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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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ReStructuredText
279 lines
13 KiB
ReStructuredText
HLW8012 Power Sensor
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====================
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.. seo::
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:description: Instructions for setting up HLW8012 power sensors for the Sonoff Pow R1
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:image: hlw8012.svg
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:keywords: HLW8012, CSE7759, BL0937, Sonoff Pow R1
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The ``hlw8012`` sensor platform allows you to use your HLW8012 voltage/current and power sensors
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(`datasheet <https://github.com/xoseperez/hlw8012/blob/master/docs/HLW8012.pdf>`__) sensors with
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ESPHome. This sensor is commonly found in Sonoff POWs. CSE7759 and BL0937 are similar to HLW8012
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and work with this component. Beware that CSE7759B is different and should be used with the
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:doc:`CSE7766 <cse7766>` component.
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.. note::
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SAFETY HAZARD: Some devices such as Sonoff POWs/Shelly/etc, have the digital GND connected directly to mains
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voltage so **the GPIOs become LIVE during normal operation**. Our advice is to mark these boards to prevent
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any use of the dangerous digital pins.
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This sensor has two data outputs which both encode values using the frequency of a modulated signal: CF and CF1.
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CF's frequency is proportional to the (active) power measured and CF1 is proportional to the current/voltage. Using
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the SEL pin, one can choose between which mode to use.
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ESPHome will continuously cycle the state of the SEL pin to measure current *and* voltage, though both cannot
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be measured at the same exact points in time.
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.. code-block:: yaml
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# Example configuration entry
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sensor:
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- platform: hlw8012
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sel_pin: GPIOXX
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cf_pin: GPIOXX
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cf1_pin: GPIOXX
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current:
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name: "HLW8012 Current"
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voltage:
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name: "HLW8012 Voltage"
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power:
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name: "HLW8012 Power"
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energy:
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name: "HLW8012 Energy"
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update_interval: 60s
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.. note::
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The configuration above should work for Sonoff POWs (R1).
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Configuration variables:
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------------------------
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- **sel_pin** (**Required**, :ref:`Pin Schema <config-pin_schema>`): The pin SEL is connected to.
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- **cf_pin** (**Required**, :ref:`config-pin`): The pin CF is connected to.
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- **cf1_pin** (**Required**, :ref:`config-pin`): The pin CF1 is connected to.
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- **current** (*Optional*): Use the current value of the sensor in amperes. All options from
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:ref:`Sensor <config-sensor>`.
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- **power** (*Optional*): Use the (active) power value of the sensor in watts. All options from
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:ref:`Sensor <config-sensor>`.
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- **voltage** (*Optional*): Use the voltage value of the sensor in V (RMS).
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All options from :ref:`Sensor <config-sensor>`.
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- **energy** (*Optional*): Use the total energy value of the sensor in Wh.
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All options from :ref:`Sensor <config-sensor>`.
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- **update_interval** (*Optional*, :ref:`config-time`): The interval to check the sensor. Defaults to ``60s``.
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Advanced Options:
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- **current_resistor** (*Optional*, float): The value of the shunt resistor for current measurement.
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Defaults to the Sonoff POW's value ``0.001 ohm``.
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- **voltage_divider** (*Optional*, float): The value of the voltage divider on the board as ``(R_upstream + R_downstream) / R_downstream``.
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Defaults to the Sonoff POW's value ``2351``.
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- **model** (*Optional*, string): The sensor model on the board, to set internal constant factors to convert pulses to measurements.
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Possible values are ``HLW8012``, ``CSE7759``, ``BL0937``. Defaults to ``HLW8012``.
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CSE7759 uses same constants and it also works with default. Must be set for BL0937 to be able to calibrate all three measurements at the same time.
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- **change_mode_every** (*Optional*, int): After how many updates to cycle between the current/voltage measurement mode.
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Note that the first value after switching is discarded because it is often inaccurate. When set to ``"never"`` the measurement mode will stay at the
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set ``initial_mode``. Defaults to ``8``.
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- **initial_mode** (*Optional*, string): The initial measurement mode. Defaults to ``VOLTAGE``.
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Possible initial measurement modes are ``VOLTAGE`` or ``CURRENT``.
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Permanent SEL Pin
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-----------------
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Some devices have the SEL pin permanently pulled high or low. If this is the case, you can configure
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the initial measurement mode to match whichever mode the device uses, and disable mode switching.
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.. code-block:: yaml
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# Example configuration entry for device with fixed measurement mode
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sensor:
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- platform: hlw8012
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sel_pin: GPIOXX
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cf_pin: GPIOXX
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cf1_pin: GPIOXX
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current:
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name: "HLW8012 Current"
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voltage:
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name: "HLW8012 Voltage"
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power:
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name: "HLW8012 Power"
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update_interval: 60s
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initial_mode: CURRENT
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change_mode_every: "never"
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SEL Pin Inversion
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-----------------
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If using model ``BL0937`` the function of the SEL pin is inverted compared to default. When SEL=0 current is measured,
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when SEL=1 voltage is measured. To accommodate this change use the following configuration:
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.. code-block:: yaml
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# Example configuration entry for device BL0937 using inverted SEL pin functionality
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sensor:
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- platform: hlw8012
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model: BL0937
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sel_pin:
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number: GPIOXX
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inverted: true
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cf_pin: GPIOXX
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cf1_pin: GPIOXX
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current:
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name: "BL0937 Current"
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voltage:
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name: "BL0937 Voltage"
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power:
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name: "BL0937 Power"
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update_interval: 60s
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Calibration
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-----------
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What you need:
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- Your ESPHome power measurement plug
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- A calibrated power meter that can measure voltage, current, power and power factor
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- A large resistive load like an electric heater or kettle, ideally over 1000W
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Steps:
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- Find the currently used calibration values for ``current_resistor`` and ``voltage_divider`` in your device's YAML configuration or upload a new firmware with some known calibration values to the ESP.
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- Plug the ESP power measurement plug into the calibrated power meter.
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- Plug the load into the ESP plug.
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- Turn on the load and make sure the power factor (PF) displayed on the power meter is 1.0. If it's not, you need to pick a different load.
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- Wait for the readings to settle on both the power meter and the ESP.
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- Write down the voltage reading of the power meter and the ESP at the same time.
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- Write down the power reading of the power meter and the ESP at the same time.
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- Write down the current reading of the power meter and the ESP at the same time.
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- Use the calculator below to calculate the new calibration values for the ESP. These values will help it accurately measure power, voltage and current in the future.
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- Upload the new values to the ESP.
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Calibration values on the ESP:
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.. raw:: html
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<table>
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<tr><td>voltage_divider:</td><td><input type="text" inputmode="numeric" value="2351" id="voltage-divider" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"></td></tr>
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<tr><td>current_resistor:</td><td><input type="text" inputmode="numeric" value="0.001" id="current-resistor" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"></td></tr>
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<tr><td>current_multiply:</td><td><input type="text" inputmode="numeric" value="1" id="current-multiply" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"></td></tr>
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</table>
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ESP measurements:
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.. raw:: html
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<table>
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<tr><td>Voltage:</td><td><input type="text" inputmode="numeric" id="sensor-voltage" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"> V</td></tr>
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<tr><td>Power:</td><td><input type="text" inputmode="numeric" id="sensor-power" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"> W</td></tr>
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<tr><td>Current:</td><td><input type="text" inputmode="numeric" id="sensor-current" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"> A</td></tr>
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</table>
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Power meter measurements:
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.. raw:: html
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<table>
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<tr><td>Voltage:</td><td><input type="text" inputmode="numeric" id="real-voltage" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"> V</td></tr>
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<tr><td>Power:</td><td><input type="text" inputmode="numeric" id="real-power" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"> W</td></tr>
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<tr><td>Current:</td><td><input type="text" inputmode="numeric" id="real-current" onchange="calc()" onkeypress="calc()" onpaste="calc()" oninput="calc()" style="width: 100px; max-width: 75vw;"> A</td></tr>
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</table>
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New calibration values:
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.. raw:: html
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<table>
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<tr><td>voltage_divider:</td><td><input type="text" id="voltage-divider-new" onclick="this.focus();this.select()" style="width: 100px; max-width: 75vw;" readonly="readonly"></td></tr>
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<tr><td>current_resistor:</td><td><input type="text" id="current-resistor-new" onclick="this.focus();this.select()" style="width: 100px; max-width: 75vw;" readonly="readonly"></td></tr>
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<tr><td>current_multiply:</td><td><input type="text" id="current-multiply-new" onclick="this.focus();this.select()" style="width: 100px; max-width: 75vw;" readonly="readonly"></td></tr>
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</table>
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New ESP measurements:
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.. raw:: html
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<table>
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<tr><td>Voltage:</td><td><input type="text" id="sensor-voltage-new" style="width: 100px; max-width: 75vw;" readonly="readonly"> V</td></tr>
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<tr><td>Power:</td><td><input type="text" id="sensor-power-new" style="width: 100px; max-width: 75vw;" readonly="readonly"> W</td></tr>
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<tr><td>Current:</td><td><input type="text" id="sensor-current-new" style="width: 100px; max-width: 75vw;" readonly="readonly"> A</td></tr>
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</table>
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<script>
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function calc() {
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let voltage_divider = parseFloat(document.getElementById("voltage-divider").value.replace(",", "."))
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let current_resistor = parseFloat(document.getElementById("current-resistor").value.replace(",", "."))
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let current_multiply = parseFloat(document.getElementById("current-multiply").value.replace(",", "."))
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let real_voltage = parseFloat(document.getElementById("real-voltage").value.replace(",", "."))
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let real_power = parseFloat(document.getElementById("real-power").value.replace(",", "."))
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let real_current = parseFloat(document.getElementById("real-current").value.replace(",", "."))
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let sensor_voltage = parseFloat(document.getElementById("sensor-voltage").value.replace(",", "."))
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let sensor_power = parseFloat(document.getElementById("sensor-power").value.replace(",", "."))
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let sensor_current = parseFloat(document.getElementById("sensor-current").value.replace(",", "."))
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let calc_voltage = (document.getElementById("real-voltage").value !== "" || document.getElementById("sensor-voltage").value !== "")
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let calc_power = (document.getElementById("real-power").value !== "" || document.getElementById("sensor-power").value !== "")
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let calc_current = (document.getElementById("real-current").value !== "" || document.getElementById("sensor-current").value !== "")
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let voltage_divider_new = voltage_divider;
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let current_resistor_new = current_resistor;
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let current_multiply_new = current_multiply;
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if (calc_voltage) {
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voltage_divider_new *= real_voltage / sensor_voltage;
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}
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if (calc_power) {
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if (calc_voltage) {
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current_resistor_new *= (sensor_power / sensor_voltage) / (real_power / real_voltage);
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} else {
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current_resistor_new *= sensor_power / real_power;
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}
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}
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if (calc_current) {
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if (calc_power) {
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current_multiply_new *= (real_current / sensor_current) * (current_resistor_new / current_resistor);
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} else {
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current_resistor_new *= sensor_current / real_current;
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}
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}
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document.getElementById("voltage-divider-new").value = voltage_divider_new;
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document.getElementById("current-resistor-new").value = current_resistor_new;
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document.getElementById("current-multiply-new").value = current_multiply_new;
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let sensor_voltage_new = sensor_voltage * voltage_divider_new / voltage_divider
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let sensor_power_new = sensor_power * (voltage_divider_new / current_resistor_new) / (voltage_divider / current_resistor)
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let sensor_current_new = sensor_current * (current_multiply_new / current_resistor_new) / (current_multiply / current_resistor)
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document.getElementById("sensor-voltage-new").value = Number(sensor_voltage_new.toFixed(8));
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document.getElementById("sensor-power-new").value = Number(sensor_power_new.toFixed(8));
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document.getElementById("sensor-current-new").value = Number(sensor_current_new.toFixed(8));
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}
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</script>
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Example Config:
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.. code-block:: yaml
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substitutions:
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voltage_divider: "2351"
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current_resistor: "0.001"
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current_multiply: "1.0"
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sensor:
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- platform: hlw8012
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current_resistor: ${current_resistor}
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voltage_divider: ${voltage_divider}
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current:
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name: "HLW8012 Current"
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filters:
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- multiply: ${current_multiply}
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voltage:
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name: "HLW8012 Voltage"
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power:
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name: "HLW8012 Power"
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energy:
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name: "HLW8012 Energy"
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update_interval: 60s
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See Also
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--------
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- :ref:`sensor-filters`
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- :apiref:`hlw8012/hlw8012.h`
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- `HLW8012 Library <https://github.com/xoseperez/hlw8012>`__ by `Xose Pérez <https://github.com/xoseperez>`__
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- :ghedit:`Edit`
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