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* Many example yaml tidy-ups * Update components/sensor/hlw8012.rst --------- Co-authored-by: Keith Burzinski <kbx81x@gmail.com>
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8.3 KiB
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150 lines
8.3 KiB
ReStructuredText
CS5460A Power Sensor
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====================
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.. seo::
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:description: CS5460A component configuration
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:image: cs5460a.png
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:keywords: cs5460a
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The ``cs5460a`` sensor platform allows you to use a CS5460A AC voltage, current and power meter
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chip (`datasheet <https://statics.cirrus.com/pubs/proDatasheet/CS5460A_F5.pdf>`__) with ESPHome.
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The chip is usually sold on a breakout board with a 4.096 MHz crystal. However it requires a few
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extra components, specifically a current sensing circuit and a voltage sensing circuit.
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.. figure:: ../../images/cs5460a.png
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:align: center
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:width: 30.0%
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CS5460A Single-Phase Power/Energy IC module
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.. warning::
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Do not work near live mains connections and only modify existing electrical installations if
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you're qualified.
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Configuration:
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--------------
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Your device communicates with the CS5460A over SPI so you need to have an :ref:`SPI bus <spi>` in
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your configuration with the pin numbers set for the ``MOSI``, ``MISO`` and ``CLK`` lines. These
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connect to the ``SDI``, ``SDO`` and ``SCLK`` pins on the CS5460A respectively. The ``CS``
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(chip-select) pin of the CS5460A can be driven by any GPIO you have available or wired to ground
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if the CS5460A is the only device connected to your device's SPI bus. The RESET pin can also be
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driven by a GPIO or wired to VCC.
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.. code-block:: yaml
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# Example configuration entry
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sensor:
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- platform: cs5460a
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current:
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name: "Kitchen current (RMS)"
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filters:
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delta: 0.1
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power:
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name: "Kitchen power"
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filters:
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delta: 5
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voltage:
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name: "Mains voltage (RMS)"
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filters:
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delta: 5
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samples: 1600
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current_gain: 0.01
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voltage_gain: 0.000573
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pulse_energy: 1 Wh
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cs_pin: GPIOXX
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Configuration variables:
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------------------------
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- **current** (*Optional*): The sensor subcomponent that will report RMS current values in Amperes.
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All options from :ref:`Sensor <config-sensor>`. See note below about throttling.
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- **voltage** (*Optional*): The sensor subcomponent that will report RMS voltage values in Volts.
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All options from :ref:`Sensor <config-sensor>`. See note below about throttling.
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- **power** (*Optional*): The sensor subcomponent that will report the power readings in Watts.
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All options from :ref:`Sensor <config-sensor>`. See note below about throttling.
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- **samples** (*Optional*): The number of samples that go into each reading -- determines that
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update interval of the sensors and the accuracy of the readings. This is the number N from the
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CS5460A datasheet, defined as the number of *conversion cycles* within a *computation cycle*. The
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component reports data at the end of each *computation cycle*. With the standard 4.096MHz clock
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rate, each *conversion* takes 0.25ms so setting this to 2000 means 0.5s update interval, 40000
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means 10s update interval and so on, similarly for other clock-rates. It is recommended that
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the interval be an integer number of the mains AC cycles, so for the 50 Hz AC frequency countries
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the interval should be a multiple of 20ms, for the 60 Hz countries a multiple of 16.66 ms.
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Defaults to ``4000`` (1 second at 4.096MHz). Admits values from 1 to 16777215.
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- **pga_gain** (*Optional*): If set to ``10X`` (default), the differential voltage at the current
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inputs must be between -250mV and +250mV. If set to ``50X`` it must be within -100mV to +100mV.
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- **current_gain** (*Optional*): Set this to the ratio of the differential voltage at the current
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inputs (in Volts) vs. the actual line current to be calculated (in Amperes). When using a shunt
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resistor as the current sensing element, this is going to simply equal the resistance since
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the differential voltage is the line current multiplied by the resistance. When using a current
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transformer, the value is going to be the burden resistor's value divided by the number of turns
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of the transformer winding. For a 2000 turn current transformer clamp and a 2 Ohm burden
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resistor this works out to 0.001 (the default if **current_gain** is not specified).
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- **voltage_gain** (*Optional*): Set this to the ratio of the voltage at the voltage input pins
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of CS5460A to the line voltage. When using a simple voltage divider, this is the divider's ratio.
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When using a voltage transformer this is the secondary turns to primary turns ratio. When using a
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current transformer (such as the ZMPT101B) this is equals
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``(secondary turns * burden resistor value) / (primary turns * limiting resistor value)``, and
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similarly for combinations of transfomers and voltage dividers. Defaults to ``0.001``. Must be
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a positive number.
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- **phase_offset** (*Optional*): This can be used to account for a phase offset between the voltage
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sensing circuit and the current sensing circuit to improve power measurement accuracy. Admits
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integer values between -64 to 63, which should be offset by 0.5 and multiplied by about 8.2
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CS5460A clock intervals to get the resulting time offset. With the typical 4.096 MHz clocking
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this scales to a range of -128 μs to 128 μs, or -2.3º to 2.3º phase offset at 50Hz and a -2.8º to
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2.8º phase offset at 60Hz. Defaults to ``0`` (i.e. time offset of 4.1 MCLK cycles). An easy way
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to find the correct value is to plug in a resisitve load such as an incandescent light-bulb and
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find the ``phase_offset`` value that results in the highest power reported by the sensor.
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- **pulse_energy** (*Optional*): Sets the energy (in Watt-hours) per individual pulse on the
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CS5460A's EOUT pin that can be used to driver external counters / meters or a LED. The allowed
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range depends on the gain parameters, defaults to ``10 Wh``.
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- **current_hpf** (*Optional*): Enables and disables the High-pass Filter on the current processing
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path in the CS5460A. Defaults to ``true`` (enabled).
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- **voltage_hpf** (*Optional*): Enables and disables the High-pass Filter on the voltage processing
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path in the CS5460A. Defaults to ``true`` (enabled).
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.. note:: Negative values
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Since the current and voltage values reported are the RMS values, they're absolute numbers
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and are always positive. However the power measurement is signed depending on the direction
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in which energy is being transmitted through the shunt resistor or the current transformer.
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In other words if the sensor is installed between two circuits (e.g. the power grid and a
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household) the sign informs which side is producing and which side is consuming energy in
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the last *computation cycle*. If the power values are inverted compared to what you expect
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to see, set a negative ``current_gain`` value.
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.. note:: Throttling sensors
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If ``samples`` is set to a low value, e.g. in the range of a few seconds per sample or
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shorter, consider :ref:`filtering <sensor-filters>` the measurements if you have a Home
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Assistant instance to avoid filling the logs with too much data. The ``throttle`` and
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``sliding_window_moving_average`` filters are some options. Additionally the ``delta``
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filter is almost always a good idea for all numeric sensors regardless of Home Assistant.
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.. _cs5460a-restart_action:
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``cs5460a.restart`` Action
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---------------------------------
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This action can be used in automations to interrupt the current *computation cycle* and start a
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new one. This is useful if you're measuring multiple current/power values using a single
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CS5460A chip and a signal multiplexer. As an example you can measure the power usage on up to
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wall sockets in a house by using one voltage transformer and 16 current transformers, each on
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the cable leading to the corresponding wall socket. One side of all the current transformers
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connects directly to your CS5460A current input terminal (plus any filtering and protection
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circuitry as recommended in the datasheet), while the other side each connects to one channel
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of a CD74HC4067 analog multiplexer. The multiplexer's single signal pin then connects to the
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CS5460A's second current input terminal. Every time the CS5460A sensor publishes a new power
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value, an automation can switch the multiplexer to the next channel but it needs to interrupt
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the *computation cycle* automatically started when the previous one ended, and start a new
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cycle that uses current samples only from the new CD74HC4067 multiplexer channel.
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See Also
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--------
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- :ref:`sensor-filters`
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- :apiref:`cs5460a/cs5460a.h`
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- :ghedit:`Edit`
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