Pulse Counter Sensor ==================== .. seo:: :description: Instructions for setting up pulse counter sensors. :image: pulse.png The pulse counter sensor allows you to count the number of pulses and the frequency of a signal on any pin. On the ESP32, this sensor is even highly accurate because it's using the hardware `pulse counter peripheral `__ on the ESP32. However, due to the use of the pulse counter peripheral, a maximum of 8 channels can be used! .. figure:: images/pulse-counter.png :align: center :width: 80.0% .. code-block:: yaml # Example configuration entry sensor: - platform: pulse_counter pin: 12 name: "Pulse Counter" Configuration variables: ------------------------ - **pin** (**Required**, :ref:`config-pin`): The pin to count pulses on. - **name** (**Required**, string): The name of the sensor. - **count_mode** (*Optional*): Configure how the counter should behave on a detected rising edge/falling edge. - **rising_edge** (*Optional*): What to do when a rising edge is detected. One of ``DISABLE``, ``INCREMENT`` and ``DECREMENT``. Defaults to ``INCREMENT``. - **falling_edge** (*Optional*): What to do when a falling edge is detected. One of ``DISABLE``, ``INCREMENT`` and ``DECREMENT``. Defaults to ``DISABLE``. - **internal_filter** (*Optional*, :ref:`config-time`): If a pulse shorter than this time is detected, it’s discarded and no pulse is counted. Defaults to ``13us``. On the ESP32, this value can not be higher than ``13us``, for the ESP8266 you can use larger intervals too. If you enable this, set up the ``count_mode`` to increase on the falling edge, not leading edge. For S0 pulse meters that are used to meter power consumption 50-100 ms is a reasonable value. - **update_interval** (*Optional*, :ref:`config-time`): The interval to check the sensor. Defaults to ``60s``. - **id** (*Optional*, :ref:`config-id`): Manually specify the ID used for code generation. - **total** (*Optional*): Report the total number of pulses. - All options from :ref:`Sensor `. - All other options from :ref:`Sensor `. .. note:: See :doc:`integration sensor ` for summing up pulse counter values over time. Converting units ---------------- The sensor defaults to measuring its values using a unit of measurement of “pulses/min”. You can change this by using :ref:`sensor-filters`. For example, if you’re using the pulse counter with a photodiode to count the light pulses on a power meter, you can do the following: .. code-block:: yaml # Example configuration entry sensor: - platform: pulse_counter pin: 12 unit_of_measurement: 'kW' name: 'Power Meter House' filters: - multiply: 0.06 # (60s/1000 pulses per kWh) Counting total pulses --------------------- When the total sensor is configured, the pulse_counter also reports the total number of pulses measured. When used on a power meter, this can be used to measure the total consumed energy in kWh. .. code-block:: yaml # Example configuration entry sensor: - platform: pulse_counter pin: 12 unit_of_measurement: 'kW' name: 'Power Meter House' filters: - multiply: 0.06 # (60s/1000 pulses per kWh) total: unit_of_measurement: 'kWh' name: 'Energy Meter House' filters: - multiply: 0.001 # (1/1000 pulses per kWh) See Also -------- - :ref:`sensor-filters` - :doc:`rotary_encoder` - `esp-idf Pulse Counter API `__. - :apiref:`pulse_counter/pulse_counter_sensor.h` - :ghedit:`Edit`