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300 lines
11 KiB
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PID Climate
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===========
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.. seo::
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:description: Instructions for setting up PID climate controllers with ESPHome.
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:image: function.png
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The ``pid`` climate platform allows you to regulate a value with a
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`PID controller <https://en.wikipedia.org/wiki/PID_controller>`__.
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PID controllers are good at modulating an output signal to get a sensor reading to a specified
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setpoint. For example, it can be used to modulate the power of a heating unit to get the
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temperature to a user-specified setpoint.
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Explaining how PID controllers work in detail is out of scope of this documentation entry,
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but there's a nice article explaining the function principle `here <https://blog.opticontrols.com/archives/344>`__.
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.. code-block:: yaml
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# Example configuration entry
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climate:
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- platform: pid
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name: "PID Climate Controller"
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sensor: temperature_sensor
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default_target_temperature: 21°C
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heat_output: heater
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control_parameters:
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kp: 0.49460
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ki: 0.00487
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kd: 12.56301
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Configuration variables:
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------------------------
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- **sensor** (**Required**, :ref:`config-id`): The sensor that is used to measure the current
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temperature.
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- **default_target_temperature** (**Required**, float): The default target temperature (setpoint)
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for the control algorithm. This can be dynamically set in the frontend later.
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- **heat_output** (*Optional*, :ref:`config-id`): The ID of a :ref:`float output <config-output>`
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that increases the current temperature. At least one of ``heat_output`` and ``cool_output`` must
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be specified.
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- **cool_output** (*Optional*, :ref:`config-id`): The ID of a :ref:`float output <config-output>`
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that decreases the current temperature. At least one of ``heat_output`` and ``cool_output`` must
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be specified.
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- **control_parameters** (**Required**): Control parameters of the PID controller.
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- **kp** (**Required**, float): The factor for the proportional term of the PID controller.
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- **ki** (*Optional*, float): The factor for the integral term of the PID controller.
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Defaults to ``0``.
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- **kd** (*Optional*, float): The factor for the derivative term of the PID controller.
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Defaults to ``0``.
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- **min_integral** (*Optional*, float): The maximum value of the integral term multiplied by
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``ki`` to prevent windup. Defaults to ``-1``.
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- **max_integral** (*Optional*, float): The minimum value of the integral term multiplied by
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``ki`` to prevent windup. Defaults to ``1``.
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- All other options from :ref:`Climate <config-climate>`.
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.. _pid-setup:
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PID Controller Setup
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--------------------
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To set up a PID climate controller, you need a couple of components:
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- A :ref:`Sensor <config-sensor>` to read the current temperature (``sensor``).
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- At least one :ref:`float output <config-output>` to drive for heating or cooling (or both).
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This could for example be a PWM output via ``slow_pwm`` (TODO) that drives a heating unit.
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Please note the output *must* be controllable with continuous value (not only ON/OFF, but any state
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in between for example 50% heating power).
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.. note::
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The sensor should have a short update interval. The PID update frequency is tied to the update
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interval of the sensor. Set a short ``update_interval`` like ``1s`` on the sensor.
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.. _pid-autotune:
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Autotuning
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----------
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Finding suitable ``kp``, ``ki`` and ``kd`` control parameters for the PID controller manually
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needs some experience with PID controllers. ESPHome has an auto-tuning algorithm that automatically
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finds suitable PID parameters to start using an adaption of the Ziegler-Nichols method with
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relay autotuning (Åström and Hägglund).
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To autotune the control parameters:
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1. Set up the PID controller with all control parameters set to zero:
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.. code-block:: yaml
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climate:
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- platform: pid
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id: pid_climate
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name: "PID Climate Controller"
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sensor: temperature_sensor
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default_target_temperature: 21°C
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heat_output: heater
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control_parameters:
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kp: 0.0
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ki: 0.0
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kd: 0.0
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2. Create a :doc:`template switch </components/switch/template>` to start autotuning later:
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.. code-block:: yaml
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switch:
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- platform: template
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name: "PID Climate Autotune"
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turn_on_action:
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- climate.pid.autotune: pid_climate
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3. Compile & Upload the new firmware.
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Now you should have a climate entity called "PID Climate Controller" and a switch called
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"PID Climate Autotune" visible in your frontend of choice.
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The autotune algorithm works by repeatedly switching the heat/cool output to full power and off.
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This induced an oscillation of the observed temperature and the measured period and amplitude
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is automatically calculated.
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But this also means you **have to set the setpoint** of the climate controller to a value the
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device can reach. For example if the temperature of a room is to be controlled, the setpoint needs
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to be a bit of the ambient temperature. If the ambient temperature is 20°C, the setpoint of the
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climate device should be set to at least ~24°C so that an oscillation can be induced.
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4. Set an appropriate setpoint (see above).
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5. Click on the "PID Climate Autotune" and view the logs of the device.
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You should see output like
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.. code-block:: text
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PID Autotune:
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Autotune is still running!
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Status: Trying to reach 24.25 °C
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Stats so far:
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Phases: 4
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Detected 5 zero-crossings
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# ...
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For example, in the output above, the autotuner is driving the heating output at 100%
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and trying to reach 24.25 °C.
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This will continue for some time until data for 6 phases (or a bit more, depending on the data
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quality) have been acquired.
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6. When the PID autotuner has succeeded, output like the one below can be seen:
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.. code-block:: text
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PID Autotune:
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State: Succeeded!
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All checks passed!
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Calculated PID parameters ("Ziegler-Nichols PID" rule):
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Calculated PID parameters ("Ziegler-Nichols PID" rule):
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control_parameters:
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kp: 0.49460
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ki: 0.00487
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kd: 12.56301
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Please copy these values into your YAML configuration! They will reset on the next reboot.
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# ...
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Copy the values in ``control_parameters`` into your configuration.
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.. code-block:: yaml
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climate:
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- platform: pid
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# ...
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control_parameters:
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kp: 0.49460
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ki: 0.00487
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kd: 12.56301
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7. Complete, compile & upload the updated firmware.
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If the calculated PID parameters are not good, you can try some of the alternative parameters
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printed below the main control parameters in the log output.
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``climate.pid.autotune`` Action
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-------------------------------
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This action starts the autotune process of the PID controller.
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.. code-block:: yaml
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on_...:
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# Basic
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- climate.pid.autotune: pid_climate
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# Advanced
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- climate.pid.autotune:
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id: pid_climate
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noiseband: 0.25
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positive_output: 25%
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negative_output: -25%
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Configuration variables:
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- **id** (**Required**, :ref:`config-id`): ID of the PID Climate to start autotuning for.
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- **noiseband** (*Optional*, float): The noiseband of the process (=sensor) variable. The value
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of the PID controller must be able to reach this value. Defaults to ``0.25``.
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- **positive_output** (*Optional*, float): The positive output power to drive the heat output at.
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Defaults to ``1.0``.
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- **negative_output** (*Optional*, float): The positive output power to drive the cool output at.
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Defaults to ``-1.0``.
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``climate.pid.set_control_parameters`` Action
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---------------------------------------------
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This action sets new values for the control parameters of the PID controller. This can be
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used to manually tune the PID controller. Make sure to take update the values you want on
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the YAML file! They will reset on the next reboot.
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.. code-block:: yaml
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on_...:
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- climate.pid.set_control_parameters:
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id: pid_climate
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kp: 0.0
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ki: 0.0
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kd: 0.0
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Configuration variables:
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- **id** (**Required**, :ref:`config-id`): ID of the PID Climate to start autotuning for.
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- **kp** (**Required**, float): The factor for the proportional term of the PID controller.
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- **ki** (*Optional*, float): The factor for the integral term of the PID controller.
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Defaults to ``0``.
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- **kd** (*Optional*, float): The factor for the derivative term of the PID controller.
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Defaults to ``0``.
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``climate.pid.reset_integral_term`` Action
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------------------------------------------
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This action resets the integral term of the PID controller to 0. This might be necessary under certain
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conditions to avoid the control loop to overshoot (or undershoot) a target.
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.. code-block:: yaml
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on_...:
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# Basic
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- climate.pid.reset_integral_term: pid_climate
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Configuration variables:
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- **id** (**Required**, :ref:`config-id`): ID of the PID Climate being reset.
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``pid`` Sensor
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--------------
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Additionally, the PID climate platform provides an optional sensor platform to monitor
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the calculated PID parameters to help finding good PID values.
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.. code-block:: yaml
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sensor:
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- platform: pid
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name: "PID Climate Result"
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type: RESULT
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Configuration variables:
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- **name** (**Required**, string): The name of the sensor
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- **type** (**Required**, string): The value to monitor. One of
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- ``RESULT`` - The resulting value (sum of P, I, and D terms).
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- ``ERROR`` - The calculated error (setpoint - process_variable)
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- ``PROPORTIONAL`` - The proportional term of the PID controller.
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- ``INTEGRAL`` - The integral term of the PID controller.
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- ``DERIVATIVE`` - The derivative term of the PID controller.
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- ``HEAT`` - The resulting heating power to the supplied to the ``heat_output``.
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- ``COOL`` - The resulting cooling power to the supplied to the ``cool_output``.
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- ``KP`` - The current factor for the proportional term of the PID controller.
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- ``KI`` - The current factor for the integral term of the PID controller.
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- ``KD`` - The current factor for the differential term of the PID controller.
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Advanced options:
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- **climate_id** (*Optional*, :ref:`config-id`): The ID of the pid climate to get the values from.
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See Also
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--------
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- Ziegler-Nichols Method: Nichols, N. B. and J. G. Ziegler (1942), 'Optimum settings for automatic
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controllers', Transactions of the ASME, 64, 759-768
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- Åström, K. J. and T. Hägglund (1984a), 'Automatic tuning of simple regulators',
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Proceedings of IFAC 9th World Congress, Budapest, 1867-1872
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- :doc:`/components/climate/index`
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- :apiref:`pid/pid_climate.h`
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- :apiref:`PID Autotuner <pid/pid_autotune.h>`
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- :ghedit:`Edit`
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