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clk_tree.rst

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Clock Tree

:link_to_translation:`zh_CN:[中文]`

{IDF_TARGET_RC_FAST_VAGUE_FREQ: default="8", esp32c3="17.5", esp32s3="17.5", esp32c2="17.5", esp32c6="17.5"}

{IDF_TARGET_RC_FAST_ADJUSTED_FREQ: default="8.5", esp32c3="17.5", esp32s3="17.5", esp32c2="17.5", esp32c6="17.5"}

{IDF_TARGET_XTAL_FREQ: default="40", esp32="2 ~ 40", esp32c2="40/26", esp32h2="32"}

{IDF_TARGET_RC_SLOW_VAGUE_FREQ: default="136", esp32="150", esp32s2="90"}

{IDF_TARGET_RC_SLOW_CLK: default="GPIO0", esp32c2="pin0 (when its frequency is no more than 136 kHz)", "esp32c6="GPIO0", esp32h2="GPIO13"}

The clock subsystem of {IDF_TARGET_NAME} is used to source and distribute system/module clocks from a range of root clocks. The clock tree driver maintains the basic functionality of the system clock and the intricate relationship among module clocks.

This document starts with the introduction to root and module clocks. Then it covers the clock tree APIs that can be called to monitor the status of the module clocks at runtime.

Introduction

This section lists definitions of {IDF_TARGET_NAME}'s supported root clocks and module clocks. These definitions are commonly used in the driver configuration, to help select a proper source clock for the peripheral.

Root Clocks

Root clocks generate reliable clock signals. These clock signals then pass through various gates, muxes, dividers, or multipliers to become the clock sources for every functional module: the CPU core(s), Wi-Fi, Bluetooth, the RTC, and the peripherals.

{IDF_TARGET_NAME}'s root clocks are listed in :cpp:type:`soc_root_clk_t`:

.. list::

    - Internal {IDF_TARGET_RC_FAST_VAGUE_FREQ} MHz RC Oscillator (RC_FAST)

        This RC oscillator generates a about {IDF_TARGET_RC_FAST_ADJUSTED_FREQ} MHz clock signal output as the ``RC_FAST_CLK``.

        .. only:: SOC_CLK_RC_FAST_D256_SUPPORTED

            The about {IDF_TARGET_RC_FAST_ADJUSTED_FREQ} MHz signal output is also passed into a configurable divider, which by default divides the input clock frequency by 256, to generate a ``RC_FAST_D256_CLK``.

            The exact frequency of ``RC_FAST_CLK`` can be computed in runtime through calibration on the ``RC_FAST_D256_CLK``.

        .. only:: not SOC_CLK_RC_FAST_D256_SUPPORTED and SOC_CLK_RC_FAST_SUPPORT_CALIBRATION

            The exact frequency of ``RC_FAST_CLK`` can be computed in runtime through calibration.

        .. only:: not SOC_CLK_RC_FAST_SUPPORT_CALIBRATION

            The exact frequency of ``RC_FAST_CLK`` cannot be computed in runtime through calibration, but it is still possible to get its frequency through an oscilloscope or a logic analyzer by routing the clock signal to a GPIO pin.

    - External {IDF_TARGET_XTAL_FREQ} MHz Crystal (XTAL)

    - Internal {IDF_TARGET_RC_SLOW_VAGUE_FREQ} kHz RC Oscillator (RC_SLOW)

        This RC oscillator generates a about {IDF_TARGET_RC_SLOW_VAGUE_FREQ}kHz clock signal output as the ``RC_SLOW_CLK``. The exact frequency of this clock can be computed in runtime through calibration.

    .. only:: SOC_CLK_XTAL32K_SUPPORTED

        - External 32 kHz Crystal - optional (XTAL32K)

            .. only:: esp32

                The clock source for this ``XTAL32K_CLK`` can be either a 32 kHz crystal connecting to the ``32K_XP`` and ``32K_XN`` pins or a 32 kHz clock signal generated by an external circuit. The external signal must be connected to the ``32K_XN`` pin. Additionally, a 1 nF capacitor must be placed between the ``32K_XP`` pin and ground. In this case, the ``32K_XP`` pin cannot be used as a GPIO pin.

            .. only:: not esp32

                 The clock source for this ``XTAL32K_CLK`` can be either a 32 kHz crystal connecting to the ``XTAL_32K_P`` and ``XTAL_32K_N`` pins or a 32 kHz clock signal generated by an external circuit. The external signal must be connected to the ``XTAL_32K_P`` pin.

            ``XTAL32K_CLK`` can also be calibrated to get its exact frequency.

    .. only:: SOC_CLK_OSC_SLOW_SUPPORTED

        - External Slow Clock - optional (OSC_SLOW)

            A clock signal generated by an external circuit can be connected to {IDF_TARGET_RC_SLOW_CLK} to be the clock source for the ``RTC_SLOW_CLK``. This clock can also be calibrated to get its exact frequency.

    .. only:: SOC_CLK_RC32K_SUPPORTED

        - Internal 32 kHz RC Oscillator (RC32K)

            The exact frequency of this clock can be computed in runtime through calibration.

Typically, the frequency of the signal generated from an RC oscillator circuit is less accurate and more sensitive to the environment compared to the signal generated from a crystal. {IDF_TARGET_NAME} provides several clock source options for the RTC_SLOW_CLK, and it is possible to make the choice based on the requirements for system time accuracy and power consumption. For more details, please refer to :ref:`rtc-clock-source-choice`.

Module Clocks

{IDF_TARGET_NAME}'s available module clocks are listed in :cpp:type:`soc_module_clk_t`. Each module clock has a unique ID. You can get more information on each clock by checking the documented enum value.

API Usage

The clock tree driver provides an all-in-one API to get the frequency of the module clocks, :cpp:func:`esp_clk_tree_src_get_freq_hz`. This function allows you to obtain the clock frequency at any time by providing the clock name :cpp:enum:`soc_module_clk_t` and specifying the desired precision level for the returned frequency value :cpp:enum:`esp_clk_tree_src_freq_precision_t`.

API Reference

.. include-build-file:: inc/clk_tree_defs.inc
.. include-build-file:: inc/esp_clk_tree.inc