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Use entity name translations in Fronius (#90463)

pull/90735/head
Matthias Alphart 2023-04-03 20:05:52 +02:00 committed by GitHub
parent 682ebbd4d5
commit edaee89e34
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3 changed files with 355 additions and 216 deletions
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77
homeassistant/components/fronius/sensor.py
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@ -89,28 +89,24 @@ class FroniusSensorEntityDescription(SensorEntityDescription):
INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
FroniusSensorEntityDescription(
key="energy_day",
name="Energy day",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
),
FroniusSensorEntityDescription(
key="energy_year",
name="Energy year",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
),
FroniusSensorEntityDescription(
key="energy_total",
name="Energy total",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
),
FroniusSensorEntityDescription(
key="frequency_ac",
name="Frequency AC",
default_value=0,
native_unit_of_measurement=UnitOfFrequency.HERTZ,
device_class=SensorDeviceClass.FREQUENCY,
@ -119,7 +115,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="current_ac",
name="Current AC",
default_value=0,
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
@ -127,7 +122,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="current_dc",
name="Current DC",
default_value=0,
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
@ -136,7 +130,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="current_dc_2",
name="Current DC 2",
default_value=0,
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
@ -145,7 +138,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_ac",
name="Power AC",
default_value=0,
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
@ -153,7 +145,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_ac",
name="Voltage AC",
default_value=0,
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
@ -162,7 +153,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_dc",
name="Voltage DC",
default_value=0,
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
@ -171,7 +161,6 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_dc_2",
name="Voltage DC 2",
default_value=0,
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
@ -181,28 +170,23 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
# device status entities
FroniusSensorEntityDescription(
key="inverter_state",
name="Inverter state",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="error_code",
name="Error code",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="status_code",
name="Status code",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="led_state",
name="LED state",
entity_category=EntityCategory.DIAGNOSTIC,
entity_registry_enabled_default=False,
),
FroniusSensorEntityDescription(
key="led_color",
name="LED color",
entity_category=EntityCategory.DIAGNOSTIC,
entity_registry_enabled_default=False,
),
@ -211,19 +195,16 @@ INVERTER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
LOGGER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
FroniusSensorEntityDescription(
key="co2_factor",
name="CO₂ factor",
state_class=SensorStateClass.MEASUREMENT,
icon="mdi:molecule-co2",
),
FroniusSensorEntityDescription(
key="cash_factor",
name="Grid export tariff",
state_class=SensorStateClass.MEASUREMENT,
icon="mdi:cash-plus",
),
FroniusSensorEntityDescription(
key="delivery_factor",
name="Grid import tariff",
state_class=SensorStateClass.MEASUREMENT,
icon="mdi:cash-minus",
),
@ -232,7 +213,6 @@ LOGGER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
FroniusSensorEntityDescription(
key="current_ac_phase_1",
name="Current AC phase 1",
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
@ -240,7 +220,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="current_ac_phase_2",
name="Current AC phase 2",
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
@ -248,7 +227,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="current_ac_phase_3",
name="Current AC phase 3",
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
@ -256,7 +234,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_reactive_ac_consumed",
name="Energy reactive AC consumed",
native_unit_of_measurement=ENERGY_VOLT_AMPERE_REACTIVE_HOUR,
state_class=SensorStateClass.TOTAL_INCREASING,
icon="mdi:lightning-bolt-outline",
@ -264,7 +241,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_reactive_ac_produced",
name="Energy reactive AC produced",
native_unit_of_measurement=ENERGY_VOLT_AMPERE_REACTIVE_HOUR,
state_class=SensorStateClass.TOTAL_INCREASING,
icon="mdi:lightning-bolt-outline",
@ -272,7 +248,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_real_ac_minus",
name="Energy real AC minus",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
@ -280,7 +255,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_real_ac_plus",
name="Energy real AC plus",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
@ -288,33 +262,28 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_real_consumed",
name="Energy real consumed",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
),
FroniusSensorEntityDescription(
key="energy_real_produced",
name="Energy real produced",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
),
FroniusSensorEntityDescription(
key="frequency_phase_average",
name="Frequency phase average",
native_unit_of_measurement=UnitOfFrequency.HERTZ,
device_class=SensorDeviceClass.FREQUENCY,
state_class=SensorStateClass.MEASUREMENT,
),
FroniusSensorEntityDescription(
key="meter_location",
name="Meter location",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="power_apparent_phase_1",
name="Power apparent phase 1",
native_unit_of_measurement=UnitOfApparentPower.VOLT_AMPERE,
device_class=SensorDeviceClass.APPARENT_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -323,7 +292,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_apparent_phase_2",
name="Power apparent phase 2",
native_unit_of_measurement=UnitOfApparentPower.VOLT_AMPERE,
device_class=SensorDeviceClass.APPARENT_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -332,7 +300,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_apparent_phase_3",
name="Power apparent phase 3",
native_unit_of_measurement=UnitOfApparentPower.VOLT_AMPERE,
device_class=SensorDeviceClass.APPARENT_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -341,7 +308,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_apparent",
name="Power apparent",
native_unit_of_measurement=UnitOfApparentPower.VOLT_AMPERE,
device_class=SensorDeviceClass.APPARENT_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -350,34 +316,29 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_factor_phase_1",
name="Power factor phase 1",
device_class=SensorDeviceClass.POWER_FACTOR,
state_class=SensorStateClass.MEASUREMENT,
entity_registry_enabled_default=False,
),
FroniusSensorEntityDescription(
key="power_factor_phase_2",
name="Power factor phase 2",
device_class=SensorDeviceClass.POWER_FACTOR,
state_class=SensorStateClass.MEASUREMENT,
entity_registry_enabled_default=False,
),
FroniusSensorEntityDescription(
key="power_factor_phase_3",
name="Power factor phase 3",
device_class=SensorDeviceClass.POWER_FACTOR,
state_class=SensorStateClass.MEASUREMENT,
entity_registry_enabled_default=False,
),
FroniusSensorEntityDescription(
key="power_factor",
name="Power factor",
device_class=SensorDeviceClass.POWER_FACTOR,
state_class=SensorStateClass.MEASUREMENT,
),
FroniusSensorEntityDescription(
key="power_reactive_phase_1",
name="Power reactive phase 1",
native_unit_of_measurement=POWER_VOLT_AMPERE_REACTIVE,
device_class=SensorDeviceClass.REACTIVE_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -386,7 +347,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_reactive_phase_2",
name="Power reactive phase 2",
native_unit_of_measurement=POWER_VOLT_AMPERE_REACTIVE,
device_class=SensorDeviceClass.REACTIVE_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -395,7 +355,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_reactive_phase_3",
name="Power reactive phase 3",
native_unit_of_measurement=POWER_VOLT_AMPERE_REACTIVE,
device_class=SensorDeviceClass.REACTIVE_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -404,7 +363,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_reactive",
name="Power reactive",
native_unit_of_measurement=POWER_VOLT_AMPERE_REACTIVE,
device_class=SensorDeviceClass.REACTIVE_POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -413,7 +371,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_real_phase_1",
name="Power real phase 1",
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -421,7 +378,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_real_phase_2",
name="Power real phase 2",
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -429,7 +385,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_real_phase_3",
name="Power real phase 3",
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
@ -437,14 +392,12 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_real",
name="Power real",
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
),
FroniusSensorEntityDescription(
key="voltage_ac_phase_1",
name="Voltage AC phase 1",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -452,7 +405,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_ac_phase_2",
name="Voltage AC phase 2",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -460,7 +412,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_ac_phase_3",
name="Voltage AC phase 3",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -468,7 +419,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_ac_phase_to_phase_12",
name="Voltage AC phase 1-2",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -476,7 +426,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_ac_phase_to_phase_23",
name="Voltage AC phase 2-3",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -484,7 +433,6 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_ac_phase_to_phase_31",
name="Voltage AC phase 3-1",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -495,38 +443,32 @@ METER_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
OHMPILOT_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
FroniusSensorEntityDescription(
key="energy_real_ac_consumed",
name="Energy consumed",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
),
FroniusSensorEntityDescription(
key="power_real_ac",
name="Power",
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
state_class=SensorStateClass.MEASUREMENT,
),
FroniusSensorEntityDescription(
key="temperature_channel_1",
name="Temperature channel 1",
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
device_class=SensorDeviceClass.TEMPERATURE,
state_class=SensorStateClass.MEASUREMENT,
),
FroniusSensorEntityDescription(
key="error_code",
name="Error code",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="state_code",
name="State code",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="state_message",
name="State message",
entity_category=EntityCategory.DIAGNOSTIC,
),
]
@ -534,7 +476,6 @@ OHMPILOT_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
FroniusSensorEntityDescription(
key="energy_day",
name="Energy day",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
@ -542,7 +483,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_year",
name="Energy year",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
@ -550,7 +490,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="energy_total",
name="Energy total",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
device_class=SensorDeviceClass.ENERGY,
state_class=SensorStateClass.TOTAL_INCREASING,
@ -558,12 +497,10 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="meter_mode",
name="Meter mode",
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="power_battery",
name="Power battery",
default_value=0,
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
@ -571,7 +508,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_grid",
name="Power grid",
default_value=0,
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
@ -579,7 +515,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_load",
name="Power load",
default_value=0,
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
@ -587,7 +522,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="power_photovoltaics",
name="Power photovoltaics",
default_value=0,
native_unit_of_measurement=UnitOfPower.WATT,
device_class=SensorDeviceClass.POWER,
@ -595,7 +529,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="relative_autonomy",
name="Relative autonomy",
default_value=0,
native_unit_of_measurement=PERCENTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -603,7 +536,6 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="relative_self_consumption",
name="Relative self consumption",
default_value=0,
native_unit_of_measurement=PERCENTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -614,19 +546,16 @@ POWER_FLOW_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
STORAGE_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
FroniusSensorEntityDescription(
key="capacity_maximum",
name="Capacity maximum",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="capacity_designed",
name="Capacity designed",
native_unit_of_measurement=UnitOfEnergy.WATT_HOUR,
entity_category=EntityCategory.DIAGNOSTIC,
),
FroniusSensorEntityDescription(
key="current_dc",
name="Current DC",
native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
device_class=SensorDeviceClass.CURRENT,
state_class=SensorStateClass.MEASUREMENT,
@ -634,7 +563,6 @@ STORAGE_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_dc",
name="Voltage DC",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -642,7 +570,6 @@ STORAGE_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_dc_maximum_cell",
name="Voltage DC maximum cell",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -651,7 +578,6 @@ STORAGE_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="voltage_dc_minimum_cell",
name="Voltage DC minimum cell",
native_unit_of_measurement=UnitOfElectricPotential.VOLT,
device_class=SensorDeviceClass.VOLTAGE,
state_class=SensorStateClass.MEASUREMENT,
@ -660,14 +586,12 @@ STORAGE_ENTITY_DESCRIPTIONS: list[FroniusSensorEntityDescription] = [
),
FroniusSensorEntityDescription(
key="state_of_charge",
name="State of charge",
native_unit_of_measurement=PERCENTAGE,
device_class=SensorDeviceClass.BATTERY,
state_class=SensorStateClass.MEASUREMENT,
),
FroniusSensorEntityDescription(
key="temperature_cell",
name="Temperature cell",
native_unit_of_measurement=UnitOfTemperature.CELSIUS,
device_class=SensorDeviceClass.TEMPERATURE,
state_class=SensorStateClass.MEASUREMENT,
@ -696,6 +620,7 @@ class _FroniusSensorEntity(CoordinatorEntity["FroniusCoordinatorBase"], SensorEn
)
self.solar_net_id = solar_net_id
self._attr_native_value = self._get_entity_value()
self._attr_translation_key = self.entity_description.key
def _device_data(self) -> dict[str, Any]:
"""Extract information for SolarNet device from coordinator data."""

214
homeassistant/components/fronius/strings.json
View File

@ -21,5 +21,219 @@
"already_configured": "[%key:common::config_flow::abort::already_configured_device%]",
"invalid_host": "[%key:common::config_flow::error::invalid_host%]"
}
},
"entity": {
"sensor": {
"energy_day": {
"name": "Energy day"
},
"energy_year": {
"name": "Energy year"
},
"energy_total": {
"name": "Total energy"
},
"frequency_ac": {
"name": "[%key:component::sensor::entity_component::frequency::name%]"
},
"current_ac": {
"name": "AC current"
},
"current_dc": {
"name": "DC current"
},
"current_dc_2": {
"name": "DC current 2"
},
"power_ac": {
"name": "AC power"
},
"voltage_ac": {
"name": "AC voltage"
},
"voltage_dc": {
"name": "DC voltage"
},
"voltage_dc_2": {
"name": "DC voltage 2"
},
"inverter_state": {
"name": "Inverter state"
},
"error_code": {
"name": "Error code"
},
"status_code": {
"name": "Status code"
},
"led_state": {
"name": "LED state"
},
"led_color": {
"name": "LED color"
},
"co2_factor": {
"name": "CO₂ factor"
},
"cash_factor": {
"name": "Grid export tariff"
},
"delivery_factor": {
"name": "Grid import tariff"
},
"current_ac_phase_1": {
"name": "Current phase 1"
},
"current_ac_phase_2": {
"name": "Current phase 2"
},
"current_ac_phase_3": {
"name": "Current phase 3"
},
"energy_reactive_ac_consumed": {
"name": "Reactive energy consumed"
},
"energy_reactive_ac_produced": {
"name": "Reactive energy produced"
},
"energy_real_ac_minus": {
"name": "Real energy minus"
},
"energy_real_ac_plus": {
"name": "Real energy plus"
},
"energy_real_consumed": {
"name": "Real energy consumed"
},
"energy_real_produced": {
"name": "Real energy produced"
},
"frequency_phase_average": {
"name": "Frequency phase average"
},
"meter_location": {
"name": "Meter location"
},
"power_apparent_phase_1": {
"name": "Apparent power phase 1"
},
"power_apparent_phase_2": {
"name": "Apparent power phase 2"
},
"power_apparent_phase_3": {
"name": "Apparent power phase 3"
},
"power_apparent": {
"name": "[%key:component::sensor::entity_component::apparent_power::name%]"
},
"power_factor_phase_1": {
"name": "Power factor phase 1"
},
"power_factor_phase_2": {
"name": "Power factor phase 2"
},
"power_factor_phase_3": {
"name": "Power factor phase 3"
},
"power_factor": {
"name": "[%key:component::sensor::entity_component::power_factor::name%]"
},
"power_reactive_phase_1": {
"name": "Reactive power phase 1"
},
"power_reactive_phase_2": {
"name": "Reactive power phase 2"
},
"power_reactive_phase_3": {
"name": "Reactive power phase 3"
},
"power_reactive": {
"name": "Reactive power"
},
"power_real_phase_1": {
"name": "Real power phase 1"
},
"power_real_phase_2": {
"name": "Real power phase 2"
},
"power_real_phase_3": {
"name": "Real power phase 3"
},
"power_real": {
"name": "Real power"
},
"voltage_ac_phase_1": {
"name": "Voltage phase 1"
},
"voltage_ac_phase_2": {
"name": "Voltage phase 2"
},
"voltage_ac_phase_3": {
"name": "Voltage phase 3"
},
"voltage_ac_phase_to_phase_12": {
"name": "Voltage phase 1-2"
},
"voltage_ac_phase_to_phase_23": {
"name": "Voltage phase 2-3"
},
"voltage_ac_phase_to_phase_31": {
"name": "Voltage phase 3-1"
},
"energy_real_ac_consumed": {
"name": "Energy consumed"
},
"power_real_ac": {
"name": "[%key:component::sensor::entity_component::power::name%]"
},
"temperature_channel_1": {
"name": "[%key:component::sensor::entity_component::temperature::name%]"
},
"state_code": {
"name": "State code"
},
"state_message": {
"name": "State message"
},
"meter_mode": {
"name": "Meter mode"
},
"power_battery": {
"name": "Power battery"
},
"power_grid": {
"name": "Power grid"
},
"power_load": {
"name": "Power load"
},
"power_photovoltaics": {
"name": "Power photovoltaics"
},
"relative_autonomy": {
"name": "Relative autonomy"
},
"relative_self_consumption": {
"name": "Relative self consumption"
},
"capacity_maximum": {
"name": "Maximum capacity "
},
"capacity_designed": {
"name": "Designed capacity"
},
"voltage_dc_maximum_cell": {
"name": "Maximum cell voltage"
},
"voltage_dc_minimum_cell": {
"name": "Minimum cell voltage"
},
"state_of_charge": {
"name": "State of charge"
},
"temperature_cell": {
"name": "[%key:component::sensor::entity_component::temperature::name%]"
}
}
}
}

280
tests/components/fronius/test_sensor.py
View File

@ -34,11 +34,11 @@ async def test_symo_inverter(
hass, config_entry.entry_id, FroniusInverterUpdateCoordinator.default_interval
)
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 52
assert_state("sensor.symo_20_current_dc", 0)
assert_state("sensor.symo_20_dc_current", 0)
assert_state("sensor.symo_20_energy_day", 10828)
assert_state("sensor.symo_20_energy_total", 44186900)
assert_state("sensor.symo_20_total_energy", 44186900)
assert_state("sensor.symo_20_energy_year", 25507686)
assert_state("sensor.symo_20_voltage_dc", 16)
assert_state("sensor.symo_20_dc_voltage", 16)
# Second test at daytime when inverter is producing
mock_responses(aioclient_mock, night=False)
@ -52,15 +52,15 @@ async def test_symo_inverter(
)
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 58
# 4 additional AC entities
assert_state("sensor.symo_20_current_dc", 2.19)
assert_state("sensor.symo_20_dc_current", 2.19)
assert_state("sensor.symo_20_energy_day", 1113)
assert_state("sensor.symo_20_energy_total", 44188000)
assert_state("sensor.symo_20_total_energy", 44188000)
assert_state("sensor.symo_20_energy_year", 25508798)
assert_state("sensor.symo_20_voltage_dc", 518)
assert_state("sensor.symo_20_current_ac", 5.19)
assert_state("sensor.symo_20_frequency_ac", 49.94)
assert_state("sensor.symo_20_power_ac", 1190)
assert_state("sensor.symo_20_voltage_ac", 227.90)
assert_state("sensor.symo_20_dc_voltage", 518)
assert_state("sensor.symo_20_ac_current", 5.19)
assert_state("sensor.symo_20_frequency", 49.94)
assert_state("sensor.symo_20_ac_power", 1190)
assert_state("sensor.symo_20_ac_voltage", 227.90)
# Third test at nighttime - additional AC entities default to 0
mock_responses(aioclient_mock, night=True)
@ -68,10 +68,10 @@ async def test_symo_inverter(
hass, dt.utcnow() + FroniusInverterUpdateCoordinator.default_interval
)
await hass.async_block_till_done()
assert_state("sensor.symo_20_current_ac", 0)
assert_state("sensor.symo_20_frequency_ac", 0)
assert_state("sensor.symo_20_power_ac", 0)
assert_state("sensor.symo_20_voltage_ac", 0)
assert_state("sensor.symo_20_ac_current", 0)
assert_state("sensor.symo_20_frequency", 0)
assert_state("sensor.symo_20_ac_power", 0)
assert_state("sensor.symo_20_ac_voltage", 0)
async def test_symo_logger(
@ -112,38 +112,38 @@ async def test_symo_meter(
)
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 58
# states are rounded to 4 decimals
assert_state("sensor.smart_meter_63a_current_ac_phase_1", 7.755)
assert_state("sensor.smart_meter_63a_current_ac_phase_2", 6.68)
assert_state("sensor.smart_meter_63a_current_ac_phase_3", 10.102)
assert_state("sensor.smart_meter_63a_energy_reactive_ac_consumed", 59960790)
assert_state("sensor.smart_meter_63a_energy_reactive_ac_produced", 723160)
assert_state("sensor.smart_meter_63a_energy_real_ac_minus", 35623065)
assert_state("sensor.smart_meter_63a_energy_real_ac_plus", 15303334)
assert_state("sensor.smart_meter_63a_energy_real_consumed", 15303334)
assert_state("sensor.smart_meter_63a_energy_real_produced", 35623065)
assert_state("sensor.smart_meter_63a_current_phase_1", 7.755)
assert_state("sensor.smart_meter_63a_current_phase_2", 6.68)
assert_state("sensor.smart_meter_63a_current_phase_3", 10.102)
assert_state("sensor.smart_meter_63a_reactive_energy_consumed", 59960790)
assert_state("sensor.smart_meter_63a_reactive_energy_produced", 723160)
assert_state("sensor.smart_meter_63a_real_energy_minus", 35623065)
assert_state("sensor.smart_meter_63a_real_energy_plus", 15303334)
assert_state("sensor.smart_meter_63a_real_energy_consumed", 15303334)
assert_state("sensor.smart_meter_63a_real_energy_produced", 35623065)
assert_state("sensor.smart_meter_63a_frequency_phase_average", 50)
assert_state("sensor.smart_meter_63a_power_apparent_phase_1", 1772.793)
assert_state("sensor.smart_meter_63a_power_apparent_phase_2", 1527.048)
assert_state("sensor.smart_meter_63a_power_apparent_phase_3", 2333.562)
assert_state("sensor.smart_meter_63a_power_apparent", 5592.57)
assert_state("sensor.smart_meter_63a_apparent_power_phase_1", 1772.793)
assert_state("sensor.smart_meter_63a_apparent_power_phase_2", 1527.048)
assert_state("sensor.smart_meter_63a_apparent_power_phase_3", 2333.562)
assert_state("sensor.smart_meter_63a_apparent_power", 5592.57)
assert_state("sensor.smart_meter_63a_power_factor_phase_1", -0.99)
assert_state("sensor.smart_meter_63a_power_factor_phase_2", -0.99)
assert_state("sensor.smart_meter_63a_power_factor_phase_3", 0.99)
assert_state("sensor.smart_meter_63a_power_factor", 1)
assert_state("sensor.smart_meter_63a_power_reactive_phase_1", 51.48)
assert_state("sensor.smart_meter_63a_power_reactive_phase_2", 115.63)
assert_state("sensor.smart_meter_63a_power_reactive_phase_3", -164.24)
assert_state("sensor.smart_meter_63a_power_reactive", 2.87)
assert_state("sensor.smart_meter_63a_power_real_phase_1", 1765.55)
assert_state("sensor.smart_meter_63a_power_real_phase_2", 1515.8)
assert_state("sensor.smart_meter_63a_power_real_phase_3", 2311.22)
assert_state("sensor.smart_meter_63a_power_real", 5592.57)
assert_state("sensor.smart_meter_63a_voltage_ac_phase_1", 228.6)
assert_state("sensor.smart_meter_63a_voltage_ac_phase_2", 228.6)
assert_state("sensor.smart_meter_63a_voltage_ac_phase_3", 231)
assert_state("sensor.smart_meter_63a_voltage_ac_phase_1_2", 395.9)
assert_state("sensor.smart_meter_63a_voltage_ac_phase_2_3", 398)
assert_state("sensor.smart_meter_63a_voltage_ac_phase_3_1", 398)
assert_state("sensor.smart_meter_63a_reactive_power_phase_1", 51.48)
assert_state("sensor.smart_meter_63a_reactive_power_phase_2", 115.63)
assert_state("sensor.smart_meter_63a_reactive_power_phase_3", -164.24)
assert_state("sensor.smart_meter_63a_reactive_power", 2.87)
assert_state("sensor.smart_meter_63a_real_power_phase_1", 1765.55)
assert_state("sensor.smart_meter_63a_real_power_phase_2", 1515.8)
assert_state("sensor.smart_meter_63a_real_power_phase_3", 2311.22)
assert_state("sensor.smart_meter_63a_real_power", 5592.57)
assert_state("sensor.smart_meter_63a_voltage_phase_1", 228.6)
assert_state("sensor.smart_meter_63a_voltage_phase_2", 228.6)
assert_state("sensor.smart_meter_63a_voltage_phase_3", 231)
assert_state("sensor.smart_meter_63a_voltage_phase_1_2", 395.9)
assert_state("sensor.smart_meter_63a_voltage_phase_2_3", 398)
assert_state("sensor.smart_meter_63a_voltage_phase_3_1", 398)
async def test_symo_power_flow(
@ -167,7 +167,7 @@ async def test_symo_power_flow(
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 52
# states are rounded to 4 decimals
assert_state("sensor.solarnet_energy_day", 10828)
assert_state("sensor.solarnet_energy_total", 44186900)
assert_state("sensor.solarnet_total_energy", 44186900)
assert_state("sensor.solarnet_energy_year", 25507686)
assert_state("sensor.solarnet_power_grid", 975.31)
assert_state("sensor.solarnet_power_load", -975.31)
@ -182,7 +182,7 @@ async def test_symo_power_flow(
# 54 because power_flow `rel_SelfConsumption` and `P_PV` is not `null` anymore
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 54
assert_state("sensor.solarnet_energy_day", 1101.7001)
assert_state("sensor.solarnet_energy_total", 44188000)
assert_state("sensor.solarnet_total_energy", 44188000)
assert_state("sensor.solarnet_energy_year", 25508788)
assert_state("sensor.solarnet_power_grid", 1703.74)
assert_state("sensor.solarnet_power_load", -2814.74)
@ -198,7 +198,7 @@ async def test_symo_power_flow(
await hass.async_block_till_done()
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 54
assert_state("sensor.solarnet_energy_day", 10828)
assert_state("sensor.solarnet_energy_total", 44186900)
assert_state("sensor.solarnet_total_energy", 44186900)
assert_state("sensor.solarnet_energy_year", 25507686)
assert_state("sensor.solarnet_power_grid", 975.31)
assert_state("sensor.solarnet_power_load", -975.31)
@ -224,52 +224,52 @@ async def test_gen24(hass: HomeAssistant, aioclient_mock: AiohttpClientMocker) -
)
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 52
# inverter 1
assert_state("sensor.inverter_name_current_ac", 0.1589)
assert_state("sensor.inverter_name_current_dc_2", 0.0754)
assert_state("sensor.inverter_name_ac_current", 0.1589)
assert_state("sensor.inverter_name_dc_current_2", 0.0754)
assert_state("sensor.inverter_name_status_code", 7)
assert_state("sensor.inverter_name_current_dc", 0.0783)
assert_state("sensor.inverter_name_voltage_dc_2", 403.4312)
assert_state("sensor.inverter_name_power_ac", 37.3204)
assert_state("sensor.inverter_name_dc_current", 0.0783)
assert_state("sensor.inverter_name_dc_voltage_2", 403.4312)
assert_state("sensor.inverter_name_ac_power", 37.3204)
assert_state("sensor.inverter_name_error_code", 0)
assert_state("sensor.inverter_name_voltage_dc", 411.3811)
assert_state("sensor.inverter_name_energy_total", 1530193.42)
assert_state("sensor.inverter_name_dc_voltage", 411.3811)
assert_state("sensor.inverter_name_total_energy", 1530193.42)
assert_state("sensor.inverter_name_inverter_state", "Running")
assert_state("sensor.inverter_name_voltage_ac", 234.9168)
assert_state("sensor.inverter_name_frequency_ac", 49.9917)
assert_state("sensor.inverter_name_ac_voltage", 234.9168)
assert_state("sensor.inverter_name_frequency", 49.9917)
# meter
assert_state("sensor.smart_meter_ts_65a_3_energy_real_produced", 3863340.0)
assert_state("sensor.smart_meter_ts_65a_3_energy_real_consumed", 2013105.0)
assert_state("sensor.smart_meter_ts_65a_3_power_real", 653.1)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_produced", 3863340.0)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_consumed", 2013105.0)
assert_state("sensor.smart_meter_ts_65a_3_real_power", 653.1)
assert_state("sensor.smart_meter_ts_65a_3_frequency_phase_average", 49.9)
assert_state("sensor.smart_meter_ts_65a_3_meter_location", 0.0)
assert_state("sensor.smart_meter_ts_65a_3_power_factor", 0.828)
assert_state("sensor.smart_meter_ts_65a_3_energy_reactive_ac_consumed", 88221.0)
assert_state("sensor.smart_meter_ts_65a_3_energy_real_ac_minus", 3863340.0)
assert_state("sensor.smart_meter_ts_65a_3_current_ac_phase_2", 2.33)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_1", 235.9)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_1_2", 408.7)
assert_state("sensor.smart_meter_ts_65a_3_power_real_phase_2", 294.9)
assert_state("sensor.smart_meter_ts_65a_3_energy_real_ac_plus", 2013105.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_2", 236.1)
assert_state("sensor.smart_meter_ts_65a_3_energy_reactive_ac_produced", 1989125.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_3", 236.9)
assert_state("sensor.smart_meter_ts_65a_3_reactive_energy_consumed", 88221.0)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_minus", 3863340.0)
assert_state("sensor.smart_meter_ts_65a_3_current_phase_2", 2.33)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_1", 235.9)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_1_2", 408.7)
assert_state("sensor.smart_meter_ts_65a_3_real_power_phase_2", 294.9)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_plus", 2013105.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_2", 236.1)
assert_state("sensor.smart_meter_ts_65a_3_reactive_energy_produced", 1989125.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_3", 236.9)
assert_state("sensor.smart_meter_ts_65a_3_power_factor_phase_1", 0.441)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_2_3", 409.6)
assert_state("sensor.smart_meter_ts_65a_3_current_ac_phase_3", 1.825)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_2_3", 409.6)
assert_state("sensor.smart_meter_ts_65a_3_current_phase_3", 1.825)
assert_state("sensor.smart_meter_ts_65a_3_power_factor_phase_3", 0.832)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent_phase_1", 243.3)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_3_1", 409.4)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent_phase_2", 323.4)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent_phase_3", 301.2)
assert_state("sensor.smart_meter_ts_65a_3_power_real_phase_1", 106.8)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power_phase_1", 243.3)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_3_1", 409.4)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power_phase_2", 323.4)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power_phase_3", 301.2)
assert_state("sensor.smart_meter_ts_65a_3_real_power_phase_1", 106.8)
assert_state("sensor.smart_meter_ts_65a_3_power_factor_phase_2", 0.934)
assert_state("sensor.smart_meter_ts_65a_3_power_real_phase_3", 251.3)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive_phase_1", -218.6)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive_phase_2", -132.8)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive_phase_3", -166.0)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent", 868.0)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive", -517.4)
assert_state("sensor.smart_meter_ts_65a_3_current_ac_phase_1", 1.145)
assert_state("sensor.smart_meter_ts_65a_3_real_power_phase_3", 251.3)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power_phase_1", -218.6)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power_phase_2", -132.8)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power_phase_3", -166.0)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power", 868.0)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power", -517.4)
assert_state("sensor.smart_meter_ts_65a_3_current_phase_1", 1.145)
# power_flow
assert_state("sensor.solarnet_power_grid", 658.4)
assert_state("sensor.solarnet_relative_self_consumption", 100.0)
@ -277,7 +277,7 @@ async def test_gen24(hass: HomeAssistant, aioclient_mock: AiohttpClientMocker) -
assert_state("sensor.solarnet_power_load", -695.6827)
assert_state("sensor.solarnet_meter_mode", "meter")
assert_state("sensor.solarnet_relative_autonomy", 5.3592)
assert_state("sensor.solarnet_energy_total", 1530193.42)
assert_state("sensor.solarnet_total_energy", 1530193.42)
async def test_gen24_storage(
@ -301,56 +301,56 @@ async def test_gen24_storage(
)
assert len(hass.states.async_all(domain_filter=SENSOR_DOMAIN)) == 64
# inverter 1
assert_state("sensor.gen24_storage_current_dc", 0.3952)
assert_state("sensor.gen24_storage_voltage_dc_2", 318.8103)
assert_state("sensor.gen24_storage_current_dc_2", 0.3564)
assert_state("sensor.gen24_storage_current_ac", 1.1087)
assert_state("sensor.gen24_storage_power_ac", 250.9093)
assert_state("sensor.gen24_storage_dc_current", 0.3952)
assert_state("sensor.gen24_storage_dc_voltage_2", 318.8103)
assert_state("sensor.gen24_storage_dc_current_2", 0.3564)
assert_state("sensor.gen24_storage_ac_current", 1.1087)
assert_state("sensor.gen24_storage_ac_power", 250.9093)
assert_state("sensor.gen24_storage_error_code", 0)
assert_state("sensor.gen24_storage_status_code", 7)
assert_state("sensor.gen24_storage_energy_total", 7512794.0117)
assert_state("sensor.gen24_storage_total_energy", 7512794.0117)
assert_state("sensor.gen24_storage_inverter_state", "Running")
assert_state("sensor.gen24_storage_voltage_dc", 419.1009)
assert_state("sensor.gen24_storage_voltage_ac", 227.354)
assert_state("sensor.gen24_storage_frequency_ac", 49.9816)
assert_state("sensor.gen24_storage_dc_voltage", 419.1009)
assert_state("sensor.gen24_storage_ac_voltage", 227.354)
assert_state("sensor.gen24_storage_frequency", 49.9816)
# meter
assert_state("sensor.smart_meter_ts_65a_3_energy_real_produced", 1705128.0)
assert_state("sensor.smart_meter_ts_65a_3_power_real", 487.7)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_produced", 1705128.0)
assert_state("sensor.smart_meter_ts_65a_3_real_power", 487.7)
assert_state("sensor.smart_meter_ts_65a_3_power_factor", 0.698)
assert_state("sensor.smart_meter_ts_65a_3_energy_real_consumed", 1247204.0)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_consumed", 1247204.0)
assert_state("sensor.smart_meter_ts_65a_3_frequency_phase_average", 49.9)
assert_state("sensor.smart_meter_ts_65a_3_meter_location", 0.0)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive", -501.5)
assert_state("sensor.smart_meter_ts_65a_3_energy_reactive_ac_produced", 3266105.0)
assert_state("sensor.smart_meter_ts_65a_3_power_real_phase_3", 19.6)
assert_state("sensor.smart_meter_ts_65a_3_current_ac_phase_3", 0.645)
assert_state("sensor.smart_meter_ts_65a_3_energy_real_ac_minus", 1705128.0)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent_phase_2", 383.9)
assert_state("sensor.smart_meter_ts_65a_3_current_ac_phase_1", 1.701)
assert_state("sensor.smart_meter_ts_65a_3_current_ac_phase_2", 1.832)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent_phase_1", 319.5)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_1", 229.4)
assert_state("sensor.smart_meter_ts_65a_3_power_real_phase_2", 150.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_3_1", 394.3)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_2", 225.6)
assert_state("sensor.smart_meter_ts_65a_3_energy_reactive_ac_consumed", 5482.0)
assert_state("sensor.smart_meter_ts_65a_3_energy_real_ac_plus", 1247204.0)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power", -501.5)
assert_state("sensor.smart_meter_ts_65a_3_reactive_energy_produced", 3266105.0)
assert_state("sensor.smart_meter_ts_65a_3_real_power_phase_3", 19.6)
assert_state("sensor.smart_meter_ts_65a_3_current_phase_3", 0.645)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_minus", 1705128.0)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power_phase_2", 383.9)
assert_state("sensor.smart_meter_ts_65a_3_current_phase_1", 1.701)
assert_state("sensor.smart_meter_ts_65a_3_current_phase_2", 1.832)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power_phase_1", 319.5)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_1", 229.4)
assert_state("sensor.smart_meter_ts_65a_3_real_power_phase_2", 150.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_3_1", 394.3)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_2", 225.6)
assert_state("sensor.smart_meter_ts_65a_3_reactive_energy_consumed", 5482.0)
assert_state("sensor.smart_meter_ts_65a_3_real_energy_plus", 1247204.0)
assert_state("sensor.smart_meter_ts_65a_3_power_factor_phase_1", 0.995)
assert_state("sensor.smart_meter_ts_65a_3_power_factor_phase_3", 0.163)
assert_state("sensor.smart_meter_ts_65a_3_power_factor_phase_2", 0.389)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive_phase_1", -31.3)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive_phase_3", -116.7)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_1_2", 396.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_2_3", 393.0)
assert_state("sensor.smart_meter_ts_65a_3_power_reactive_phase_2", -353.4)
assert_state("sensor.smart_meter_ts_65a_3_power_real_phase_1", 317.9)
assert_state("sensor.smart_meter_ts_65a_3_voltage_ac_phase_3", 228.3)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent", 821.9)
assert_state("sensor.smart_meter_ts_65a_3_power_apparent_phase_3", 118.4)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power_phase_1", -31.3)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power_phase_3", -116.7)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_1_2", 396.0)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_2_3", 393.0)
assert_state("sensor.smart_meter_ts_65a_3_reactive_power_phase_2", -353.4)
assert_state("sensor.smart_meter_ts_65a_3_real_power_phase_1", 317.9)
assert_state("sensor.smart_meter_ts_65a_3_voltage_phase_3", 228.3)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power", 821.9)
assert_state("sensor.smart_meter_ts_65a_3_apparent_power_phase_3", 118.4)
# ohmpilot
assert_state("sensor.ohmpilot_energy_consumed", 1233295.0)
assert_state("sensor.ohmpilot_power", 0.0)
assert_state("sensor.ohmpilot_temperature_channel_1", 38.9)
assert_state("sensor.ohmpilot_temperature", 38.9)
assert_state("sensor.ohmpilot_state_code", 0.0)
assert_state("sensor.ohmpilot_state_message", "Up and running")
# power_flow
@ -361,14 +361,14 @@ async def test_gen24_storage(
assert_state("sensor.solarnet_power_photovoltaics", 216.4328)
assert_state("sensor.solarnet_relative_autonomy", 7.4984)
assert_state("sensor.solarnet_meter_mode", "bidirectional")
assert_state("sensor.solarnet_energy_total", 7512664.4042)
assert_state("sensor.solarnet_total_energy", 7512664.4042)
# storage
assert_state("sensor.byd_battery_box_premium_hv_current_dc", 0.0)
assert_state("sensor.byd_battery_box_premium_hv_dc_current", 0.0)
assert_state("sensor.byd_battery_box_premium_hv_state_of_charge", 4.6)
assert_state("sensor.byd_battery_box_premium_hv_capacity_maximum", 16588)
assert_state("sensor.byd_battery_box_premium_hv_temperature_cell", 21.5)
assert_state("sensor.byd_battery_box_premium_hv_capacity_designed", 16588)
assert_state("sensor.byd_battery_box_premium_hv_voltage_dc", 0.0)
assert_state("sensor.byd_battery_box_premium_hv_maximum_capacity", 16588)
assert_state("sensor.byd_battery_box_premium_hv_temperature", 21.5)
assert_state("sensor.byd_battery_box_premium_hv_designed_capacity", 16588)
assert_state("sensor.byd_battery_box_premium_hv_dc_voltage", 0.0)
# Devices
device_registry = dr.async_get(hass)
@ -427,36 +427,36 @@ async def test_primo_s0(
assert_state("sensor.solarnet_co2_factor", 0.53)
assert_state("sensor.solarnet_grid_import_tariff", 1)
# inverter 1
assert_state("sensor.primo_5_0_1_energy_total", 17114940)
assert_state("sensor.primo_5_0_1_total_energy", 17114940)
assert_state("sensor.primo_5_0_1_energy_day", 22504)
assert_state("sensor.primo_5_0_1_voltage_dc", 452.3)
assert_state("sensor.primo_5_0_1_power_ac", 862)
assert_state("sensor.primo_5_0_1_dc_voltage", 452.3)
assert_state("sensor.primo_5_0_1_ac_power", 862)
assert_state("sensor.primo_5_0_1_error_code", 0)
assert_state("sensor.primo_5_0_1_current_dc", 4.23)
assert_state("sensor.primo_5_0_1_dc_current", 4.23)
assert_state("sensor.primo_5_0_1_status_code", 7)
assert_state("sensor.primo_5_0_1_energy_year", 7532755.5)
assert_state("sensor.primo_5_0_1_current_ac", 3.85)
assert_state("sensor.primo_5_0_1_voltage_ac", 223.9)
assert_state("sensor.primo_5_0_1_frequency_ac", 60)
assert_state("sensor.primo_5_0_1_ac_current", 3.85)
assert_state("sensor.primo_5_0_1_ac_voltage", 223.9)
assert_state("sensor.primo_5_0_1_frequency", 60)
assert_state("sensor.primo_5_0_1_led_color", 2)
assert_state("sensor.primo_5_0_1_led_state", 0)
# inverter 2
assert_state("sensor.primo_3_0_1_energy_total", 5796010)
assert_state("sensor.primo_3_0_1_total_energy", 5796010)
assert_state("sensor.primo_3_0_1_energy_day", 14237)
assert_state("sensor.primo_3_0_1_voltage_dc", 329.5)
assert_state("sensor.primo_3_0_1_power_ac", 296)
assert_state("sensor.primo_3_0_1_dc_voltage", 329.5)
assert_state("sensor.primo_3_0_1_ac_power", 296)
assert_state("sensor.primo_3_0_1_error_code", 0)
assert_state("sensor.primo_3_0_1_current_dc", 0.97)
assert_state("sensor.primo_3_0_1_dc_current", 0.97)
assert_state("sensor.primo_3_0_1_status_code", 7)
assert_state("sensor.primo_3_0_1_energy_year", 3596193.25)
assert_state("sensor.primo_3_0_1_current_ac", 1.32)
assert_state("sensor.primo_3_0_1_voltage_ac", 223.6)
assert_state("sensor.primo_3_0_1_frequency_ac", 60.01)
assert_state("sensor.primo_3_0_1_ac_current", 1.32)
assert_state("sensor.primo_3_0_1_ac_voltage", 223.6)
assert_state("sensor.primo_3_0_1_frequency", 60.01)
assert_state("sensor.primo_3_0_1_led_color", 2)
assert_state("sensor.primo_3_0_1_led_state", 0)
# meter
assert_state("sensor.s0_meter_at_inverter_1_meter_location", 1)
assert_state("sensor.s0_meter_at_inverter_1_power_real", -2216.7487)
assert_state("sensor.s0_meter_at_inverter_1_real_power", -2216.7487)
# power_flow
assert_state("sensor.solarnet_power_load", -2218.9349)
assert_state("sensor.solarnet_meter_mode", "vague-meter")
@ -464,7 +464,7 @@ async def test_primo_s0(
assert_state("sensor.solarnet_power_grid", 384.9349)
assert_state("sensor.solarnet_relative_self_consumption", 100)
assert_state("sensor.solarnet_relative_autonomy", 82.6523)
assert_state("sensor.solarnet_energy_total", 22910919.5)
assert_state("sensor.solarnet_total_energy", 22910919.5)
assert_state("sensor.solarnet_energy_day", 36724)
assert_state("sensor.solarnet_energy_year", 11128933.25)