectrum_fix.h"
const struct HAL_IOMUX_PIN_FUNCTION_MAP cfg_hw_pinmux_pwl[CFG_HW_PLW_NUM] = {
#if (CFG_HW_PLW_NUM > 0)
{HAL_IOMUX_PIN_LED2, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE},
{HAL_IOMUX_PIN_LED1, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE},
#endif
};
#ifdef __APP_USE_LED_INDICATE_IBRT_STATUS__
const struct HAL_IOMUX_PIN_FUNCTION_MAP cfg_ibrt_indication_pinmux_pwl[3] = {
{HAL_IOMUX_PIN_P1_5, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE},
{HAL_IOMUX_PIN_LED1, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VBAT,
HAL_IOMUX_PIN_PULLUP_ENABLE},
{HAL_IOMUX_PIN_LED2, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VBAT,
HAL_IOMUX_PIN_PULLUP_ENABLE},
};
#endif
#ifdef __KNOWLES
const struct HAL_IOMUX_PIN_FUNCTION_MAP cfg_pinmux_uart[2] = {
{HAL_IOMUX_PIN_P2_2, HAL_IOMUX_FUNC_UART2_RX, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_NOPULL},
{HAL_IOMUX_PIN_P2_3, HAL_IOMUX_FUNC_UART2_TX, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_NOPULL},
};
#endif
// adckey define
const uint16_t CFG_HW_ADCKEY_MAP_TABLE[CFG_HW_ADCKEY_NUMBER] = {
#if (CFG_HW_ADCKEY_NUMBER > 0)
HAL_KEY_CODE_FN9, HAL_KEY_CODE_FN8, HAL_KEY_CODE_FN7,
HAL_KEY_CODE_FN6, HAL_KEY_CODE_FN5, HAL_KEY_CODE_FN4,
HAL_KEY_CODE_FN3, HAL_KEY_CODE_FN2, HAL_KEY_CODE_FN1,
#endif
};
// gpiokey define
#define CFG_HW_GPIOKEY_DOWN_LEVEL (0)
#define CFG_HW_GPIOKEY_UP_LEVEL (1)
const struct HAL_KEY_GPIOKEY_CFG_T cfg_hw_gpio_key_cfg[CFG_HW_GPIOKEY_NUM] = {
/*
#if (CFG_HW_GPIOKEY_NUM > 0)
#ifdef BES_AUDIO_DEV_Main_Board_9v0
{HAL_KEY_CODE_FN1,{HAL_IOMUX_PIN_P0_3, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
{HAL_KEY_CODE_FN2,{HAL_IOMUX_PIN_P0_0, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
{HAL_KEY_CODE_FN3,{HAL_IOMUX_PIN_P0_1, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
{HAL_KEY_CODE_FN4,{HAL_IOMUX_PIN_P0_2, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
//{HAL_KEY_CODE_FN5,{HAL_IOMUX_PIN_P2_0, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
// {HAL_KEY_CODE_FN6,{HAL_IOMUX_PIN_P2_1, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}}, #else #ifndef
TPORTS_KEY_COEXIST {HAL_KEY_CODE_FN1,{HAL_IOMUX_PIN_P1_3,
HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE}}, {HAL_KEY_CODE_FN2,{HAL_IOMUX_PIN_P1_0,
HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE}},
// {HAL_KEY_CODE_FN3,{HAL_IOMUX_PIN_P1_2, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
{HAL_KEY_CODE_FN15,{HAL_IOMUX_PIN_P1_2, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}}, #else
{HAL_KEY_CODE_FN1,{HAL_IOMUX_PIN_P1_3, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
{HAL_KEY_CODE_FN15,{HAL_IOMUX_PIN_P1_0, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}}, #endif #endif
#ifdef IS_MULTI_AI_ENABLED
//{HAL_KEY_CODE_FN13,{HAL_IOMUX_PIN_P1_3, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
//{HAL_KEY_CODE_FN14,{HAL_IOMUX_PIN_P1_2, HAL_IOMUX_FUNC_AS_GPIO,
HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}}, #endif #endif
*/
// {HAL_KEY_CODE_FN1,{HAL_IOMUX_PIN_P1_5, HAL_IOMUX_FUNC_AS_GPIO,
// HAL_IOMUX_PIN_VOLTAGE_VIO, HAL_IOMUX_PIN_PULLUP_ENABLE}},
};
// bt config
// const char *BT_LOCAL_NAME = TO_STRING(BT_DEV_NAME) "\0";
const char *BT_LOCAL_NAME = "PineBuds Pro";
const char *BLE_DEFAULT_NAME = "BES_BLE";
uint8_t ble_addr[6] = {
#ifdef BLE_DEV_ADDR
BLE_DEV_ADDR
#else
0xBE, 0x99, 0x34, 0x45,
0x56, 0x67
#endif
};
uint8_t bt_addr[6] = {
#ifdef BT_DEV_ADDR
BT_DEV_ADDR
#else
0x1e, 0x57, 0x34, 0x45,
0x56, 0x67
#endif
};
const struct HAL_IOMUX_PIN_FUNCTION_MAP cfg_hw_tws_channel_cfg = {
HAL_IOMUX_PIN_P1_4, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE};
bool tgt_tws_get_channel_is_right(void) {
#ifdef __FIXED_TWS_EAR_SIDE__
return TWS_EAR_SIDE_ROLE;
#else
hal_iomux_init((struct HAL_IOMUX_PIN_FUNCTION_MAP *)&cfg_hw_tws_channel_cfg,
1);
// Pinebuds pull down to 0 for right ear, but float to 1 for left ear
return (hal_gpio_pin_get_val(
(enum HAL_GPIO_PIN_T)cfg_hw_tws_channel_cfg.pin) == 0);
#endif
}
// audio config
// freq bands range {[0k:2.5K], [2.5k:5K], [5k:7.5K], [7.5K:10K], [10K:12.5K],
// [12.5K:15K], [15K:17.5K], [17.5K:20K]} gain range -12~+12
const int8_t cfg_aud_eq_sbc_band_settings[CFG_HW_AUD_EQ_NUM_BANDS] = {
0, 0, 0, 0, 0, 0, 0, 0};
#define TX_PA_GAIN CODEC_TX_PA_GAIN_DEFAULT
const struct CODEC_DAC_VOL_T codec_dac_vol[TGT_VOLUME_LEVEL_QTY] = {
{TX_PA_GAIN, 0x03, -21}, {TX_PA_GAIN, 0x03, -99},
{TX_PA_GAIN, 0x03, -45}, {TX_PA_GAIN, 0x03, -42},
{TX_PA_GAIN, 0x03, -39}, {TX_PA_GAIN, 0x03, -36},
{TX_PA_GAIN, 0x03, -33}, {TX_PA_GAIN, 0x03, -30},
{TX_PA_GAIN, 0x03, -27}, {TX_PA_GAIN, 0x03, -24},
{TX_PA_GAIN, 0x03, -21}, {TX_PA_GAIN, 0x03, -18},
{TX_PA_GAIN, 0x03, -15}, {TX_PA_GAIN, 0x03, -12},
{TX_PA_GAIN, 0x03, -9}, {TX_PA_GAIN, 0x03, -6},
{TX_PA_GAIN, 0x03, -3}, {TX_PA_GAIN, 0x03, 0}, // 0dBm
};
#if SPEECH_CODEC_CAPTURE_CHANNEL_NUM == 2
#define CFG_HW_AUD_INPUT_PATH_MAINMIC_DEV \
(AUD_CHANNEL_MAP_CH0 | AUD_CHANNEL_MAP_CH4 | AUD_VMIC_MAP_VMIC2 | \
AUD_VMIC_MAP_VMIC3)
#elif SPEECH_CODEC_CAPTURE_CHANNEL_NUM == 3
#define CFG_HW_AUD_INPUT_PATH_MAINMIC_DEV \
(AUD_CHANNEL_MAP_CH0 | AUD_CHANNEL_MAP_CH1 | AUD_CHANNEL_MAP_CH4 | \
AUD_VMIC_MAP_VMIC1)
#else
#define CFG_HW_AUD_INPUT_PATH_MAINMIC_DEV \
(AUD_CHANNEL_MAP_CH4 | AUD_VMIC_MAP_VMIC3)
#endif
#define CFG_HW_AUD_INPUT_PATH_LINEIN_DEV \
(AUD_CHANNEL_MAP_CH0 | AUD_CHANNEL_MAP_CH1)
#ifdef VOICE_DETECTOR_EN
#define CFG_HW_AUD_INPUT_PATH_VADMIC_DEV \
(AUD_CHANNEL_MAP_CH4 | AUD_VMIC_MAP_VMIC1)
#else
#define CFG_HW_AUD_INPUT_PATH_ASRMIC_DEV \
(AUD_CHANNEL_MAP_CH4 | AUD_VMIC_MAP_VMIC3)
#endif
const struct AUD_IO_PATH_CFG_T
cfg_audio_input_path_cfg[CFG_HW_AUD_INPUT_PATH_NUM] = {
#if defined(SPEECH_TX_AEC_CODEC_REF)
// NOTE: If enable Ch5 and CH6, need to add channel_num when setup
// audioflinger stream
{
AUD_INPUT_PATH_MAINMIC,
CFG_HW_AUD_INPUT_PATH_MAINMIC_DEV | AUD_CHANNEL_MAP_CH4,
},
#else
{
AUD_INPUT_PATH_MAINMIC,
CFG_HW_AUD_INPUT_PATH_MAINMIC_DEV,
},
#endif
{
AUD_INPUT_PATH_LINEIN,
CFG_HW_AUD_INPUT_PATH_LINEIN_DEV,
},
#ifdef VOICE_DETECTOR_EN
{
AUD_INPUT_PATH_VADMIC,
CFG_HW_AUD_INPUT_PATH_VADMIC_DEV,
},
#else
{
AUD_INPUT_PATH_ASRMIC,
CFG_HW_AUD_INPUT_PATH_ASRMIC_DEV,
},
#endif
};
const struct HAL_IOMUX_PIN_FUNCTION_MAP app_battery_ext_charger_enable_cfg = {
HAL_IOMUX_PIN_NUM, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE};
const struct HAL_IOMUX_PIN_FUNCTION_MAP app_battery_ext_charger_detecter_cfg = {
HAL_IOMUX_PIN_P1_1, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE};
const struct HAL_IOMUX_PIN_FUNCTION_MAP app_battery_ext_charger_indicator_cfg =
{HAL_IOMUX_PIN_NUM, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE};
/*
const struct HAL_IOMUX_PIN_FUNCTION_MAP TOUCH_INT ={
HAL_IOMUX_PIN_P1_5, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
HAL_IOMUX_PIN_PULLUP_ENABLE
};
*/
// const struct HAL_IOMUX_PIN_FUNCTION_MAP TOUCH_I2C_SDA ={
// HAL_IOMUX_PIN_P2_1, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
// HAL_IOMUX_PIN_PULLUP_ENABLE
// };
// const struct HAL_IOMUX_PIN_FUNCTION_MAP TOUCH_I2C_SCL ={
// HAL_IOMUX_PIN_P2_0, HAL_IOMUX_FUNC_AS_GPIO, HAL_IOMUX_PIN_VOLTAGE_VIO,
// HAL_IOMUX_PIN_PULLUP_ENABLE
// };
#define IIR_COUNTER_FF_L (6)
#define IIR_COUNTER_FF_R (6)
#define IIR_COUNTER_FB_L (5)
#define IIR_COUNTER_FB_R (5)
static const struct_anc_cfg POSSIBLY_UNUSED
AncFirCoef_50p7k_mode0 =
{
.anc_cfg_ff_l =
{
// .total_gain = 440,
.total_gain = 350,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FF_L,
.iir_coef[0].coef_b = {42462788, -84862242, 42399478},
.iir_coef[0].coef_a = {134217728, -268358003, 134140286},
.iir_coef[1].coef_b = {135905569, -267224817, 131334465},
.iir_coef[1].coef_a = {134217728, -267224817, 133022306},
.iir_coef[2].coef_b = {132936489, -263935268, 131067941},
.iir_coef[2].coef_a = {134217728, -263935268, 129786702},
.iir_coef[3].coef_b = {131758190, -257297054, 126191415},
.iir_coef[3].coef_a = {134217728, -257297054, 123731878},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_ff_r =
{
// .total_gain = 382,
.total_gain = 350,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FF_R,
.iir_coef[0].coef_b = {42462788, -84862242, 42399478},
.iir_coef[0].coef_a = {134217728, -268358003, 134140286},
.iir_coef[1].coef_b = {135905569, -267224817, 131334465},
.iir_coef[1].coef_a = {134217728, -267224817, 133022306},
.iir_coef[2].coef_b = {132936489, -263935268, 131067941},
.iir_coef[2].coef_a = {134217728, -263935268, 129786702},
.iir_coef[3].coef_b = {131758190, -257297054, 126191415},
.iir_coef[3].coef_a = {134217728, -257297054, 123731878},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
/*
Filter1_B=[ 27461831, -54408898, 27001841];
Filter1_A=[ 134217728, -216605724, 82606056];
Filter2_B=[ 138294078, -267600712, 129323227];
Filter2_A=[ 134217728, -267600712, 133399577];
Filter3_B=[ 134500015, -268177932, 133678688];
Filter3_A=[ 134217728, -268177932, 133960975];
Filter4_B=[ 133629164, -264794659, 131257050];
Filter4_A=[ 134217728, -264794659, 130668486];
*/
.anc_cfg_fb_l =
{
.total_gain = 350,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FB_L,
.iir_coef[0].coef_b = {27461831, -54408898, 27001841},
.iir_coef[0].coef_a = {134217728, -216605724, 82606056},
.iir_coef[1].coef_b = {138294078, -267600712, 129323227},
.iir_coef[1].coef_a = {134217728, -267600712, 133399577},
.iir_coef[2].coef_b = {134500015, -268177932, 133678688},
.iir_coef[2].coef_a = {134217728, -268177932, 133960975},
.iir_coef[3].coef_b = {133629164, -264794659, 131257050},
.iir_coef[3].coef_a = {134217728, -264794659, 130668486},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_fb_r =
{
.total_gain = 350,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FB_R,
.iir_coef[0].coef_b = {27461831, -54408898, 27001841},
.iir_coef[0].coef_a = {134217728, -216605724, 82606056},
.iir_coef[1].coef_b = {138294078, -267600712, 129323227},
.iir_coef[1].coef_a = {134217728, -267600712, 133399577},
.iir_coef[2].coef_b = {134500015, -268177932, 133678688},
.iir_coef[2].coef_a = {134217728, -268177932, 133960975},
.iir_coef[3].coef_b = {133629164, -264794659, 131257050},
.iir_coef[3].coef_a = {134217728, -264794659, 130668486},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
};
/*
//ff
Filter1_B=[ 42463913, -84860822, 42396935];
Filter1_A=[ 134217728, -268353516, 134135801];
Filter2_B=[ 136002894, -267154076, 131168209];
Filter2_A=[ 134217728, -267154076, 132953376];
Filter3_B=[ 132863566, -263674901, 130888668];
Filter3_A=[ 134217728, -263674901, 129534506];
Filter4_B=[ 131621817, -256639526, 125746382];
Filter4_A=[ 134217728, -256639526, 123150471];
*/
static const struct_anc_cfg POSSIBLY_UNUSED
AncFirCoef_48k_mode0 =
{
.anc_cfg_ff_l =
{
// .total_gain = 440,
.total_gain = 312,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FF_L,
.iir_coef[0].coef_b = {42463913, -84860822, 42396935},
.iir_coef[0].coef_a = {134217728, -268353516, 134135801},
.iir_coef[1].coef_b = {136002894, -267154076, 131168209},
.iir_coef[1].coef_a = {134217728, -267154076, 132953376},
.iir_coef[2].coef_b = {132863566, -263674901, 130888668},
.iir_coef[2].coef_a = {134217728, -263674901, 129534506},
.iir_coef[3].coef_b = {131621817, -256639526, 125746382},
.iir_coef[3].coef_a = {134217728, -256639526, 123150471},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_ff_r =
{
// .total_gain = 382,
.total_gain = 288,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FF_R,
.iir_coef[0].coef_b = {42463913, -84860822, 42396935},
.iir_coef[0].coef_a = {134217728, -268353516, 134135801},
.iir_coef[1].coef_b = {136002894, -267154076, 131168209},
.iir_coef[1].coef_a = {134217728, -267154076, 132953376},
.iir_coef[2].coef_b = {132863566, -263674901, 130888668},
.iir_coef[2].coef_a = {134217728, -263674901, 129534506},
.iir_coef[3].coef_b = {131621817, -256639526, 125746382},
.iir_coef[3].coef_a = {134217728, -256639526, 123150471},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
/*
Filter1_B=[ 27172676, -53803459, 26691412];
Filter1_A=[ 134217728, -214195429, 80219070];
Filter2_B=[ 138529480, -267551490, 129040578];
Filter2_A=[ 134217728, -267551490, 133352330];
Filter3_B=[ 134516353, -268162980, 133647489];
Filter3_A=[ 134217728, -268162980, 133946114];
Filter4_B=[ 133595549, -264581113, 131087955];
Filter4_A=[ 134217728, -264581113, 130465777];
*/
.anc_cfg_fb_l =
{
.total_gain = 511,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FB_L,
.iir_coef[0].coef_b = {27172676, -53803459, 26691412},
.iir_coef[0].coef_a = {134217728, -214195429, 80219070},
.iir_coef[1].coef_b = {138529480, -267551490, 129040578},
.iir_coef[1].coef_a = {134217728, -267551490, 133352330},
.iir_coef[2].coef_b = {134516353, -268162980, 133647489},
.iir_coef[2].coef_a = {134217728, -268162980, 133946114},
.iir_coef[3].coef_b = {133595549, -264581113, 131087955},
.iir_coef[3].coef_a = {134217728, -264581113, 130465777},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_fb_r =
{
.total_gain = 511,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FB_R,
.iir_coef[0].coef_b = {27172676, -53803459, 26691412},
.iir_coef[0].coef_a = {134217728, -214195429, 80219070},
.iir_coef[1].coef_b = {138529480, -267551490, 129040578},
.iir_coef[1].coef_a = {134217728, -267551490, 133352330},
.iir_coef[2].coef_b = {134516353, -268162980, 133647489},
.iir_coef[2].coef_a = {134217728, -268162980, 133946114},
.iir_coef[3].coef_b = {133595549, -264581113, 131087955},
.iir_coef[3].coef_a = {134217728, -264581113, 130465777},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
#if (AUD_SECTION_STRUCT_VERSION == 2)
/*
1.0000000000000000,-1.5858874672928407,0.6974239598044429,0.2832267077115959,-0.3117526885614825,0.1400624733614886,
Filter1_B=[ 4751756, -5230342, 2349858];
Filter1_A=[ 16777216, -26606777, 11700832];
1.0000000000000000,-1.7971697583202608,0.8159624512785459,0.9540998606028980,-1.7971697583202608,0.8618625906756480,
Filter2_B=[ 16007139, -30151505, 14459655];
Filter2_A=[ 16777216, -30151505, 13689578];
1.0000000000000000,-1.9694050640918992,0.9705681145972464,0.3200483744622364,-0.6223829329788905,0.3034976090220014,
Filter3_B=[ 5369521, -10441853, 5091845];
Filter3_A=[ 16777216, -33041134, 16283431];
1.0000000000000000,-1.9921619776276678,0.9921812243512138,0.9968660174712476,-1.9921712178765081,0.9953059666311256,
Filter4_B=[ 16724636, -33423087, 16698463];
Filter4_A=[ 16777216, -33422932, 16646039];
*/
/*
1.0000000000000000,-1.9868580074509832,0.9869011854430232,1.1834688902733632,-2.3614075958038656,1.1779451659756268,
Filter1_B=[ 19855313, -39617845, 19762640];
Filter1_A=[ 16777216, -33333946, 16557454];
1.0000000000000000,-1.0329261527674278,0.0418392318218667,0.5812322628931170,-1.0329261527674278,0.4606069689287498,
Filter2_B=[ 9751459, -17329625, 7727703];
Filter2_A=[ 16777216, -17329625, 701946];
1.0000000000000000,-1.9576081396140492,0.9591185490154677,1.0729914166044796,-1.9576081396140492,0.8861271324109881,
Filter3_B=[ 18001809, -32843215, 14866746];
Filter3_A=[ 16777216, -32843215, 16091339];
1.0000000000000000,-1.9197071583239940,0.9219883336398085,0.7545642546264146,-1.4392920140632206,0.6870089347526202,
Filter4_B=[ 12659487, -24147313, 11526097];
Filter4_A=[ 16777216, -32207342, 15468397];
1.0000000000000000,-1.9102108535747602,0.9139876710346515,0.9829076121866517,-1.9102108535747602,0.9310800588479999,
Filter5_B=[ 16490453, -32048020, 15620931];
Filter5_A=[ 16777216, -32048020, 15334169];
*/
.anc_cfg_mc_l =
{
.total_gain = 1228,
.iir_bypass_flag = 0,
.iir_counter = 5,
.iir_coef[0].coef_b = {19855313, -39617845, 19762640},
.iir_coef[0].coef_a = {16777216, -33333946, 16557454},
.iir_coef[1].coef_b = {9751459, -17329625, 7727703},
.iir_coef[1].coef_a = {16777216, -17329625, 701946},
.iir_coef[2].coef_b = {18001809, -32843215, 14866746},
.iir_coef[2].coef_a = {16777216, -32843215, 16091339},
.iir_coef[3].coef_b = {12659487, -24147313, 11526097},
.iir_coef[3].coef_a = {16777216, -32207342, 15468397},
.iir_coef[4].coef_b = {16490453, -32048020, 15620931},
.iir_coef[4].coef_a = {16777216, -32048020, 15334169},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_mc_r =
{
.total_gain = 1331,
.iir_bypass_flag = 0,
.iir_counter = 5,
.iir_coef[0].coef_b = {19855313, -39617845, 19762640},
.iir_coef[0].coef_a = {16777216, -33333946, 16557454},
.iir_coef[1].coef_b = {9751459, -17329625, 7727703},
.iir_coef[1].coef_a = {16777216, -17329625, 701946},
.iir_coef[2].coef_b = {18001809, -32843215, 14866746},
.iir_coef[2].coef_a = {16777216, -32843215, 16091339},
.iir_coef[3].coef_b = {12659487, -24147313, 11526097},
.iir_coef[3].coef_a = {16777216, -32207342, 15468397},
.iir_coef[4].coef_b = {16490453, -32048020, 15620931},
.iir_coef[4].coef_a = {16777216, -32048020, 15334169},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
#endif
};
/*
//ff
Filter1_B=[ 42465729, -84858529, 42392831];
Filter1_A=[ 134217728, -268346271, 134128558];
Filter2_B=[ 136159949, -267039705, 130899919];
Filter2_A=[ 134217728, -267039705, 132842140];
Filter3_B=[ 132746107, -263254540, 130599907];
Filter3_A=[ 134217728, -263254540, 129128286];
Filter4_B=[ 131402980, -255575175, 125032243];
Filter4_A=[ 134217728, -255575175, 122217496];
*/
static const struct_anc_cfg POSSIBLY_UNUSED
AncFirCoef_44p1k_mode0 =
{
.anc_cfg_ff_l =
{
// .total_gain = 440,
.total_gain = 312,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FF_L,
.iir_coef[0].coef_b = {42465729, -84858529, 42392831},
.iir_coef[0].coef_a = {134217728, -268346271, 134128558},
.iir_coef[1].coef_b = {136159949, -267039705, 130899919},
.iir_coef[1].coef_a = {134217728, -267039705, 132842140},
.iir_coef[2].coef_b = {132746107, -263254540, 130599907},
.iir_coef[2].coef_a = {134217728, -263254540, 129128286},
.iir_coef[3].coef_b = {131402980, -255575175, 125032243},
.iir_coef[3].coef_a = {134217728, -255575175, 122217496},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_ff_r =
{
// .total_gain = 382,
.total_gain = 288,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FF_R,
.iir_coef[0].coef_b = {42465729, -84858529, 42392831},
.iir_coef[0].coef_a = {134217728, -268346271, 134128558},
.iir_coef[1].coef_b = {136159949, -267039705, 130899919},
.iir_coef[1].coef_a = {134217728, -267039705, 132842140},
.iir_coef[2].coef_b = {132746107, -263254540, 130599907},
.iir_coef[2].coef_a = {134217728, -263254540, 129128286},
.iir_coef[3].coef_b = {131402980, -255575175, 125032243},
.iir_coef[3].coef_a = {134217728, -255575175, 122217496},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
/*
Filter1_B=[ 26719020, -52852829, 26204379];
Filter1_A=[ 134217728, -210410903, 76474119];
Filter2_B=[ 138909433, -267471808, 128584365];
Filter2_A=[ 134217728, -267471808, 133276071];
Filter3_B=[ 134542733, -268138827, 133597115];
Filter3_A=[ 134217728, -268138827, 133922120];
Filter4_B=[ 133541379, -264235686, 130815458];
Filter4_A=[ 134217728, -264235686, 130139109];
*/
.anc_cfg_fb_l =
{
.total_gain = 511,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FB_L,
.iir_coef[0].coef_b = {26719020, -52852829, 26204379},
.iir_coef[0].coef_a = {134217728, -210410903, 76474119},
.iir_coef[1].coef_b = {138909433, -267471808, 128584365},
.iir_coef[1].coef_a = {134217728, -267471808, 133276071},
.iir_coef[2].coef_b = {134542733, -268138827, 133597115},
.iir_coef[2].coef_a = {134217728, -268138827, 133922120},
.iir_coef[3].coef_b = {133541379, -264235686, 130815458},
.iir_coef[3].coef_a = {134217728, -264235686, 130139109},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_fb_r =
{
.total_gain = 511,
.iir_bypass_flag = 0,
.iir_counter = IIR_COUNTER_FB_R,
.iir_coef[0].coef_b = {26719020, -52852829, 26204379},
.iir_coef[0].coef_a = {134217728, -210410903, 76474119},
.iir_coef[1].coef_b = {138909433, -267471808, 128584365},
.iir_coef[1].coef_a = {134217728, -267471808, 133276071},
.iir_coef[2].coef_b = {134542733, -268138827, 133597115},
.iir_coef[2].coef_a = {134217728, -268138827, 133922120},
.iir_coef[3].coef_b = {133541379, -264235686, 130815458},
.iir_coef[3].coef_a = {134217728, -264235686, 130139109},
.iir_coef[4].coef_b = {0x8000000, 0, 0},
.iir_coef[4].coef_a = {0x8000000, 0, 0},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
/* .fir_bypass_flag=1,
.fir_len = AUD_COEF_LEN,
.fir_coef =
{
32767,
},
*/
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
#if (AUD_SECTION_STRUCT_VERSION == 2)
/*
Filter1_B=[ 19847881, -39594823, 19747071];
Filter1_A=[ 16777216, -33314517, 16538159];
Filter2_B=[ 9442890, -16603187, 7330251];
Filter2_A=[ 16777216, -16603187, -4075];
Filter3_B=[ 18107639, -32779315, 14701642];
Filter3_A=[ 16777216, -32779315, 16032065];
Filter4_B=[ 12666347, -24058210, 11437046];
Filter4_A=[ 16777216, -32089673, 15357640];
Filter5_B=[ 16466312, -31915122, 15523589];
Filter5_A=[ 16777216, -31915122, 15212684];
*/
.anc_cfg_mc_l =
{
.total_gain = 1228,
.iir_bypass_flag = 0,
.iir_counter = 5,
.iir_coef[0].coef_b = {19847881, -39594823, 19747071},
.iir_coef[0].coef_a = {16777216, -33314517, 16538159},
.iir_coef[1].coef_b = {9442890, -16603187, 7330251},
.iir_coef[1].coef_a = {16777216, -16603187, -4075},
.iir_coef[2].coef_b = {18107639, -32779315, 14701642},
.iir_coef[2].coef_a = {16777216, -32779315, 16032065},
.iir_coef[3].coef_b = {12666347, -24058210, 11437046},
.iir_coef[3].coef_a = {16777216, -32089673, 15357640},
.iir_coef[4].coef_b = {16466312, -31915122, 15523589},
.iir_coef[4].coef_a = {16777216, -31915122, 15212684},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
.anc_cfg_mc_r =
{
.total_gain = 1331,
.iir_bypass_flag = 0,
.iir_counter = 5,
.iir_coef[0].coef_b = {19847881, -39594823, 19747071},
.iir_coef[0].coef_a = {16777216, -33314517, 16538159},
.iir_coef[1].coef_b = {9442890, -16603187, 7330251},
.iir_coef[1].coef_a = {16777216, -16603187, -4075},
.iir_coef[2].coef_b = {18107639, -32779315, 14701642},
.iir_coef[2].coef_a = {16777216, -32779315, 16032065},
.iir_coef[3].coef_b = {12666347, -24058210, 11437046},
.iir_coef[3].coef_a = {16777216, -32089673, 15357640},
.iir_coef[4].coef_b = {16466312, -31915122, 15523589},
.iir_coef[4].coef_a = {16777216, -31915122, 15212684},
.iir_coef[5].coef_b = {0x8000000, 0, 0},
.iir_coef[5].coef_a = {0x8000000, 0, 0},
.dac_gain_offset = 0,
.adc_gain_offset = (0) * 4,
},
#endif
};
const struct_anc_cfg *anc_coef_list_50p7k[ANC_COEF_LIST_NUM] = {
&AncFirCoef_50p7k_mode0,
#if (ANC_COEF_LIST_NUM == 2)
&AncFirCoef_50p7k_mode0,
#endif
#if (ANC_COEF_LIST_NUM == 3)
&AncFirCoef_50p7k_mode0, &AncFirCoef_50p7k_mode0,
#endif
#if (ANC_COEF_LIST_NUM == 4)
&AncFirCoef_50p7k_mode0, &AncFirCoef_50p7k_mode0, &AncFirCoef_50p7k_mode0,
#endif
};
const struct_anc_cfg *anc_coef_list_48k[ANC_COEF_LIST_NUM] = {
&AncFirCoef_48k_mode0,
#if (ANC_COEF_LIST_NUM == 2)
&AncFirCoef_48k_mode0,
#endif
#if (ANC_COEF_LIST_NUM == 3)
&AncFirCoef_48k_mode0, &AncFirCoef_48k_mode0,
#endif
#if (ANC_COEF_LIST_NUM == 4)
&AncFirCoef_48k_mode0, &AncFirCoef_48k_mode0, &AncFirCoef_48k_mode0,
#endif
};
const struct_anc_cfg *anc_coef_list_44p1k[ANC_COEF_LIST_NUM] = {
&AncFirCoef_44p1k_mode0,
#if (ANC_COEF_LIST_NUM == 2)
&AncFirCoef_44p1k_mode0,
#endif
#if (ANC_COEF_LIST_NUM == 3)
&AncFirCoef_44p1k_mode0, &AncFirCoef_44p1k_mode0,
#endif
#if (ANC_COEF_LIST_NUM == 4)
&AncFirCoef_44p1k_mode0, &AncFirCoef_44p1k_mode0, &AncFirCoef_44p1k_mode0,
#endif
};
const IIR_CFG_T audio_eq_sw_iir_cfg = {.gain0 = 0,
.gain1 = 0,
.num = 14,
.param = {
{IIR_TYPE_PEAK, -2.18, 10, 2},
{IIR_TYPE_PEAK, 7.27, 21, 2},
{IIR_TYPE_PEAK, 2.13, 42, 2},
{IIR_TYPE_PEAK, -1.53, 83, 2},
{IIR_TYPE_PEAK, -0.9, 120, 2},
{IIR_TYPE_PEAK, -4.23, 166, 2},
{IIR_TYPE_PEAK, -1.08, 333, 2},
{IIR_TYPE_PEAK, -1.37, 577, 2},
{IIR_TYPE_PEAK, 0.8, 1000, 2},
{IIR_TYPE_PEAK, 5.35, 2000, 2},
{IIR_TYPE_PEAK, 3.2, 4000, 2},
{IIR_TYPE_PEAK, -4.96, 8000, 2},
{IIR_TYPE_PEAK, 13.58, 16000, 2},
{IIR_TYPE_PEAK, 8.89, 20000, 2},
}};
const IIR_CFG_T *const audio_eq_sw_iir_cfg_list[EQ_SW_IIR_LIST_NUM] = {
&audio_eq_sw_iir_cfg,
};
const FIR_CFG_T audio_eq_hw_fir_cfg_44p1k = {.gain = 0.0f,
.len = 384,
.coef = {
(1 << 23) - 1,
}};
const FIR_CFG_T audio_eq_hw_fir_cfg_48k = {.gain = 0.0f,
.len = 384,
.coef = {
(1 << 23) - 1,
}};
const FIR_CFG_T audio_eq_hw_fir_cfg_96k = {.gain = 0.0f,
.len = 384,
.coef = {
(1 << 23) - 1,
}};
const FIR_CFG_T *const audio_eq_hw_fir_cfg_list[EQ_HW_FIR_LIST_NUM] = {
&audio_eq_hw_fir_cfg_44p1k,
&audio_eq_hw_fir_cfg_48k,
&audio_eq_hw_fir_cfg_96k,
};
// hardware dac iir eq
const IIR_CFG_T audio_eq_hw_dac_iir_cfg = audio_eq_sw_iir_cfg;
const IIR_CFG_T *const POSSIBLY_UNUSED
audio_eq_hw_dac_iir_cfg_list[EQ_HW_DAC_IIR_LIST_NUM] = {
&audio_eq_hw_dac_iir_cfg,
};
// hardware dac iir eq
const IIR_CFG_T audio_eq_hw_adc_iir_adc_cfg = audio_eq_sw_iir_cfg;
const IIR_CFG_T *const POSSIBLY_UNUSED
audio_eq_hw_adc_iir_cfg_list[EQ_HW_ADC_IIR_LIST_NUM] = {
&audio_eq_hw_adc_iir_adc_cfg,
};
// hardware iir eq
const IIR_CFG_T audio_eq_hw_iir_cfg = audio_eq_sw_iir_cfg;
const IIR_CFG_T *const POSSIBLY_UNUSED
audio_eq_hw_iir_cfg_list[EQ_HW_IIR_LIST_NUM] = {
&audio_eq_hw_iir_cfg,
};
const DrcConfig audio_drc_cfg = {.knee = 3,
.filter_type = {14, -1},
.band_num = 2,
.look_ahead_time = 10,
.band_settings = {
{-20, 0, 2, 3, 3000, 1},
{-20, 0, 2, 3, 3000, 1},
}};
const LimiterConfig audio_drc2_cfg = {
.knee = 2,
.look_ahead_time = 10,
.threshold = -20,
.makeup_gain = 19,
.ratio = 1000,
.attack_time = 3,
.release_time = 3000,
};
const SpectrumFixConfig audio_spectrum_cfg = {
.freq_num = 9,
.freq_list = {200, 400, 600, 800, 1000, 1200, 1400, 1600, 1800},
};