esp-idf/components/esp_adc/esp32h2/curve_fitting_coefficients.c

/*
 * SPDX-FileCopyrightText: 2023 Espressif Systems (Shanghai) CO LTD
 *
 * SPDX-License-Identifier: Apache-2.0
 */

#include <stdio.h>
#include <stdint.h>
#include "esp_efuse_rtc_calib.h"
#include "../curve_fitting_coefficients.h"

#define COEFF_VERSION_NUM  1 // Currently H2 has one versions of curve calibration schemes
#define COEFF_GROUP_NUM    4
#define TERM_MAX           3

/**
 * @note Error Calculation
 * Coefficients for calculating the reading voltage error.
 * Four sets of coefficients for atten0 ~ atten3 respectively.
 *
 * For each item, first element is the Coefficient, second element is the Multiple. (Coefficient / Multiple) is the real coefficient.
 *
 * @note {0,0} stands for unused item
 * @note In case of the overflow, these coefficients are recorded as Absolute Value
 * @note For atten0 ~ 2, error = (K0 * X^0) + (K1 * X^1)
 * @note For atten3, error = (K0 * X^0) + (K1 * X^1) + (K2 * X^2)
 * @note Above formula is rewritten from the original documentation, please note that the coefficients are re-ordered.
 */
const static uint64_t adc1_error_coef_atten[COEFF_VERSION_NUM][COEFF_GROUP_NUM][TERM_MAX][2] = {
    /* Coefficients of calibration version 1 */
    {
        {{5081991760658888,     1e16}, {7858995318513,    1e19}, {0, 1}},                    //atten0
        {{8359230818901277,     1e16}, {9025419089179,    1e19}, {0, 1}},                    //atten1
        {{1165668771581976,     1e15}, {8294679249061,    1e19}, {0, 1}},                    //atten2
        {{3637329628677273,     1e16}, {19607259738935,   1e18}, {7871689227,   1e16}},      //atten3
    },
};

/**
 * Term sign
 */
const static int32_t adc1_error_sign[COEFF_VERSION_NUM][COEFF_GROUP_NUM][TERM_MAX] = {
    /* Coefficient sign of calibration version 1 */
    {
        {-1,  1,  1}, //atten0
        {-1,  1,  1}, //atten1
        {-1,  1,  1}, //atten2
        {-1, -1,  1}, //atten3
    },
};

void curve_fitting_get_second_step_coeff(const adc_cali_curve_fitting_config_t *config, cali_chars_second_step_t *ctx)
{
    uint32_t adc_calib_ver = esp_efuse_rtc_calib_get_ver();
    assert((adc_calib_ver >= ESP_EFUSE_ADC_CALIB_VER_MIN) &&
           (adc_calib_ver <= ESP_EFUSE_ADC_CALIB_VER_MAX));

    ctx->term_num = 3;
    ctx->coeff = adc1_error_coef_atten[VER2IDX(adc_calib_ver)][config->atten];
    ctx->sign = adc1_error_sign[VER2IDX(adc_calib_ver)][config->atten];
}
feat(adc_cali): Add ADC calibration support for ESP32H2 2023-10-30 00:11:17 -04:00			`/*`
			`* SPDX-FileCopyrightText: 2023 Espressif Systems (Shanghai) CO LTD`
			`*`
			`* SPDX-License-Identifier: Apache-2.0`
			`*/`

			`#include <stdio.h>`
			`#include <stdint.h>`
			`#include "esp_efuse_rtc_calib.h"`
			`#include "../curve_fitting_coefficients.h"`

			`#define COEFF_VERSION_NUM 1 // Currently H2 has one versions of curve calibration schemes`
			`#define COEFF_GROUP_NUM 4`
			`#define TERM_MAX 3`

			`/**`
			`* @note Error Calculation`
			`* Coefficients for calculating the reading voltage error.`
			`* Four sets of coefficients for atten0 ~ atten3 respectively.`
			`*`
			`* For each item, first element is the Coefficient, second element is the Multiple. (Coefficient / Multiple) is the real coefficient.`
			`*`
			`* @note {0,0} stands for unused item`
			`* @note In case of the overflow, these coefficients are recorded as Absolute Value`
			`* @note For atten0 ~ 2, error = (K0 * X^0) + (K1 * X^1)`
			`* @note For atten3, error = (K0 * X^0) + (K1 * X^1) + (K2 * X^2)`
			`* @note Above formula is rewritten from the original documentation, please note that the coefficients are re-ordered.`
			`*/`
			`const static uint64_t adc1_error_coef_atten[COEFF_VERSION_NUM][COEFF_GROUP_NUM][TERM_MAX][2] = {`
			`/* Coefficients of calibration version 1 */`
			`{`
			`{{5081991760658888, 1e16}, {7858995318513, 1e19}, {0, 1}}, //atten0`
			`{{8359230818901277, 1e16}, {9025419089179, 1e19}, {0, 1}}, //atten1`
			`{{1165668771581976, 1e15}, {8294679249061, 1e19}, {0, 1}}, //atten2`
			`{{3637329628677273, 1e16}, {19607259738935, 1e18}, {7871689227, 1e16}}, //atten3`
			`},`
			`};`

			`/**`
			`* Term sign`
			`*/`
			`const static int32_t adc1_error_sign[COEFF_VERSION_NUM][COEFF_GROUP_NUM][TERM_MAX] = {`
			`/* Coefficient sign of calibration version 1 */`
			`{`
			`{-1, 1, 1}, //atten0`
			`{-1, 1, 1}, //atten1`
			`{-1, 1, 1}, //atten2`
			`{-1, -1, 1}, //atten3`
			`},`
			`};`

			`void curve_fitting_get_second_step_coeff(const adc_cali_curve_fitting_config_t config, cali_chars_second_step_t ctx)`
			`{`
			`uint32_t adc_calib_ver = esp_efuse_rtc_calib_get_ver();`
			`assert((adc_calib_ver >= ESP_EFUSE_ADC_CALIB_VER_MIN) &&`
			`(adc_calib_ver <= ESP_EFUSE_ADC_CALIB_VER_MAX));`

			`ctx->term_num = 3;`
			`ctx->coeff = adc1_error_coef_atten[VER2IDX(adc_calib_ver)][config->atten];`
			`ctx->sign = adc1_error_sign[VER2IDX(adc_calib_ver)][config->atten];`
			`}`