esp-idf/components/efuse/esp32c3/esp_efuse_rtc_calib.c

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/*
* SPDX-FileCopyrightText: 2020-2022 Espressif Systems (Shanghai) CO LTD
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*
* SPDX-License-Identifier: Apache-2.0
*/
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#include <esp_bit_defs.h>
#include "esp_efuse.h"
#include "esp_efuse_table.h"
#include "esp_efuse_rtc_calib.h"
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int esp_efuse_rtc_calib_get_ver(void)
{
uint32_t blk_ver_major = 0;
esp_efuse_read_field_blob(ESP_EFUSE_BLK_VERSION_MAJOR, &blk_ver_major, ESP_EFUSE_BLK_VERSION_MAJOR[0]->bit_count); // IDF-5366
uint32_t cali_version = (blk_ver_major == 1) ? ESP_EFUSE_ADC_CALIB_VER : 0;
if (!cali_version) {
ESP_LOGW("eFuse", "calibration efuse version does not match, set default version: %d", 0);
}
return cali_version;
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}
uint32_t esp_efuse_rtc_calib_get_init_code(int version, uint32_t adc_unit, int atten)
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{
assert(version == ESP_EFUSE_ADC_CALIB_VER);
(void) adc_unit;
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const esp_efuse_desc_t** init_code_efuse;
assert(atten < 4);
if (atten == 0) {
init_code_efuse = ESP_EFUSE_ADC1_INIT_CODE_ATTEN0;
} else if (atten == 1) {
init_code_efuse = ESP_EFUSE_ADC1_INIT_CODE_ATTEN1;
} else if (atten == 2) {
init_code_efuse = ESP_EFUSE_ADC1_INIT_CODE_ATTEN2;
} else {
init_code_efuse = ESP_EFUSE_ADC1_INIT_CODE_ATTEN3;
}
int init_code_size = esp_efuse_get_field_size(init_code_efuse);
assert(init_code_size == 10);
uint32_t init_code = 0;
ESP_ERROR_CHECK(esp_efuse_read_field_blob(init_code_efuse, &init_code, init_code_size));
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return init_code + 1000; // version 1 logic
}
esp_err_t esp_efuse_rtc_calib_get_cal_voltage(int version, uint32_t adc_unit, int atten, uint32_t* out_digi, uint32_t* out_vol_mv)
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{
(void)adc_unit; //On esp32c3, V1 we don't have calibration data for ADC2, using the efuse data of ADC1
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const esp_efuse_desc_t** cal_vol_efuse;
uint32_t calib_vol_expected_mv;
if (version != ESP_EFUSE_ADC_CALIB_VER) {
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return ESP_ERR_INVALID_ARG;
}
if (atten >= 4) {
return ESP_ERR_INVALID_ARG;
}
if (atten == 0) {
cal_vol_efuse = ESP_EFUSE_ADC1_CAL_VOL_ATTEN0;
calib_vol_expected_mv = 400;
} else if (atten == 1) {
cal_vol_efuse = ESP_EFUSE_ADC1_CAL_VOL_ATTEN1;
calib_vol_expected_mv = 550;
} else if (atten == 2) {
cal_vol_efuse = ESP_EFUSE_ADC1_CAL_VOL_ATTEN2;
calib_vol_expected_mv = 750;
} else {
cal_vol_efuse = ESP_EFUSE_ADC1_CAL_VOL_ATTEN3;
calib_vol_expected_mv = 1370;
}
assert(cal_vol_efuse[0]->bit_count == 10);
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uint32_t cal_vol = 0;
ESP_ERROR_CHECK(esp_efuse_read_field_blob(cal_vol_efuse, &cal_vol, cal_vol_efuse[0]->bit_count));
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*out_digi = 2000 + ((cal_vol & BIT(9))? -(cal_vol & ~BIT9): cal_vol);
*out_vol_mv = calib_vol_expected_mv;
return ESP_OK;
}
esp_err_t esp_efuse_rtc_calib_get_tsens_val(float* tsens_cal)
{
uint32_t version = esp_efuse_rtc_calib_get_ver();
if (version != 1) {
*tsens_cal = 0.0;
return ESP_ERR_NOT_SUPPORTED;
}
const esp_efuse_desc_t** cal_temp_efuse;
cal_temp_efuse = ESP_EFUSE_TEMP_CALIB;
int cal_temp_size = esp_efuse_get_field_size(cal_temp_efuse);
assert(cal_temp_size == 9);
uint32_t cal_temp = 0;
esp_err_t err = esp_efuse_read_field_blob(cal_temp_efuse, &cal_temp, cal_temp_size);
assert(err == ESP_OK);
(void)err;
// BIT(8) stands for sign: 1: negtive, 0: positive
*tsens_cal = ((cal_temp & BIT(8)) != 0)? -(uint8_t)cal_temp: (uint8_t)cal_temp;
return ESP_OK;
}