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Servo Component
===============
.. seo ::
:description: Instructions for setting up servos in ESPHome
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:image: servo.svg
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The `` servo `` component allows you to use servo motors with ESPHome. Servos are
motor controllers that contain all the electronics necessary for driving the motor and provide
a simple PWM interface to control the motor.
This integration works with both continuous-rotation and absolute servos and has a similar
interface to the Arduino Servo library.
First, create an :ref: `output component <output>` (here `` esp8266_pwm `` ) for the pin the
servo is connected to. Then connect that output to the servo component by assigning an ID.
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Please note the frequency of the output should be around 50Hz, as most servo controllers
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only operate in this frequency range.
.. note ::
This component will not show up in the Home Assistant front-end automatically because
Home Assistant doesn't have support for servos. Please see :ref: `servo-ha-config` .
.. code-block :: yaml
# Example configuration entry
servo:
- id: my_servo
output: pwm_output
# Example output platform
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# On ESP32, use ledc output
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output:
- platform: esp8266_pwm
id: pwm_output
pin: D1
frequency: 50 Hz
Configuration variables:
------------------------
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- **output** (**Required** , :ref: `config-id` ): The ID of the :doc: `output component </components/output/index>`
to use for this servo.
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- **id** (**Required** , :ref: `config-id` ): The ID of this servo so that it can be controlled.
Advanced Options:
- **min_level** (*Optional* , percentage): The PWM duty cycle the minimum value (-100%) will map
to. Defaults to `` 3% `` .
- **idle_level** (*Optional* , percentage): The PWM duty cycle the idle value (0%) will map
to. This is also the state of the servo at startup. Defaults to `` 7.5% `` .
- **max_level** (*Optional* , percentage): The PWM duty cycle the maximum value (100%) will map
to. Defaults to `` 12.0% `` .
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- **restore** (*Optional* , boolean): Whether to restore the state of the servo motor at startup.
This is useful if you have an absolute servo motor and it goes back to its 0 position at startup.
Defaults to `` false `` .
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- **auto_detach_time** (*Optional* , :ref: `config-time` ): The time after reaching the target value when the servo will be detached`, if set to zero, servo will not be detached. Defaults to ` `0s` `.
- **transition_length** (*Optional* , :ref: `config-time` ): The time needed for a full movement (-1.0 to 1.0). This will effectively limit the speed of the servo, the larger the value, the slowest the servo will move. Defaults to `` 0s ``
This can slow down the servo to avoid loud noises or just make the movement not jerking.
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.. note ::
Some servos support a larger range for the level. For continuous rotation servos
this can speed them up a bit and for absolute servos this can extend their angle range.
You can configure the `` min_level `` and `` max_level `` options to adjust the level range
to match your servo (Experiment with these values).
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.. _servo-write_action:
`` servo.write `` Action
----------------------
To use your servo motor in :ref: `automations <automation>` or templates, you can use this action to set the
target level of the servo from -100% to 100%.
- -100% (= -1.0) is the minimum value of the servo. For continuous-rotation servos this will
rotate the servo backward.
- 0% (= 0.0) is the idle level of the servo. For continuous-rotation servos this will
stop the servo.
- 100% (= 1.0) is the maximum value of the servo. For continuous-rotation servos this will
rotate the servo forward.
.. code-block :: yaml
on_...:
then:
- servo.write:
id: my_servo
level: -100.0%
# Templated
- servo.write:
id: my_servo
# For template values, range is [-1; 1]
level: !lambda |-
if (id(my_binary_sensor).state) {
return 1.0;
} else {
return -1.0;
}
Configuration options:
- **id** (**Required** , :ref: `config-id` ): The ID of the servo.
- **level** (*Optional* , percentage, :ref: `templatable <config-templatable>` ): The target level.
Range is from -100% to 100% (-1.0 to 1.0).
.. note ::
This action can also be expressed as a :ref: `lambda <config-lambda>` :
.. code-block :: cpp
id(my_servo).write(1.0);
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.. _servo-detach_action:
`` servo.detach `` Action
-----------------------
This :ref: `Action <config-action>` allows you to disable the output on a servo motor -
this will make the servo motor stop immediately and disable its active control.
.. code-block :: yaml
on_...:
then:
- servo.detach: my_servo
.. note ::
This action can also be expressed as a :ref: `lambda <config-lambda>` :
.. code-block :: cpp
id(my_servo).detach();
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.. _servo-ha-config:
Home Assistant Configuration
----------------------------
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The easiest way to control your servo from Home Assistant is to add a `` number `` to your ESPHome
configuration. See :ref: `Number <config-number>` for more information.
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.. code-block :: yaml
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number:
- platform: template
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name: Servo Control
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min_value: -100
max_value: 100
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step: 1
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set_action:
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then:
- servo.write:
id: my_servo
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level: !lambda 'return x / 100.0;'
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servo:
- platform: ...
# [...] servo config
id: my_servo
See Also
--------
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- :apiref: `servo/servo.h`
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- :ghedit: `Edit`