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215 lines
11 KiB
ReStructuredText
215 lines
11 KiB
ReStructuredText
Analog to Digital Converter (ADC) Calibration Driver
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====================================================
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:link_to_translation:`zh_CN:[中文]`
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Introduction
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------------
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In {IDF_TARGET_NAME}, the analog-to-digital converter (ADC) compares the input analog voltage to the reference, and determines each bit of the output digital result. By design, the ADC reference voltage for {IDF_TARGET_NAME} is 1100 mV. However, the true reference voltage can range from 1000 mV to 1200 mV among different chips. This guide introduces the ADC calibration driver to minimize the effect of different reference voltages, and get more accurate output results.
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Functional Overview
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-------------------
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The following sections of this document cover the typical steps to install and use the ADC calibration driver:
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.. list::
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- :ref:`adc-calibration-scheme-creation` - covers how to create a calibration scheme handle and delete the calibration scheme handle.
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- :ref:`adc-result-conversion` - covers how to convert ADC raw result to calibrated result.
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- :ref:`adc-thread-safety` - lists which APIs are guaranteed to be thread-safe by the driver.
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- :ref:`Minimize Noise <adc-minimize-noise>` - describes a general way to minimize the noise.
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:esp32: - :ref:`adc-kconfig-options` - lists the supported Kconfig options that can be used to make a different effect on driver behavior.
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.. _adc-calibration-scheme-creation:
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Calibration Scheme Creation
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The ADC calibration driver provides ADC calibration scheme(s). From the calibration driver's point of view, an ADC calibration scheme is created for an ADC calibration handle :cpp:type:`adc_cali_handle_t`.
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:cpp:func:`adc_cali_check_scheme` can be used to know which calibration scheme is supported on the chip. If you already know the supported schemes, this step can be skipped. Just call the corresponding function to create the scheme handle.
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If you use your custom ADC calibration schemes, you could either modify this function :cpp:func:`adc_cali_check_scheme`, or just skip this step and call your custom creation function.
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.. only:: esp32 or esp32s2 or esp32c2
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ADC Calibration Line Fitting Scheme
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```````````````````````````````````
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{IDF_TARGET_NAME} supports :c:macro:`ADC_CALI_SCHEME_VER_LINE_FITTING` scheme. To create this scheme, set up :cpp:type:`adc_cali_line_fitting_config_t` first.
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- :cpp:member:`adc_cali_line_fitting_config_t::unit_id`, the ADC that your ADC raw results are from.
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- :cpp:member:`adc_cali_line_fitting_config_t::atten`, ADC attenuation that your ADC raw results use.
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- :cpp:member:`adc_cali_line_fitting_config_t::bitwidth`, bit width of ADC raw result.
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.. only:: esp32
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There is also a configuration :cpp:member:`adc_cali_line_fitting_config_t::default_vref`. Normally this can be simply set to 0. Line Fitting scheme does not rely on this value. However, if the Line Fitting scheme required eFuse bits are not burned on your board, the driver will rely on this value to do the calibration.
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You can use :cpp:func:`adc_cali_scheme_line_fitting_check_efuse` to check the eFuse bits. Normally the Line Fitting scheme eFuse value is :c:macro:`ADC_CALI_LINE_FITTING_EFUSE_VAL_EFUSE_TP` or :c:macro:`ADC_CALI_LINE_FITTING_EFUSE_VAL_EFUSE_VREF`. This means the Line Fitting scheme uses calibration parameters burned in the eFuse to do the calibration.
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When the Line Fitting scheme eFuse value is :c:macro:`ADC_CALI_LINE_FITTING_EFUSE_VAL_DEFAULT_VREF`, you need to set the :cpp:member:`esp_adc_cali_line_fitting_init::default_vref`. Default vref is an estimate of the ADC reference voltage provided as a parameter during calibration.
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After setting up the configuration structure, call :cpp:func:`adc_cali_create_scheme_line_fitting` to create a Line Fitting calibration scheme handle.
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.. only:: esp32s2
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This function may fail due to reasons such as :c:macro:`ESP_ERR_INVALID_ARG` or :c:macro:`ESP_ERR_NO_MEM`. Especially, when the function returns :c:macro:`ESP_ERR_NOT_SUPPORTED`, this means the calibration scheme required eFuse bits are not burned on your board.
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.. code:: c
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ESP_LOGI(TAG, "calibration scheme version is %s", "Line Fitting");
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adc_cali_line_fitting_config_t cali_config = {
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.unit_id = unit,
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.atten = atten,
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.bitwidth = ADC_BITWIDTH_DEFAULT,
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};
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ESP_ERROR_CHECK(adc_cali_create_scheme_line_fitting(&cali_config, &handle));
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When the ADC calibration is no longer used, please delete the calibration scheme handle by calling :cpp:func:`adc_cali_delete_scheme_line_fitting`.
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Delete Line Fitting Scheme
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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.. code:: c
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ESP_LOGI(TAG, "delete %s calibration scheme", "Line Fitting");
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ESP_ERROR_CHECK(adc_cali_delete_scheme_line_fitting(handle));
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.. only:: esp32c3 or esp32s3 or esp32c6 or esp32h2
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ADC Calibration Curve Fitting Scheme
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````````````````````````````````````
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{IDF_TARGET_NAME} supports :c:macro:`ADC_CALI_SCHEME_VER_CURVE_FITTING` scheme. To create this scheme, set up :cpp:type:`adc_cali_curve_fitting_config_t` first.
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.. only:: esp32c3 or esp32s3
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- :cpp:member:`adc_cali_curve_fitting_config_t::unit_id`, the ADC that your ADC raw results are from.
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- :cpp:member:`adc_cali_curve_fitting_config_t::chan`, this member is kept here for extensibility. The calibration scheme only differs by attenuation, there is no difference among different channels.
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- :cpp:member:`adc_cali_curve_fitting_config_t::atten`, ADC attenuation that your ADC raw results use.
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- :cpp:member:`adc_cali_curve_fitting_config_t::bitwidth`, bit width of ADC raw result.
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.. only:: esp32c6 or esp32h2
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- :cpp:member:`adc_cali_curve_fitting_config_t::unit_id`, the ADC that your ADC raw results are from.
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- :cpp:member:`adc_cali_curve_fitting_config_t::chan`, the ADC channel that your ADC raw results are from. The calibration scheme not only differs by attenuation but is also related to the channels.
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- :cpp:member:`adc_cali_curve_fitting_config_t::atten`, ADC attenuation that your ADC raw results use.
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- :cpp:member:`adc_cali_curve_fitting_config_t::bitwidth`, bit width of ADC raw result.
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After setting up the configuration structure, call :cpp:func:`adc_cali_create_scheme_curve_fitting` to create a Curve Fitting calibration scheme handle. This function may fail due to reasons such as :c:macro:`ESP_ERR_INVALID_ARG` or :c:macro:`ESP_ERR_NO_MEM`.
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ADC Calibration eFuse Related Failures
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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When the function :cpp:func:`adc_cali_create_scheme_curve_fitting` returns :c:macro:`ESP_ERR_NOT_SUPPORTED`, this means the calibration scheme required eFuse bits are not correct on your board.
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The ADC calibration scheme provided by ESP-IDF is based on the values in certain ADC calibration related on-chip eFuse bits. Espressif guarantees that these bits are burned during module manufacturing, so you don't have to burn these eFuses bits yourself.
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If you see such an error, please contact us at `Technical Inquiries <https://www.espressif.com/en/contact-us/technical-inquiries>`__ website.
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Create Curve Fitting Scheme
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~~~~~~~~~~~~~~~~~~~~~~~~~~~
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.. code:: c
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ESP_LOGI(TAG, "calibration scheme version is %s", "Curve Fitting");
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adc_cali_curve_fitting_config_t cali_config = {
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.unit_id = unit,
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.atten = atten,
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.bitwidth = ADC_BITWIDTH_DEFAULT,
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};
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ESP_ERROR_CHECK(adc_cali_create_scheme_curve_fitting(&cali_config, &handle));
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When the ADC calibration is no longer used, please delete the calibration scheme driver from the calibration handle by calling :cpp:func:`adc_cali_delete_scheme_curve_fitting`.
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Delete Curve Fitting Scheme
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~~~~~~~~~~~~~~~~~~~~~~~~~~~
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.. code:: c
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ESP_LOGI(TAG, "delete %s calibration scheme", "Curve Fitting");
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ESP_ERROR_CHECK(adc_cali_delete_scheme_curve_fitting(handle));
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.. note::
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If you want to use your 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.
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.. _adc-result-conversion:
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Result Conversion
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^^^^^^^^^^^^^^^^^
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After setting up the calibration characteristics, you can call :cpp:func:`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 an invalid argument. Especially, if this function returns :c:macro:`ESP_ERR_INVALID_STATE`, this means the calibration scheme is not created. You need to create a calibration scheme handle, use :cpp:func:`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.
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.. only:: esp32c2
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.. note::
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ADC calibration is only supported under :c:macro:`ADC_ATTEN_DB_0` and :c:macro:`ADC_ATTEN_DB_12`. Under :c:macro:`ADC_ATTEN_DB_0`, the attenuation of ADC is set to 0 dB, and input voltage higher than 950 mV is not supported. Under :c:macro:`ADC_ATTEN_DB_12`, the attenuation of ADC is set to 11 dB, and input voltage higher than 2800 mV is not supported.
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Get Voltage
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~~~~~~~~~~~
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.. code:: c
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ESP_ERROR_CHECK(adc_cali_raw_to_voltage(adc_cali_handle, adc_raw[0][0], &voltage[0][0]));
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ESP_LOGI(TAG, "ADC%d Channel[%d] Cali Voltage: %d mV", ADC_UNIT_1 + 1, EXAMPLE_ADC1_CHAN0, voltage[0][0]);
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.. _adc-thread-safety:
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Thread Safety
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^^^^^^^^^^^^^
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The factory function :cpp:func:`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.
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Other functions that take the :cpp:type:`adc_cali_handle_t` as the first positional parameter are not thread-safe, you should avoid calling them from multiple tasks.
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.. only:: esp32
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.. _adc-kconfig-options:
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Kconfig Options
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^^^^^^^^^^^^^^^
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- :ref:`CONFIG_ADC_CAL_EFUSE_TP_ENABLE` - disable this to decrease the code size, if the calibration eFuse value is not set to :cpp:type:`ADC_CALI_LINE_FITTING_EFUSE_VAL_EFUSE_TP`.
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- :ref:`CONFIG_ADC_CAL_EFUSE_VREF_ENABLE` - disable this to decrease the code size, if the calibration eFuse value is not set to :cpp:type:`ADC_CALI_LINE_FITTING_EFUSE_VAL_EFUSE_VREF`.
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- :ref:`CONFIG_ADC_CAL_LUT_ENABLE` - disable this to decrease the code size, if you do not calibrate the ADC raw results under :c:macro:`ADC_ATTEN_DB_12`.
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.. _adc-minimize-noise:
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Minimize Noise
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^^^^^^^^^^^^^^
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The {IDF_TARGET_NAME} ADC is 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.
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.. only:: esp32
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.. figure:: ../../../_static/diagrams/adc/adc-noise-graph.jpg
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:align: center
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:alt: ADC noise mitigation
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Graph illustrating noise mitigation using capacitor and multisampling of 64 samples.
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API Reference
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-------------
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.. include-build-file:: inc/adc_cali.inc
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.. include-build-file:: inc/adc_cali_scheme.inc
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