Sensor Component ================ .. seo:: :description: Instructions for setting up sensor components in ESPHome. :image: folder-open.png ESPHome has support for many different sensors. Each of them is a platform of the ``sensor`` domain and each sensor has several base configuration options. .. _config-sensor: Base Sensor Configuration ------------------------- All sensors in ESPHome have a name and some other optional configuration options. By default, the sensor platform will chose appropriate values for all of these by default, but you can always override them if you want to. .. code-block:: yaml # Example sensor configuration name: Livingroom Temperature # Optional variables: unit_of_measurement: "°C" icon: "mdi:water-percent" accuracy_decimals: 1 expire_after: 30s filters: - sliding_window_moving_average: window_size: 15 send_every: 15 Configuration variables: - **name** (**Required**, string): The name for the sensor. - **unit_of_measurement** (*Optional*, string): Manually set the unit of measurement the sensor should advertise its values with. This does not actually do any maths (conversion between units). - **icon** (*Optional*, icon): Manually set the icon to use for the sensor in the frontend. - **accuracy_decimals** (*Optional*, int): Manually set the accuracy of decimals to use when reporting values. - **filters** (*Optional*): Specify filters to use for some basic transforming of values. See :ref:`Sensor Filters ` for more information. - **internal** (*Optional*, boolean): Mark this component as internal. Internal components will not be exposed to the frontend (like Home Assistant). Only specifying an ``id`` without a ``name`` will implicitly set this to true. Automations: - **on_value** (*Optional*, :ref:`Automation `): An automation to perform when a new value is published. See :ref:`sensor-on_value`. - **on_value_range** (*Optional*, :ref:`Automation `): An automation to perform when a published value transition from outside to a range to inside. See :ref:`sensor-on_value_range`. - **on_raw_value** (*Optional*, :ref:`Automation `): An automation to perform when a raw value is received that hasn't passed through any filters. See :ref:`sensor-on_raw_value`. MQTT Options: - **expire_after** (*Optional*, :ref:`config-time`): Manually set the time in which the sensor values should be marked as “expired”/“unknown”. Not providing any value means no expiry. - All other options from :ref:`MQTT Component `. .. note:: If you're trying to setup filters for a sensor that has multiple outputs - for example a DHT22 which reports temperature *and* humidity - put the ``filters`` option into each sensor output like this: .. code-block:: yaml sensor: - platform: dht # ... temperature: filters: # ... humidity: filters: # ... .. _sensor-filters: Sensor Filters -------------- ESPHome allows you to do some basic pre-processing of sensor values before they’re sent to Home Assistant. This is for example useful if you want to apply some average over the last few values. .. code-block:: yaml # Example filters: filters: - offset: 2.0 - multiply: 1.2 - filter_out: 42.0 - filter_nan: - sliding_window_moving_average: window_size: 15 send_every: 15 - exponential_moving_average: alpha: 0.1 send_every: 15 - throttle: 1s - heartbeat: 5s - debounce: 0.1s - delta: 5.0 - unique: - or: - throttle: 1s - delta: 5.0 - lambda: return x * (9.0/5.0) + 32.0; Above example configuration entry is probably a bit useless, but shows every filter there is currently: - **offset**: Add an offset to every sensor value. - **multiply**: Multiply each sensor value by this number. - **filter_out**: Remove every sensor value that equals this number. - **filter_nan**: Remove every value that is considered ``NAN`` (not a number) in C. - **sliding_window_moving_average**: A `simple moving average `__ over the last few values. - **window_size**: The number of values over which to perform an average when pushing out a value. - **send_every**: How often a sensor value should be pushed out. For example, in above configuration the weighted average is only pushed out on every 15th received sensor value. - **send_first_at**: By default, the very first raw value on boot is immediately published. With this parameter you can specify when the very first value is to be sent. Defaults to ``1``. - **exponential_moving_average**: A simple `exponential moving average `__ over the last few values. - **alpha**: The forget factor/alpha value of the filter. - **send_every**: How often a sensor value should be pushed out. - **throttle**: Throttle the incoming values. When this filter gets an incoming value, it checks if the last incoming value is at least ``specified time period`` old. If it is not older than the configured value, the value is not passed forward. - **heartbeat**: Send the last value that this sensor in the specified time interval. So a value of ``10s`` will cause the filter to output values every 10s regardless of the input values. - **debounce**: Only send values if the last incoming value is at least ``specified time period`` old. For example if two values come in at almost the same time, this filter will only output the last value and only after the specified time period has passed without any new incoming values. - **delta**: This filter stores the last value passed through this filter and only passes incoming values through if the absolute difference is greater than the configured value. For example if a value of 1.0 first comes in, it's passed on. If the delta filter is configured with a value of 5, it will now not pass on an incoming value of 2.0, only values that are at least 6.0 big or -4.0. - **unique**: This filter has no parameter and does one very simple thing: It only passes forward values if they are different from the last one that got through the pipeline. - **or**: Pass forward a value with the first child filter that returns. Above example will only pass forward values that are *either* at least 1s old or are if the absolute difference is at least 5.0. - **lambda**: Perform a simple mathematical operation over the sensor values. The input value is ``x`` and the result of the lambda is used as output. Each floating point operation should have ``.0`` attached as in above configuration. This will be copied over to the C++ code as a raw string. Example: Converting Celsius to Fahrenheit ----------------------------------------- While I personally don’t like the Fahrenheit temperature scale, I do understand that having temperature values appear in the fahrenheit unit is quite useful to some users. ESPHome uses the celsius temperature unit internally, and I’m not planning on making converting between the two simple (😉), but you can use this filter to convert celsius values to fahrenheit. .. code-block:: yaml filters: - lambda: return x * (9.0/5.0) + 32.0; unit_of_measurement: "°F" Sensor Automation ----------------- You can access the most recent state of the sensor in :ref:`lambdas ` using ``id(sensor_id).state`` and the most recent raw state using ``id(sensor_id).raw_state``. .. _sensor-on_value: ``on_value`` ************ This automation will be triggered when a new value that has passed through all filters is published. In :ref:`Lambdas ` you can get the value from the trigger with ``x``. .. code-block:: yaml sensor: - platform: dallas # ... on_value: then: - light.turn_on: id: light_1 red: !lambda "return x/255;" Configuration variables: See :ref:`Automation `. .. _sensor-on_value_range: ``on_value_range`` ****************** With this automation you can observe if a sensor value passes from outside a defined range of values to inside a range. For example you can have an automation that triggers when a humidity crosses a threshold, and then turns on a dehumidifier. This trigger will only trigger when the new value is inside the range and the previous value was outside the range. On startup, the last state before reboot is restored and if the value crossed the boundary during the boot process, the trigger is also executed. Define the range with ``above`` and ``below``. If only one of them is defined, the interval is half-open. So for example ``above: 5`` with no below would mean the range from 5 to positive infinity. .. code-block:: yaml sensor: - platform: dallas # ... on_value_range: above: 5 below: 10 then: - switch.turn_on: relay_1 Configuration variables: - **above** (*Optional*, float): The minimum for the trigger. - **below** (*Optional*, float): The maximum for the trigger. - See :ref:`Automation `. .. _sensor-on_raw_value: ``on_raw_value`` **************** This automation will be triggered when a new value that has passed through all filters is published. In :ref:`Lambdas ` you can get the value from the trigger with ``x``. .. code-block:: yaml sensor: - platform: dallas # ... on_value: then: - light.turn_on: id: light_1 red: !lambda "return x/255;" Configuration variables: See :ref:`Automation `. .. _sensor-in_range_condition: ``sensor.in_range`` Condition ***************************** This condition passes if the state of the given sensor is inside a range. Define the range with ``above`` and ``below``. If only one of them is defined, the interval is half-open. So for example ``above: 5`` with no below would mean the range from 5 to positive infinity. .. code-block:: yaml # in a trigger: on_...: if: condition: sensor.in_range: id: my_sensor above: 50.0 then: - script.execute: my_script Configuration variables: - **above** (*Optional*, float): The minimum for the condition. - **below** (*Optional*, float): The maximum for the condition. lambda calls ************ From :ref:`lambdas `, you can call several methods on all sensors to do some advanced stuff (see the full API Reference for more info). - ``publish_state()``: Manually cause the sensor to push out a value. It will then be processed by the sensor filters, and once done be published to MQTT. .. code-block:: cpp // Within lambda, push a value of 42.0 id(my_sensor).publish_state(42.0); - ``.state``: Retrieve the current value of the sensor that has passed through all sensor filters. Is ``NAN`` if no value has gotten through all filters yet. .. code-block:: cpp // For example, create a custom log message when a value is received: ESP_LOGI("main", "Value of my sensor: %f", id(my_sensor).state); - ``raw_state``: Retrieve the current value of the sensor that has not passed through any filters Is ``NAN`` if no value if no value has been pushed by the sensor itself yet. .. code-block:: cpp // For example, create a custom log message when a value is received: ESP_LOGI("main", "Raw Value of my sensor: %f", id(my_sensor).raw_state); See Also -------- - :apiref:`sensor/sensor.h` - :ghedit:`Edit` .. toctree:: :maxdepth: 1 :glob: *