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267 lines
11 KiB
ReStructuredText
267 lines
11 KiB
ReStructuredText
.. _uart:
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UART Bus
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========
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.. seo::
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:description: Instructions for setting up a UART serial bus on ESPs
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:image: uart.svg
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:keywords: UART, serial bus
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UART is a common serial protocol for a lot of devices. For example, when uploading a binary to your ESP
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you have probably used UART to access the chip. UART (or for Arduino often also called Serial) usually
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consists of 2 pins:
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- **TX**: This line is used to send data to the device at the other end.
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- **RX**: This line is used to receive data from the device at the other end.
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Please note that the naming of these two pins depends on the chosen perspective and can be ambiguous. For example,
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while the ESP might send (``TX``) on pin A and receive (``RX``) data on pin B, from the other device's
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perspective these two pins are switched (i.e. *it* sends on pin B and receives on pin A). So you might
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need to try with the two pins switched if it doesn't work immediately.
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Additionally, each UART bus can operate at different speeds (baud rates), so ESPHome needs to know what speed to
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receive/send data at using the ``baud_rate`` option. The most common baud rates are 9600 and 115200.
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In some cases only **TX** or **RX** exists as the device at the other end only accepts data or sends data.
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.. note::
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On the ESP32, this component uses the hardware UART units and is thus very accurate. On the ESP8266 however,
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ESPHome has to use a software implementation as there are no other hardware UART units available other than the
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ones used for logging. Therefore the UART data on the ESP8266 can have occasional data glitches especially with
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higher baud rates.
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.. note::
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From ESPHome 2021.8 the ``ESP8266SoftwareSerial`` UART ``write_byte`` function had the parity bit fixed to be correct
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for the data being sent. This could cause unexpected issues if you are using the Software UART and have devices that
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explicity check the parity. Most likely you will need to flip the ``parity`` flag in YAML.
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.. code-block:: yaml
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# Example configuration entry
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uart:
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tx_pin: 1
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rx_pin: 3
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baud_rate: 9600
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Configuration variables:
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------------------------
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- **baud_rate** (**Required**, int): The baud rate of the UART bus.
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- **tx_pin** (*Optional*, :ref:`config-pin`): The pin to send data to from the ESP's perspective. Use the full pin schema and set ``inverted: true`` to invert logic levels.
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- **rx_pin** (*Optional*, :ref:`config-pin`): The pin to receive data on from the ESP's perspective. Use the full pin schema and set ``inverted: true`` to invert logic levels.
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- **rx_buffer_size** (*Optional*, int): The size of the buffer used for receiving UART messages. Increase if you use an integration that needs to read big payloads from UART. Defaults to ``256``.
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- **data_bits** (*Optional*, int): The number of data bits used on the UART bus. Options: 5 to 8. Defaults to 8.
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- **parity** (*Optional*): The parity used on the UART bus. Options: ``NONE``, ``EVEN``, ``ODD``. Defaults to ``NONE``.
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- **stop_bits** (*Optional*, int): The number of stop bits to send. Options: 1, 2. Defaults to 1.
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- **id** (*Optional*, :ref:`config-id`): Manually specify the ID for this UART hub if you need multiple UART hubs.
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- **debug** (*Optional*, mapping): Options for debugging communication on the UART hub, see :ref:`uart-debugging`.
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.. _uart-hardware_uarts:
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Hardware UARTs
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--------------
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Whenever possible, ESPHome will use the hardware UART unit on the ESP8266 for fast and accurate communication.
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When the hardware UARTs are all occupied, ESPHome will fall back to a software implementation that may not
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be accurate at higher baud rates.
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``UART0`` is (by default) used by the :doc:`logger component </components/logger>`, using ``tx_pin: GPIO1`` and
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``rx_pin: GPIO3``. If you configure a UART that overlaps with these pins, you can share the hardware with the
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logger and leave others available. If you have configured the logger to use a different hardware UART, the pins
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used for hardware sharing change accordingly.
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The ESP32 has three UARTs. ESP32 lite variant chips (ESP32-S3, ESP32-C3, ESP32-S2, etc) may have fewer UARTs (usually two). Any pair of GPIO pins can be used, as long as they support the proper output/input modes.
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The ESP8266 has two UARTs; the second of which is TX-only. Only a limited set of pins can be used. ``UART0`` may
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use either ``tx_pin: GPIO1`` and ``rx_pin: GPIO3``, or ``tx_pin: GPIO15`` and ``rx_pin: GPIO13``. ``UART1`` must
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use ``tx_pin: GPIO2``. Any other combination of pins will result in use of a software UART.
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.. note::
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The Software UART is only available on the ESP8266. It is not available on ESP32 and variants.
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.. _uart-write_action:
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``uart.write`` Action
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---------------------
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This :ref:`Action <config-action>` sends a defined UART signal to the given UART bus.
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.. code-block:: yaml
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on_...:
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- uart.write: 'Hello World'
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# For escape characters, you must use double quotes!
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- uart.write: "Hello World\r\n"
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# Raw data
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- uart.write: [0x00, 0x20, 0x42]
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# Templated, return type is std::vector<uint8_t>
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- uart.write: !lambda
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return {0x00, 0x20, 0x42};
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# in case you need to specify the uart id
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- uart.write:
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id: my_second_uart
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data: 'other data'
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.. _uart-debugging:
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Debugging
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---------
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If you need insight in the communication that is being sent and/or received over a UART bus, then you can make use
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of the debugging feature.
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.. code-block:: yaml
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# Example configuration entry
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uart:
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baud_rate: 115200
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debug:
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direction: BOTH
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dummy_receiver: false
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after:
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delimiter: "\n"
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sequence:
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- lambda: UARTDebug::log_string(direction, bytes);
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# Minimal configuration example, logs hex strings by default
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uart:
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baud_rate: 9600
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debug:
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- **direction** (*Optional*, enum): The direction of communication to debug, one of: "RX" (receive, incoming),
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"TX" (send, outgoing) or "BOTH". Defaults to "BOTH".
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- **dummy_receiver** (*Optional*, boolean): Whether or not to enable the dummy receiver feature. The debugger
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will only accumulate bytes that are actually read or sent by a UART device component. This feature is
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useful when you want to debug all incoming communication, while no UART device component is configured
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for the UART bus (yet). This is especially useful for developers. Normally you'd want to leave this
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option disabled. Defaults to false.
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- **after** (*Optional*, mapping): The debugger accumulates bytes of communication. This option defines when
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to trigger publishing the accumulated bytes. The possible options are:
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- **bytes** (*Optional*, int): Trigger after accumulating the specified number of bytes. Defaults to 150.
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- **timeout** (*Optional*, :ref:`config-time`): Trigger after no communication has been seen during the
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specified timeout, while one or more bytes have been accumulated. Defaults to 100ms.
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- **delimiter** (*Optional*, string or list of bytes): Trigger after the specified sequence of bytes is
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detected in the communication.
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- **sequence** (*Optional*, :ref:`Action <config-action>`): Action(s) to perform for publishing debugging data.
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Defaults to an action that logs the bytes in hex format. The actions can make use of the following variables:
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- **direction**: ``uart::UART_DIRECTION_RX`` or ``uart::UART_DIRECTION_TX``
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- **bytes**: ``std::vector<uint8_t>`` containing the accumulated bytes
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**Helper functions for logging**
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Helper functions are provided to make logging of debug data in various formats easy:
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- **UARTDebug::log_hex(direction, bytes, char separator)** Log the bytes as hex values, separated by the provided
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separator character.
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- **UARTDebug::log_string(direction, bytes)** Log the bytes as string values, escaping unprintable characters.
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- **UARTDebug::log_int(direction, bytes, char separator)** Log the bytes as integer values, separated by the provided
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separator character.
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- **UARTDebug::log_binary(direction, bytes, char separator)** Log the bytes as ``<binary> (<hex>)`` values,
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separated by the provided separator character.
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**Logger buffer size**
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Beware that the ``logger`` component uses a limited buffer size of 512 bytes by default. If the UART
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debugger log lines become too long, then you will notice that they end up truncated in the log output.
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In that case, either make sure that the debugger outputs less data per log line (e.g. by setting the
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``after.bytes`` option to a lower value) or increase the logger buffer size using the logger
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``tx_buffer_size`` option.
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.. _uart-runtime_change:
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Changing at runtime
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-------------------
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There are scenarios where you might need to adjust UART parameters during runtime to enhance communication efficiency
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and adapt to varying operational conditions. ESPHome facilitates this through lambda calls.
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Below are the methods to read current settings and modify them dynamically:
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- **Reading Current Settings:** Access UART's current configuration using these read-only attributes:
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.. code-block:: cpp
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// RX buffer size
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id(my_uart).get_rx_buffer_size();
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// Stop bits
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id(my_uart).get_stop_bits();
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// Data bits
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id(my_uart).get_data_bits();
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// Parity
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id(my_uart).get_parity();
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// Baud rate
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id(my_uart).get_baud_rate();
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- **Modifying Settings at Runtime:** You can change certain UART parameters during runtime.
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After setting new values, invoke ``load_settings()`` (ESP only) to apply these changes:
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.. code-block:: yaml
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select:
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- id: change_baud_rate
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name: Baud rate
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platform: template
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options:
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- "2400"
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- "9600"
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- "38400"
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- "57600"
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- "115200"
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- "256000"
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- "512000"
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- "921600"
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initial_option: "115200"
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optimistic: true
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restore_value: True
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internal: false
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entity_category: config
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icon: mdi:swap-horizontal
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set_action:
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- lambda: |-
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id(my_uart).flush();
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uint32_t new_baud_rate = stoi(x);
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ESP_LOGD("change_baud_rate", "Changing baud rate from %i to %i",id(my_uart).get_baud_rate(), new_baud_rate);
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if (id(my_uart).get_baud_rate() != new_baud_rate) {
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id(my_uart).set_baud_rate(new_baud_rate);
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id(my_uart).load_settings();
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}
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Available methods for runtime changes:
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.. code-block:: cpp
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// Set TX/RX pins
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id(my_uart).set_tx_pin(InternalGPIOPin *tx_pin);
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id(my_uart).set_rx_pin(InternalGPIOPin *rx_pin);
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// RX buffer size
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id(my_uart).set_rx_buffer_size(size_t rx_buffer_size);
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// Stop bits
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id(my_uart).set_stop_bits(uint8_t stop_bits);
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// Data bits
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id(my_uart).set_data_bits(uint8_t data_bits);
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// Parity
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id(my_uart).set_parity(UARTParityOptions parity);
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// Baud rate
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id(my_uart).set_baud_rate(uint32_t baud_rate);
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This flexibility allows for dynamic adaptation to different communication requirements, enhancing the versatility of your ESPHome setup.
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See Also
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--------
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- :doc:`/components/logger`
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- :apiref:`uart/uart.h`
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- :ghedit:`Edit`
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