Analog to Digital Converter (ADC) Calibration Driver
Introduction
Based on series of comparisons with the reference voltage, ESP32-S2 ADC determines each bit of the output digital result. Per design the ESP32-S2 ADC reference voltage is 1100 mV, however the true reference voltage can range from 1000 mV to 1200 mV among different chips. This guide will introduce an ADC calibration driver to minimize this difference.
Functional Overview
The following sections of this document cover the typical steps to install and use the ADC calibration driver:
Calibration Scheme Creation - covers how to create a calibration scheme handle and delete the calibration scheme handle.
Result Conversion - convers how to convert ADC raw result to calibrated result.
Thread Safety - lists which APIs are guaranteed to be thread safe by the driver.
Minimize Noise - describes a general way to minimize the noise.
Calibration Scheme Creation
The ADC calibration driver provides ADC calibration scheme(s). From calibration driver’s point of view, an ADC calibration scheme is created to an ADC calibration handle adc_cali_handle_t
.
adc_cali_check_scheme()
can be used to know which calibration scheme is supported on the chip. For those users who are already aware of the supported scheme, this step can be skipped. Just call the corresponding function to create the scheme handle.
For those users who use their custom ADC calibration schemes, you could either modify this function adc_cali_check_scheme()
, or just skip this step and call your custom creation function.
ADC Calibration Line Fitting Scheme
ESP32-S2 supports ADC_CALI_SCHEME_VER_LINE_FITTING
scheme. To create this scheme, set up adc_cali_line_fitting_config_t
first.
adc_cali_line_fitting_config_t::unit_id
, the ADC that your ADC raw results are from.adc_cali_line_fitting_config_t::atten
, ADC attenuation that your ADC raw results use.adc_cali_line_fitting_config_t::bitwidth
, the ADC raw result bitwidth.
After setting up the configuration structure, call adc_cali_create_scheme_line_fitting()
to create a Line Fitting calibration scheme handle.
This function may fail due to reasons such as ESP_ERR_INVALID_ARG
or ESP_ERR_NO_MEM
. Especially, when the function return ESP_ERR_NOT_SUPPORTED
, this means the calibration scheme required eFuse bits are not burnt on your board.
ESP_LOGI(TAG, "calibration scheme version is %s", "Line Fitting");
adc_cali_line_fitting_config_t cali_config = {
.unit_id = unit,
.atten = atten,
.bitwidth = ADC_BITWIDTH_DEFAULT,
};
ESP_ERROR_CHECK(adc_cali_create_scheme_line_fitting(&cali_config, &handle));
When the ADC calibration is no longer used, please delete the calibration scheme handle by calling adc_cali_delete_scheme_line_fitting()
.
Delete Line Fitting Scheme
ESP_LOGI(TAG, "delete %s calibration scheme", "Line Fitting");
ESP_ERROR_CHECK(adc_cali_delete_scheme_line_fitting(handle));
Note
For users who want to use their custom calibration schemes, you could provide a creation function to create your calibration scheme handle. Check the function table adc_cali_scheme_t in components/esp_adc/interface/adc_cali_interface.h to know the ESP ADC calibration interface.
Result Conversion
After setting up the calibration characteristics, you can call adc_cali_raw_to_voltage()
to convert the ADC raw result into calibrated result. The calibrated result is in the unit of mV. This function may fail due to invalid argument. Especailly, if this function returns ESP_ERR_INVALID_STATE
, this means the calibration scheme isn’t created. You need to create a calibration scheme handle, use adc_cali_check_scheme()
to know the supported calibration scheme. On the other hand, you could also provide a custom calibration scheme and create the handle.
Get Voltage
ESP_ERROR_CHECK(adc_cali_raw_to_voltage(adc_cali_handle, adc_raw[0][0], &voltage[0][0]));
ESP_LOGI(TAG, "ADC%d Channel[%d] Cali Voltage: %d mV", ADC_UNIT_1 + 1, EXAMPLE_ADC1_CHAN0, voltage[0][0]);
Thread Safety
The factory function esp_adc_cali_new_scheme()
is guaranteed to be thread safe by the driver. Therefore, you can call them from different RTOS tasks without protection by extra locks.
Other functions that take the adc_cali_handle_t
as the first positional parameter are not thread safe, you should avoid calling them from multiple tasks.
Minimize Noise
The ESP32-S2 ADC can be sensitive to noise leading to large discrepancies in ADC readings. Depending on the usage scenario, you may need to connect a bypass capacitor (e.g. a 100 nF ceramic capacitor) to the ADC input pad in use, to minimize noise. Besides, multisampling may also be used to further mitigate the effects of noise.
API Reference
Header File
Functions
-
esp_err_t adc_cali_check_scheme(adc_cali_scheme_ver_t *scheme_mask)
Check the supported ADC calibration scheme.
- Parameters
scheme_mask – [out] Supported ADC calibration scheme(s)
- Returns
ESP_OK: On success
ESP_ERR_INVALID_ARG: Invalid argument
ESP_ERR_NOT_SUPPORTED: No supported calibration scheme
-
esp_err_t adc_cali_raw_to_voltage(adc_cali_handle_t handle, int raw, int *voltage)
Convert ADC raw data to calibrated voltage.
- Parameters
handle – [in] ADC calibration handle
raw – [in] ADC raw data
voltage – [out] Calibrated ADC voltage (in mV)
- Returns
ESP_OK: On success
ESP_ERR_INVALID_ARG: Invalid argument
ESP_ERR_INVALID_STATE: Invalid state, scheme didn’t registered
Type Definitions
-
typedef struct adc_cali_scheme_t *adc_cali_handle_t
ADC calibration handle.