esp-idf/components/hal/adc_hal_common.c

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/*
* SPDX-FileCopyrightText: 2019-2021 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <sys/param.h>
#include "sdkconfig.h"
#include "soc/soc_caps.h"
#include "hal/adc_hal_common.h"
#include "hal/adc_ll.h"
#include "hal/assert.h"
/*---------------------------------------------------------------
Controller Setting
---------------------------------------------------------------*/
static adc_ll_controller_t get_controller(adc_unit_t unit, adc_hal_work_mode_t work_mode)
{
if (unit == ADC_UNIT_1) {
switch (work_mode) {
#if SOC_ULP_SUPPORTED
case ADC_HAL_ULP_FSM_MODE:
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return ADC_LL_CTRL_ULP;
#endif
case ADC_HAL_SINGLE_READ_MODE:
#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
return ADC_LL_CTRL_DIG;
#elif SOC_ADC_RTC_CTRL_SUPPORTED
return ADC_LL_CTRL_RTC;
#endif
case ADC_HAL_CONTINUOUS_READ_MODE:
return ADC_LL_CTRL_DIG;
default:
abort();
}
} else {
switch (work_mode) {
#if SOC_ULP_SUPPORTED
case ADC_HAL_ULP_FSM_MODE:
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return ADC_LL_CTRL_ULP;
#endif
#if !SOC_ADC_ARBITER_SUPPORTED //No ADC2 arbiter on ESP32
#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
default:
return ADC_LL_CTRL_DIG;
#else
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case ADC_HAL_SINGLE_READ_MODE:
return ADC_LL_CTRL_RTC;
case ADC_HAL_CONTINUOUS_READ_MODE:
return ADC_LL_CTRL_DIG;
case ADC_HAL_PWDET_MODE:
return ADC_LL_CTRL_PWDET;
default:
abort();
#endif //#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
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#else
default:
return ADC_LL_CTRL_ARB;
#endif
}
}
}
void adc_hal_set_controller(adc_unit_t unit, adc_hal_work_mode_t work_mode)
{
adc_ll_controller_t ctrlr = get_controller(unit, work_mode);
adc_ll_set_controller(unit, ctrlr);
}
/*---------------------------------------------------------------
Arbiter
---------------------------------------------------------------*/
#if SOC_ADC_ARBITER_SUPPORTED
void adc_hal_arbiter_config(adc_arbiter_t *config)
{
adc_ll_set_arbiter_work_mode(config->mode);
adc_ll_set_arbiter_priority(config->rtc_pri, config->dig_pri, config->pwdet_pri);
}
#endif // #if SOC_ADC_ARBITER_SUPPORTED
/*---------------------------------------------------------------
ADC calibration setting
---------------------------------------------------------------*/
#if SOC_ADC_CALIBRATION_V1_SUPPORTED
//For chips without RTC controller, Digital controller is used to trigger an ADC single read.
#include "esp_rom_sys.h"
void adc_hal_calibration_init(adc_unit_t adc_n)
{
adc_ll_calibration_init(adc_n);
}
static uint32_t s_previous_init_code[SOC_ADC_PERIPH_NUM] = {
[0 ... (SOC_ADC_PERIPH_NUM - 1)] = -1,
};
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void adc_hal_set_calibration_param(adc_unit_t adc_n, uint32_t param)
{
if (param != s_previous_init_code[adc_n]) {
adc_ll_set_calibration_param(adc_n, param);
s_previous_init_code[adc_n] = param;
}
}
static void cal_setup(adc_unit_t adc_n, adc_atten_t atten)
{
adc_hal_set_controller(adc_n, ADC_HAL_SINGLE_READ_MODE);
adc_oneshot_ll_disable_all_unit();
// Enableinternal connect GND (for calibration).
adc_oneshot_ll_disable_channel(adc_n);
/**
* Note:
* When controlled by RTC controller, when all channels are disabled, HW auto selects channel0 atten param.
* When controlled by DIG controller, unit and channel are not related to attenuation
*/
adc_oneshot_ll_set_atten(adc_n, 0, atten);
adc_oneshot_ll_enable(adc_n);
}
static uint32_t read_cal_channel(adc_unit_t adc_n)
{
uint32_t event = (adc_n == ADC_UNIT_1) ? ADC_LL_EVENT_ADC1_ONESHOT_DONE : ADC_LL_EVENT_ADC2_ONESHOT_DONE;
adc_oneshot_ll_clear_event(event);
#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
adc_oneshot_ll_start(false);
esp_rom_delay_us(5);
adc_oneshot_ll_start(true);
#else
adc_oneshot_ll_start(adc_n);
#endif
while(!adc_oneshot_ll_get_event(event));
uint32_t read_val = -1;
read_val = adc_oneshot_ll_get_raw_result(adc_n);
if (adc_oneshot_ll_raw_check_valid(adc_n, read_val) == false) {
return -1;
}
return read_val;
}
#define ADC_HAL_CAL_TIMES (10)
#define ADC_HAL_CAL_OFFSET_RANGE (4096)
uint32_t adc_hal_self_calibration(adc_unit_t adc_n, adc_atten_t atten, bool internal_gnd)
{
#if SOC_ADC_ARBITER_SUPPORTED
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if (adc_n == ADC_UNIT_2) {
adc_arbiter_t config = ADC_ARBITER_CONFIG_DEFAULT();
adc_hal_arbiter_config(&config);
}
#endif // #if SOC_ADC_ARBITER_SUPPORTED
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cal_setup(adc_n, atten);
adc_ll_calibration_prepare(adc_n, internal_gnd);
uint32_t code_list[ADC_HAL_CAL_TIMES] = {0};
uint32_t code_sum = 0;
uint32_t code_h = 0;
uint32_t code_l = 0;
uint32_t chk_code = 0;
for (uint8_t rpt = 0 ; rpt < ADC_HAL_CAL_TIMES ; rpt ++) {
code_h = ADC_HAL_CAL_OFFSET_RANGE;
code_l = 0;
chk_code = (code_h + code_l) / 2;
adc_ll_set_calibration_param(adc_n, chk_code);
uint32_t self_cal = read_cal_channel(adc_n);
while (code_h - code_l > 1) {
if (self_cal == 0) {
code_h = chk_code;
} else {
code_l = chk_code;
}
chk_code = (code_h + code_l) / 2;
adc_ll_set_calibration_param(adc_n, chk_code);
self_cal = read_cal_channel(adc_n);
if ((code_h - code_l == 1)) {
chk_code += 1;
adc_ll_set_calibration_param(adc_n, chk_code);
self_cal = read_cal_channel(adc_n);
}
}
code_list[rpt] = chk_code;
code_sum += chk_code;
}
code_l = code_list[0];
code_h = code_list[0];
for (uint8_t i = 0 ; i < ADC_HAL_CAL_TIMES ; i++) {
code_l = MIN(code_l, code_list[i]);
code_h = MAX(code_h, code_list[i]);
}
chk_code = code_h + code_l;
uint32_t ret = ((code_sum - chk_code) % (ADC_HAL_CAL_TIMES - 2) < 4)
? (code_sum - chk_code) / (ADC_HAL_CAL_TIMES - 2)
: (code_sum - chk_code) / (ADC_HAL_CAL_TIMES - 2) + 1;
adc_ll_calibration_finish(adc_n);
return ret;
return 0;
}
#endif //SOC_ADC_CALIBRATION_V1_SUPPORTED