Add Siemes and Millisiemens as additional units of conductivity and enable conversion between conductivity units (#118728)

2024-07-08 20:17:01 +00:00 · 2024-06-21 11:10:15 +02:00 · 2024-06-21 11:10:15 +02:00 · 0dd5391cd7
commit 0dd5391cd7
parent 818750dfd1
17 changed files with 112 additions and 16 deletions
--- a/homeassistant/components/fyta/sensor.py
+++ b/homeassistant/components/fyta/sensor.py
@ -16,7 +16,12 @@ from homeassistant.components.sensor import (
    SensorStateClass,
 )
 from homeassistant.config_entries import ConfigEntry
-from homeassistant.const import PERCENTAGE, EntityCategory, UnitOfTemperature
+from homeassistant.const import (
+    PERCENTAGE,
+    EntityCategory,
+    UnitOfConductivity,
+    UnitOfTemperature,
+)
 from homeassistant.core import HomeAssistant
 from homeassistant.helpers.entity_platform import AddEntitiesCallback

@ -105,7 +110,8 @@ SENSORS: Final[list[FytaSensorEntityDescription]] = [
    FytaSensorEntityDescription(
        key="salinity",
        translation_key="salinity",
-        native_unit_of_measurement="mS/cm",
+        native_unit_of_measurement=UnitOfConductivity.MILLISIEMENS,
+        device_class=SensorDeviceClass.CONDUCTIVITY,
        state_class=SensorStateClass.MEASUREMENT,
    ),
    FytaSensorEntityDescription(
--- a/homeassistant/components/mysensors/sensor.py
+++ b/homeassistant/components/mysensors/sensor.py
@ -15,12 +15,12 @@ from homeassistant.components.sensor import (
 )
 from homeassistant.config_entries import ConfigEntry
 from homeassistant.const import (
-    CONDUCTIVITY,
    DEGREE,
    LIGHT_LUX,
    PERCENTAGE,
    Platform,
    UnitOfApparentPower,
+    UnitOfConductivity,
    UnitOfElectricCurrent,
    UnitOfElectricPotential,
    UnitOfEnergy,
@ -191,7 +191,7 @@ SENSORS: dict[str, SensorEntityDescription] = {
    ),
    "V_EC": SensorEntityDescription(
        key="V_EC",
-        native_unit_of_measurement=CONDUCTIVITY,
+        native_unit_of_measurement=UnitOfConductivity.MICROSIEMENS,
    ),
    "V_VAR": SensorEntityDescription(
        key="V_VAR",
--- a/homeassistant/components/number/const.py
+++ b/homeassistant/components/number/const.py
@ -18,6 +18,7 @@ from homeassistant.const import (
    SIGNAL_STRENGTH_DECIBELS,
    SIGNAL_STRENGTH_DECIBELS_MILLIWATT,
    UnitOfApparentPower,
+    UnitOfConductivity,
    UnitOfDataRate,
    UnitOfElectricCurrent,
    UnitOfElectricPotential,
@ -120,6 +121,12 @@ class NumberDeviceClass(StrEnum):
    Unit of measurement: `ppm` (parts per million)
    """

+    CONDUCTIVITY = "conductivity"
+    """Conductivity.
+
+    Unit of measurement: `S/cm`, `mS/cm`, `µS/cm`
+    """
+
    CURRENT = "current"
    """Current.

@ -424,6 +431,7 @@ DEVICE_CLASS_UNITS: dict[NumberDeviceClass, set[type[StrEnum] | str | None]] = {
    NumberDeviceClass.BATTERY: {PERCENTAGE},
    NumberDeviceClass.CO: {CONCENTRATION_PARTS_PER_MILLION},
    NumberDeviceClass.CO2: {CONCENTRATION_PARTS_PER_MILLION},
+    NumberDeviceClass.CONDUCTIVITY: set(UnitOfConductivity),
    NumberDeviceClass.CURRENT: set(UnitOfElectricCurrent),
    NumberDeviceClass.DATA_RATE: set(UnitOfDataRate),
    NumberDeviceClass.DATA_SIZE: set(UnitOfInformation),
--- a/homeassistant/components/plant/init.py
+++ b/homeassistant/components/plant/init.py
@ -10,7 +10,6 @@ import voluptuous as vol
 from homeassistant.components.recorder import get_instance, history
 from homeassistant.const import (
    ATTR_UNIT_OF_MEASUREMENT,
-    CONDUCTIVITY,
    CONF_SENSORS,
    LIGHT_LUX,
    PERCENTAGE,
@ -18,6 +17,7 @@ from homeassistant.const import (
    STATE_PROBLEM,
    STATE_UNAVAILABLE,
    STATE_UNKNOWN,
+    UnitOfConductivity,
    UnitOfTemperature,
 )
 from homeassistant.core import (
@ -148,7 +148,7 @@ class Plant(Entity):
            "max": CONF_MAX_MOISTURE,
        },
        READING_CONDUCTIVITY: {
-            ATTR_UNIT_OF_MEASUREMENT: CONDUCTIVITY,
+            ATTR_UNIT_OF_MEASUREMENT: UnitOfConductivity.MICROSIEMENS,
            "min": CONF_MIN_CONDUCTIVITY,
            "max": CONF_MAX_CONDUCTIVITY,
        },
--- a/homeassistant/components/recorder/statistics.py
+++ b/homeassistant/components/recorder/statistics.py
@ -28,6 +28,7 @@ from homeassistant.helpers.typing import UNDEFINED, UndefinedType
 from homeassistant.util import dt as dt_util
 from homeassistant.util.unit_conversion import (
    BaseUnitConverter,
+    ConductivityConverter,
    DataRateConverter,
    DistanceConverter,
    DurationConverter,
@ -126,6 +127,7 @@ QUERY_STATISTICS_SUMMARY_SUM = (


 STATISTIC_UNIT_TO_UNIT_CONVERTER: dict[str | None, type[BaseUnitConverter]] = {
+    **{unit: ConductivityConverter for unit in ConductivityConverter.VALID_UNITS},
    **{unit: DataRateConverter for unit in DataRateConverter.VALID_UNITS},
    **{unit: DistanceConverter for unit in DistanceConverter.VALID_UNITS},
    **{unit: DurationConverter for unit in DurationConverter.VALID_UNITS},
@ -154,7 +156,7 @@ def mean(values: list[float]) -> float | None:

    This is a very simple version that only works
    with a non-empty list of floats. The built-in
-    statistics.mean is more robust but is is almost
+    statistics.mean is more robust but is almost
    an order of magnitude slower.
    """
    return sum(values) / len(values)
--- a/homeassistant/components/recorder/websocket_api.py
+++ b/homeassistant/components/recorder/websocket_api.py
@ -48,6 +48,7 @@ from .util import PERIOD_SCHEMA, get_instance, resolve_period

 UNIT_SCHEMA = vol.Schema(
    {
+        vol.Optional("conductivity"): vol.In(DataRateConverter.VALID_UNITS),
        vol.Optional("data_rate"): vol.In(DataRateConverter.VALID_UNITS),
        vol.Optional("distance"): vol.In(DistanceConverter.VALID_UNITS),
        vol.Optional("duration"): vol.In(DurationConverter.VALID_UNITS),
--- a/homeassistant/components/sensor/const.py
+++ b/homeassistant/components/sensor/const.py
@ -18,6 +18,7 @@ from homeassistant.const import (
    SIGNAL_STRENGTH_DECIBELS,
    SIGNAL_STRENGTH_DECIBELS_MILLIWATT,
    UnitOfApparentPower,
+    UnitOfConductivity,
    UnitOfDataRate,
    UnitOfElectricCurrent,
    UnitOfElectricPotential,
@ -46,6 +47,7 @@ from homeassistant.helpers.deprecation import (
 )
 from homeassistant.util.unit_conversion import (
    BaseUnitConverter,
+    ConductivityConverter,
    DataRateConverter,
    DistanceConverter,
    DurationConverter,
@ -137,6 +139,12 @@ class SensorDeviceClass(StrEnum):
    Unit of measurement: `ppm` (parts per million)
    """

+    CONDUCTIVITY = "conductivity"
+    """Conductivity.
+
+    Unit of measurement: `S/cm`, `mS/cm`, `µS/cm`
+    """
+
    CURRENT = "current"
    """Current.

@ -485,6 +493,7 @@ STATE_CLASSES: Final[list[str]] = [cls.value for cls in SensorStateClass]

 UNIT_CONVERTERS: dict[SensorDeviceClass | str | None, type[BaseUnitConverter]] = {
    SensorDeviceClass.ATMOSPHERIC_PRESSURE: PressureConverter,
+    SensorDeviceClass.CONDUCTIVITY: ConductivityConverter,
    SensorDeviceClass.CURRENT: ElectricCurrentConverter,
    SensorDeviceClass.DATA_RATE: DataRateConverter,
    SensorDeviceClass.DATA_SIZE: InformationConverter,
@ -517,6 +526,7 @@ DEVICE_CLASS_UNITS: dict[SensorDeviceClass, set[type[StrEnum] | str | None]] = {
    SensorDeviceClass.BATTERY: {PERCENTAGE},
    SensorDeviceClass.CO: {CONCENTRATION_PARTS_PER_MILLION},
    SensorDeviceClass.CO2: {CONCENTRATION_PARTS_PER_MILLION},
+    SensorDeviceClass.CONDUCTIVITY: set(UnitOfConductivity),
    SensorDeviceClass.CURRENT: set(UnitOfElectricCurrent),
    SensorDeviceClass.DATA_RATE: set(UnitOfDataRate),
    SensorDeviceClass.DATA_SIZE: set(UnitOfInformation),
@ -591,6 +601,7 @@ DEVICE_CLASS_STATE_CLASSES: dict[SensorDeviceClass, set[SensorStateClass]] = {
    SensorDeviceClass.BATTERY: {SensorStateClass.MEASUREMENT},
    SensorDeviceClass.CO: {SensorStateClass.MEASUREMENT},
    SensorDeviceClass.CO2: {SensorStateClass.MEASUREMENT},
+    SensorDeviceClass.CONDUCTIVITY: {SensorStateClass.MEASUREMENT},
    SensorDeviceClass.CURRENT: {SensorStateClass.MEASUREMENT},
    SensorDeviceClass.DATA_RATE: {SensorStateClass.MEASUREMENT},
    SensorDeviceClass.DATA_SIZE: set(SensorStateClass),
--- a/homeassistant/components/sensor/device_condition.py
+++ b/homeassistant/components/sensor/device_condition.py
@ -41,6 +41,7 @@ CONF_IS_ATMOSPHERIC_PRESSURE = "is_atmospheric_pressure"
 CONF_IS_BATTERY_LEVEL = "is_battery_level"
 CONF_IS_CO = "is_carbon_monoxide"
 CONF_IS_CO2 = "is_carbon_dioxide"
+CONF_IS_CONDUCTIVITY = "is_conductivity"
 CONF_IS_CURRENT = "is_current"
 CONF_IS_DATA_RATE = "is_data_rate"
 CONF_IS_DATA_SIZE = "is_data_size"
@ -90,6 +91,7 @@ ENTITY_CONDITIONS = {
    SensorDeviceClass.BATTERY: [{CONF_TYPE: CONF_IS_BATTERY_LEVEL}],
    SensorDeviceClass.CO: [{CONF_TYPE: CONF_IS_CO}],
    SensorDeviceClass.CO2: [{CONF_TYPE: CONF_IS_CO2}],
+    SensorDeviceClass.CONDUCTIVITY: [{CONF_TYPE: CONF_IS_CONDUCTIVITY}],
    SensorDeviceClass.CURRENT: [{CONF_TYPE: CONF_IS_CURRENT}],
    SensorDeviceClass.DATA_RATE: [{CONF_TYPE: CONF_IS_DATA_RATE}],
    SensorDeviceClass.DATA_SIZE: [{CONF_TYPE: CONF_IS_DATA_SIZE}],
@ -153,6 +155,7 @@ CONDITION_SCHEMA = vol.All(
                    CONF_IS_BATTERY_LEVEL,
                    CONF_IS_CO,
                    CONF_IS_CO2,
+                    CONF_IS_CONDUCTIVITY,
                    CONF_IS_CURRENT,
                    CONF_IS_DATA_RATE,
                    CONF_IS_DATA_SIZE,
--- a/homeassistant/components/sensor/device_trigger.py
+++ b/homeassistant/components/sensor/device_trigger.py
@ -40,6 +40,7 @@ CONF_ATMOSPHERIC_PRESSURE = "atmospheric_pressure"
 CONF_BATTERY_LEVEL = "battery_level"
 CONF_CO = "carbon_monoxide"
 CONF_CO2 = "carbon_dioxide"
+CONF_CONDUCTIVITY = "conductivity"
 CONF_CURRENT = "current"
 CONF_DATA_RATE = "data_rate"
 CONF_DATA_SIZE = "data_size"
@ -89,6 +90,7 @@ ENTITY_TRIGGERS = {
    SensorDeviceClass.BATTERY: [{CONF_TYPE: CONF_BATTERY_LEVEL}],
    SensorDeviceClass.CO: [{CONF_TYPE: CONF_CO}],
    SensorDeviceClass.CO2: [{CONF_TYPE: CONF_CO2}],
+    SensorDeviceClass.CONDUCTIVITY: [{CONF_TYPE: CONF_CONDUCTIVITY}],
    SensorDeviceClass.CURRENT: [{CONF_TYPE: CONF_CURRENT}],
    SensorDeviceClass.DATA_RATE: [{CONF_TYPE: CONF_DATA_RATE}],
    SensorDeviceClass.DATA_SIZE: [{CONF_TYPE: CONF_DATA_SIZE}],
@ -153,6 +155,7 @@ TRIGGER_SCHEMA = vol.All(
                    CONF_BATTERY_LEVEL,
                    CONF_CO,
                    CONF_CO2,
+                    CONF_CONDUCTIVITY,
                    CONF_CURRENT,
                    CONF_DATA_RATE,
                    CONF_DATA_SIZE,
--- a/homeassistant/components/sensor/strings.json
+++ b/homeassistant/components/sensor/strings.json
@ -8,6 +8,7 @@
      "is_battery_level": "Current {entity_name} battery level",
      "is_carbon_monoxide": "Current {entity_name} carbon monoxide concentration level",
      "is_carbon_dioxide": "Current {entity_name} carbon dioxide concentration level",
+      "is_conductivity": "Current {entity_name} conductivity",
      "is_current": "Current {entity_name} current",
      "is_data_rate": "Current {entity_name} data rate",
      "is_data_size": "Current {entity_name} data size",
@ -57,6 +58,7 @@
      "battery_level": "{entity_name} battery level changes",
      "carbon_monoxide": "{entity_name} carbon monoxide concentration changes",
      "carbon_dioxide": "{entity_name} carbon dioxide concentration changes",
+      "conductivity": "{entity_name} conductivity changes",
      "current": "{entity_name} current changes",
      "data_rate": "{entity_name} data rate changes",
      "data_size": "{entity_name} data size changes",
@ -153,6 +155,9 @@
    "carbon_dioxide": {
      "name": "Carbon dioxide"
    },
+    "conductivity": {
+      "name": "Conductivity"
+    },
    "current": {
      "name": "Current"
    },
--- a/homeassistant/components/xiaomi_ble/sensor.py
+++ b/homeassistant/components/xiaomi_ble/sensor.py
@ -20,11 +20,11 @@ from homeassistant.components.sensor import (
 )
 from homeassistant.const import (
    CONCENTRATION_MILLIGRAMS_PER_CUBIC_METER,
-    CONDUCTIVITY,
    LIGHT_LUX,
    PERCENTAGE,
    SIGNAL_STRENGTH_DECIBELS_MILLIWATT,
    EntityCategory,
+    UnitOfConductivity,
    UnitOfElectricPotential,
    UnitOfMass,
    UnitOfPressure,
@ -53,7 +53,7 @@ SENSOR_DESCRIPTIONS = {
    (DeviceClass.CONDUCTIVITY, Units.CONDUCTIVITY): SensorEntityDescription(
        key=str(Units.CONDUCTIVITY),
        device_class=None,
-        native_unit_of_measurement=CONDUCTIVITY,
+        native_unit_of_measurement=UnitOfConductivity.MICROSIEMENS,
        state_class=SensorStateClass.MEASUREMENT,
    ),
    (
--- a/homeassistant/const.py
+++ b/homeassistant/const.py
@ -1129,8 +1129,21 @@ _DEPRECATED_MASS_POUNDS: Final = DeprecatedConstantEnum(
 )
 """Deprecated: please use UnitOfMass.POUNDS"""

+
 # Conductivity units
-CONDUCTIVITY: Final = "µS/cm"
+class UnitOfConductivity(StrEnum):
+    """Conductivity units."""
+
+    SIEMENS = "S/cm"
+    MICROSIEMENS = "µS/cm"
+    MILLISIEMENS = "mS/cm"
+
+
+_DEPRECATED_CONDUCTIVITY: Final = DeprecatedConstantEnum(
+    UnitOfConductivity.MICROSIEMENS,
+    "2025.6",
+)
+"""Deprecated: please use UnitOfConductivity.MICROSIEMENS"""

 # Light units
 LIGHT_LUX: Final = "lx"
--- a/homeassistant/util/unit_conversion.py
+++ b/homeassistant/util/unit_conversion.py
@ -10,6 +10,7 @@ from homeassistant.const import (
    CONCENTRATION_PARTS_PER_MILLION,
    PERCENTAGE,
    UNIT_NOT_RECOGNIZED_TEMPLATE,
+    UnitOfConductivity,
    UnitOfDataRate,
    UnitOfElectricCurrent,
    UnitOfElectricPotential,
@ -169,6 +170,19 @@ class DistanceConverter(BaseUnitConverter):
    }


+class ConductivityConverter(BaseUnitConverter):
+    """Utility to convert electric current values."""
+
+    UNIT_CLASS = "conductivity"
+    NORMALIZED_UNIT = UnitOfConductivity.MICROSIEMENS
+    _UNIT_CONVERSION: dict[str | None, float] = {
+        UnitOfConductivity.MICROSIEMENS: 1,
+        UnitOfConductivity.MILLISIEMENS: 1e-3,
+        UnitOfConductivity.SIEMENS: 1e-6,
+    }
+    VALID_UNITS = set(UnitOfConductivity)
+
+
 class ElectricCurrentConverter(BaseUnitConverter):
    """Utility to convert electric current values."""

--- a/tests/components/plant/test_init.py
+++ b/tests/components/plant/test_init.py
@ -6,11 +6,11 @@ from homeassistant.components import plant
 from homeassistant.components.recorder import Recorder
 from homeassistant.const import (
    ATTR_UNIT_OF_MEASUREMENT,
-    CONDUCTIVITY,
    LIGHT_LUX,
    STATE_OK,
    STATE_PROBLEM,
    STATE_UNAVAILABLE,
+    UnitOfConductivity,
 )
 from homeassistant.core import HomeAssistant, State
 from homeassistant.setup import async_setup_component
@ -79,7 +79,9 @@ async def test_low_battery(hass: HomeAssistant) -> None:

 async def test_initial_states(hass: HomeAssistant) -> None:
    """Test plant initialises attributes if sensor already exists."""
-    hass.states.async_set(MOISTURE_ENTITY, 5, {ATTR_UNIT_OF_MEASUREMENT: CONDUCTIVITY})
+    hass.states.async_set(
+        MOISTURE_ENTITY, 5, {ATTR_UNIT_OF_MEASUREMENT: UnitOfConductivity.MICROSIEMENS}
+    )
    plant_name = "some_plant"
    assert await async_setup_component(
        hass, plant.DOMAIN, {plant.DOMAIN: {plant_name: GOOD_CONFIG}}
@ -98,7 +100,9 @@ async def test_update_states(hass: HomeAssistant) -> None:
    assert await async_setup_component(
        hass, plant.DOMAIN, {plant.DOMAIN: {plant_name: GOOD_CONFIG}}
    )
-    hass.states.async_set(MOISTURE_ENTITY, 5, {ATTR_UNIT_OF_MEASUREMENT: CONDUCTIVITY})
+    hass.states.async_set(
+        MOISTURE_ENTITY, 5, {ATTR_UNIT_OF_MEASUREMENT: UnitOfConductivity.MICROSIEMENS}
+    )
    await hass.async_block_till_done()
    state = hass.states.get(f"plant.{plant_name}")
    assert state.state == STATE_PROBLEM
@ -115,7 +119,9 @@ async def test_unavailable_state(hass: HomeAssistant) -> None:
        hass, plant.DOMAIN, {plant.DOMAIN: {plant_name: GOOD_CONFIG}}
    )
    hass.states.async_set(
-        MOISTURE_ENTITY, STATE_UNAVAILABLE, {ATTR_UNIT_OF_MEASUREMENT: CONDUCTIVITY}
+        MOISTURE_ENTITY,
+        STATE_UNAVAILABLE,
+        {ATTR_UNIT_OF_MEASUREMENT: UnitOfConductivity.MICROSIEMENS},
    )
    await hass.async_block_till_done()
    state = hass.states.get(f"plant.{plant_name}")
@ -132,13 +138,17 @@ async def test_state_problem_if_unavailable(hass: HomeAssistant) -> None:
    assert await async_setup_component(
        hass, plant.DOMAIN, {plant.DOMAIN: {plant_name: GOOD_CONFIG}}
    )
-    hass.states.async_set(MOISTURE_ENTITY, 42, {ATTR_UNIT_OF_MEASUREMENT: CONDUCTIVITY})
+    hass.states.async_set(
+        MOISTURE_ENTITY, 42, {ATTR_UNIT_OF_MEASUREMENT: UnitOfConductivity.MICROSIEMENS}
+    )
    await hass.async_block_till_done()
    state = hass.states.get(f"plant.{plant_name}")
    assert state.state == STATE_OK
    assert state.attributes[plant.READING_MOISTURE] == 42
    hass.states.async_set(
-        MOISTURE_ENTITY, STATE_UNAVAILABLE, {ATTR_UNIT_OF_MEASUREMENT: CONDUCTIVITY}
+        MOISTURE_ENTITY,
+        STATE_UNAVAILABLE,
+        {ATTR_UNIT_OF_MEASUREMENT: UnitOfConductivity.MICROSIEMENS},
    )
    await hass.async_block_till_done()
    state = hass.states.get(f"plant.{plant_name}")
--- a/tests/components/sensor/test_device_condition.py
+++ b/tests/components/sensor/test_device_condition.py
@ -58,6 +58,7 @@ def test_matches_device_classes(device_class: SensorDeviceClass) -> None:
        SensorDeviceClass.BATTERY: "CONF_IS_BATTERY_LEVEL",
        SensorDeviceClass.CO: "CONF_IS_CO",
        SensorDeviceClass.CO2: "CONF_IS_CO2",
+        SensorDeviceClass.CONDUCTIVITY: "CONF_IS_CONDUCTIVITY",
        SensorDeviceClass.ENERGY_STORAGE: "CONF_IS_ENERGY",
        SensorDeviceClass.VOLUME_STORAGE: "CONF_IS_VOLUME",
    }.get(device_class, f"CONF_IS_{device_class.value.upper()}")
@ -66,6 +67,7 @@ def test_matches_device_classes(device_class: SensorDeviceClass) -> None:
    # Ensure it has correct value
    constant_value = {
        SensorDeviceClass.BATTERY: "is_battery_level",
+        SensorDeviceClass.CONDUCTIVITY: "is_conductivity",
        SensorDeviceClass.ENERGY_STORAGE: "is_energy",
        SensorDeviceClass.VOLUME_STORAGE: "is_volume",
    }.get(device_class, f"is_{device_class.value}")
--- a/tests/components/sensor/test_device_trigger.py
+++ b/tests/components/sensor/test_device_trigger.py
@ -62,6 +62,7 @@ def test_matches_device_classes(device_class: SensorDeviceClass) -> None:
        SensorDeviceClass.BATTERY: "CONF_BATTERY_LEVEL",
        SensorDeviceClass.CO: "CONF_CO",
        SensorDeviceClass.CO2: "CONF_CO2",
+        SensorDeviceClass.CONDUCTIVITY: "CONF_CONDUCTIVITY",
        SensorDeviceClass.ENERGY_STORAGE: "CONF_ENERGY",
        SensorDeviceClass.VOLUME_STORAGE: "CONF_VOLUME",
    }.get(device_class, f"CONF_{device_class.value.upper()}")
@ -70,6 +71,7 @@ def test_matches_device_classes(device_class: SensorDeviceClass) -> None:
    # Ensure it has correct value
    constant_value = {
        SensorDeviceClass.BATTERY: "battery_level",
+        SensorDeviceClass.CONDUCTIVITY: "conductivity",
        SensorDeviceClass.ENERGY_STORAGE: "energy",
        SensorDeviceClass.VOLUME_STORAGE: "volume",
    }.get(device_class, device_class.value)
--- a/tests/util/test_unit_conversion.py
+++ b/tests/util/test_unit_conversion.py
@ -11,6 +11,7 @@ from homeassistant.const import (
    CONCENTRATION_PARTS_PER_BILLION,
    CONCENTRATION_PARTS_PER_MILLION,
    PERCENTAGE,
+    UnitOfConductivity,
    UnitOfDataRate,
    UnitOfElectricCurrent,
    UnitOfElectricPotential,
@ -31,6 +32,7 @@ from homeassistant.exceptions import HomeAssistantError
 from homeassistant.util import unit_conversion
 from homeassistant.util.unit_conversion import (
    BaseUnitConverter,
+    ConductivityConverter,
    DataRateConverter,
    DistanceConverter,
    DurationConverter,
@ -57,6 +59,7 @@ INVALID_SYMBOL = "bob"
 _ALL_CONVERTERS: dict[type[BaseUnitConverter], list[str | None]] = {
    converter: sorted(converter.VALID_UNITS, key=lambda x: (x is None, x))
    for converter in (
+        ConductivityConverter,
        DataRateConverter,
        DistanceConverter,
        DurationConverter,
@ -77,6 +80,11 @@ _ALL_CONVERTERS: dict[type[BaseUnitConverter], list[str | None]] = {

 # Dict containing all converters with a corresponding unit ratio.
 _GET_UNIT_RATIO: dict[type[BaseUnitConverter], tuple[str | None, str | None, float]] = {
+    ConductivityConverter: (
+        UnitOfConductivity.MICROSIEMENS,
+        UnitOfConductivity.MILLISIEMENS,
+        1000,
+    ),
    DataRateConverter: (
        UnitOfDataRate.BITS_PER_SECOND,
        UnitOfDataRate.BYTES_PER_SECOND,
@ -122,6 +130,14 @@ _GET_UNIT_RATIO: dict[type[BaseUnitConverter], tuple[str | None, str | None, flo
 _CONVERTED_VALUE: dict[
    type[BaseUnitConverter], list[tuple[float, str | None, float, str | None]]
 ] = {
+    ConductivityConverter: [
+        (5, UnitOfConductivity.SIEMENS, 5e3, UnitOfConductivity.MILLISIEMENS),
+        (5, UnitOfConductivity.SIEMENS, 5e6, UnitOfConductivity.MICROSIEMENS),
+        (5, UnitOfConductivity.MILLISIEMENS, 5e3, UnitOfConductivity.MICROSIEMENS),
+        (5, UnitOfConductivity.MILLISIEMENS, 5e-3, UnitOfConductivity.SIEMENS),
+        (5e6, UnitOfConductivity.MICROSIEMENS, 5e3, UnitOfConductivity.MILLISIEMENS),
+        (5e6, UnitOfConductivity.MICROSIEMENS, 5, UnitOfConductivity.SIEMENS),
+    ],
    DataRateConverter: [
        (8e3, UnitOfDataRate.BITS_PER_SECOND, 8, UnitOfDataRate.KILOBITS_PER_SECOND),
        (8e6, UnitOfDataRate.BITS_PER_SECOND, 8, UnitOfDataRate.MEGABITS_PER_SECOND),