Submodules¶
pysma.const module¶
Constants for SMA WebConnect library for Python.
pysma.definitions module¶
Sensor definitions for SMA WebConnect library for Python.
- pysma.definitions.battery_capacity_a = Sensor(key='6100_00499100', name='battery_capacity_a', unit='%', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Capacity battery A
- pysma.definitions.battery_capacity_b = Sensor(key='6100_00499100', name='battery_capacity_b', unit='%', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Capacity battery B
- pysma.definitions.battery_capacity_c = Sensor(key='6100_00499100', name='battery_capacity_c', unit='%', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Capacity battery C
- pysma.definitions.battery_capacity_total = Sensor(key='6100_00696E00', name='battery_capacity_total', unit='%', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Total battery capacity
- pysma.definitions.battery_charge_a = Sensor(key='6400_00499500', name='battery_charge_a', unit='kWh', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Charge battery A
- pysma.definitions.battery_charge_b = Sensor(key='6400_00499500', name='battery_charge_b', unit='kWh', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Charge battery B
- pysma.definitions.battery_charge_c = Sensor(key='6400_00499500', name='battery_charge_c', unit='kWh', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Charge battery C
- pysma.definitions.battery_charge_total = Sensor(key='6400_00496700', name='battery_charge_total', unit='kWh', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total charge
- pysma.definitions.battery_charging_voltage_a = Sensor(key='6102_00493500', name='battery_charging_voltage_a', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Charging voltage battery A
- pysma.definitions.battery_charging_voltage_b = Sensor(key='6102_00493500', name='battery_charging_voltage_b', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Charging voltage battery B
- pysma.definitions.battery_charging_voltage_c = Sensor(key='6102_00493500', name='battery_charging_voltage_c', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Charging voltage battery C
- pysma.definitions.battery_current_a = Sensor(key='6100_40495D00', name='battery_current_a', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current battery A
- pysma.definitions.battery_current_b = Sensor(key='6100_40495D00', name='battery_current_b', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current battery B
- pysma.definitions.battery_current_c = Sensor(key='6100_40495D00', name='battery_current_c', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current battery C
- pysma.definitions.battery_discharge_a = Sensor(key='6400_00499600', name='battery_discharge_a', unit='kWh', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Discharge battery A
- pysma.definitions.battery_discharge_b = Sensor(key='6400_00499600', name='battery_discharge_b', unit='kWh', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Discharge battery B
- pysma.definitions.battery_discharge_c = Sensor(key='6400_00499600', name='battery_discharge_c', unit='kWh', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Discharge battery C
- pysma.definitions.battery_discharge_total = Sensor(key='6400_00496800', name='battery_discharge_total', unit='kWh', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total discharge
- pysma.definitions.battery_power_charge_a = Sensor(key='6100_00499300', name='battery_power_charge_a', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Charging power battery A
- pysma.definitions.battery_power_charge_b = Sensor(key='6100_00499300', name='battery_power_charge_b', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Charging power battery B
- pysma.definitions.battery_power_charge_c = Sensor(key='6100_00499300', name='battery_power_charge_c', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Charging power battery C
- pysma.definitions.battery_power_charge_total = Sensor(key='6100_00496900', name='battery_power_charge_total', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Total charging power
- pysma.definitions.battery_power_discharge_a = Sensor(key='6100_00499400', name='battery_power_discharge_a', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Disharging power battery A
- pysma.definitions.battery_power_discharge_b = Sensor(key='6100_00499400', name='battery_power_discharge_b', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Disharging power battery B
- pysma.definitions.battery_power_discharge_c = Sensor(key='6100_00499400', name='battery_power_discharge_c', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Disharging power battery C
- pysma.definitions.battery_power_discharge_total = Sensor(key='6100_00496A00', name='battery_power_discharge_total', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Total discharging power
- pysma.definitions.battery_soc_a = Sensor(key='6100_00498F00', name='battery_soc_a', unit='%', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
State of charge battery A
- pysma.definitions.battery_soc_b = Sensor(key='6100_00498F00', name='battery_soc_b', unit='%', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
State of charge battery B
- pysma.definitions.battery_soc_c = Sensor(key='6100_00498F00', name='battery_soc_c', unit='%', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
State of charge battery C
- pysma.definitions.battery_soc_total = Sensor(key='6100_00295A00', name='battery_soc_total', unit='%', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Total battery state of charge
- pysma.definitions.battery_status_operating_mode = Sensor(key='6180_08495E00', name='battery_status_operating_mode', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=True, l10n_translate=True, value=None)¶
Battery status operating mode
- pysma.definitions.battery_temp_a = Sensor(key='6100_40495B00', name='battery_temp_a', unit='C', factor=10, path=None, enabled=True, l10n_translate=False, value=None)¶
Temperature battery A
- pysma.definitions.battery_temp_b = Sensor(key='6100_40495B00', name='battery_temp_b', unit='C', factor=10, path=None, enabled=True, l10n_translate=False, value=None)¶
Temperature battery B
- pysma.definitions.battery_temp_c = Sensor(key='6100_40495B00', name='battery_temp_c', unit='C', factor=10, path=None, enabled=True, l10n_translate=False, value=None)¶
Temperature battery C
- pysma.definitions.battery_voltage_a = Sensor(key='6100_00495C00', name='battery_voltage_a', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage battery A
- pysma.definitions.battery_voltage_b = Sensor(key='6100_00495C00', name='battery_voltage_b', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage battery B
- pysma.definitions.battery_voltage_c = Sensor(key='6100_00495C00', name='battery_voltage_c', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage battery C
- pysma.definitions.current_l1 = Sensor(key='6100_40465300', name='current_l1', unit='A', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Current for phase 1
- pysma.definitions.current_l2 = Sensor(key='6100_40465400', name='current_l2', unit='A', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Current for phase 2
- pysma.definitions.current_l3 = Sensor(key='6100_40465500', name='current_l3', unit='A', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Current for phase 3
- pysma.definitions.current_total = Sensor(key='6100_00664F00', name='current_total', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total Current
- pysma.definitions.daily_yield = Sensor(key='6400_00262200', name='daily_yield', unit='Wh', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
The solar plant’s yield for today
- pysma.definitions.device_manufacturer = Sensor(key='6800_08822B00', name='device_manufacturer', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=True, l10n_translate=True, value=None)¶
Device manufactorer
- pysma.definitions.device_name = Sensor(key='6800_10821E00', name='device_name', unit='', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Device name
- pysma.definitions.device_sw_version = Sensor(key='6800_00823400', name='device_sw_version', unit='', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Device software version
- pysma.definitions.device_type = Sensor(key='6800_08822000', name='device_type', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=True, l10n_translate=True, value=None)¶
Device type
- pysma.definitions.energy_meter = Sensor(key='6800_008AA300', name='energy_meter', unit='', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Serial number of energy meter
- pysma.definitions.frequency = Sensor(key='6100_00465700', name='frequency', unit='Hz', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Grid frequency
- pysma.definitions.grid_apparent_power = Sensor(key='6100_40666700', name='grid_apparent_power', unit='VA', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Total Apparent Power
- pysma.definitions.grid_apparent_power_l1 = Sensor(key='6100_40666800', name='grid_apparent_power_l1', unit='VA', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Apparent Power for phase 1
- pysma.definitions.grid_apparent_power_l2 = Sensor(key='6100_40666900', name='grid_apparent_power_l2', unit='VA', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Apparent Power for phase 2
- pysma.definitions.grid_apparent_power_l3 = Sensor(key='6100_40666A00', name='grid_apparent_power_l3', unit='VA', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Apparent Power for phase 3
- pysma.definitions.grid_connection_status = Sensor(key='6180_0846A700', name='grid_connection_status', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=False, l10n_translate=True, value=None)¶
Grid connection status
- pysma.definitions.grid_power = Sensor(key='6100_40263F00', name='grid_power', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Power supplied to the grid. grid_power = power_l1 + power_l2 + power_l3
- pysma.definitions.grid_power_factor = Sensor(key='6100_00665900', name='grid_power_factor', unit='', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Grid Power factor
- pysma.definitions.grid_power_factor_excitation = Sensor(key='6180_08465A00', name='grid_power_factor_excitation', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=False, l10n_translate=True, value=None)¶
Grid Power factor excitation
- pysma.definitions.grid_reactive_power = Sensor(key='6100_40265F00', name='grid_reactive_power', unit='var', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Total Reactive Power
- pysma.definitions.grid_reactive_power_l1 = Sensor(key='6100_40666000', name='grid_reactive_power_l1', unit='var', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Reactive Power for phase 1
- pysma.definitions.grid_reactive_power_l2 = Sensor(key='6100_40666100', name='grid_reactive_power_l2', unit='var', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Reactive Power for phase 2
- pysma.definitions.grid_reactive_power_l3 = Sensor(key='6100_40666200', name='grid_reactive_power_l3', unit='var', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Reactive Power for phase 3
- pysma.definitions.grid_relay_status = Sensor(key='6180_08416400', name='grid_relay_status', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=False, l10n_translate=True, value=None)¶
Grid relay status
- pysma.definitions.insulation_residual_current = Sensor(key='6102_40254E00', name='insulation_residual_current', unit='mA', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Insulation residual current
- pysma.definitions.inverter_condition = Sensor(key='6180_08414C00', name='inverter_condition', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=False, l10n_translate=True, value=None)¶
General operating status
- pysma.definitions.inverter_power_limit = Sensor(key='6800_00832A00', name='inverter_power_limit', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Power limit of the Inverter
- pysma.definitions.inverter_system_init = Sensor(key='6800_08811F00', name='inverter_system_init', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=False, l10n_translate=True, value=None)¶
Inverter Condition
- pysma.definitions.metering_active_power_consumed_l1 = Sensor(key='6100_0046EB00', name='metering_active_power_consumed_l1', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Active Power Consumed for phase 1 measured by energy meter
- pysma.definitions.metering_active_power_consumed_l2 = Sensor(key='6100_0046EC00', name='metering_active_power_consumed_l2', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Active Power Consumed for phase 2 measured by energy meter
- pysma.definitions.metering_active_power_consumed_l3 = Sensor(key='6100_0046ED00', name='metering_active_power_consumed_l3', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Active Power Consumed for phase 3 measured by energy meter
- pysma.definitions.metering_active_power_l1 = Sensor(key='6100_0046E800', name='metering_active_power_l1', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Active Power for phase 1 measured by energy meter
- pysma.definitions.metering_active_power_l2 = Sensor(key='6100_0046E900', name='metering_active_power_l2', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Active Power for phase 2 measured by energy meter
- pysma.definitions.metering_active_power_l3 = Sensor(key='6100_0046EA00', name='metering_active_power_l3', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Active Power for phase 3 measured by energy meter
- pysma.definitions.metering_current_l1 = Sensor(key='6100_40466500', name='metering_current_l1', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current for phase 1 measured by energy meter
- pysma.definitions.metering_current_l2 = Sensor(key='6100_40466600', name='metering_current_l2', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current for phase 2 measured by energy meter
- pysma.definitions.metering_current_l3 = Sensor(key='6100_40466B00', name='metering_current_l3', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current for phase 3 measured by energy meter
- pysma.definitions.metering_frequency = Sensor(key='6100_00468100', name='metering_frequency', unit='Hz', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Grid frequency measured by energy meter
- pysma.definitions.metering_power_absorbed = Sensor(key='6100_40463700', name='metering_power_absorbed', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Power absorbed fromgrid measured by energy meter
- pysma.definitions.metering_power_supplied = Sensor(key='6100_40463600', name='metering_power_supplied', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Power supplied to grid measured by energy meter
- pysma.definitions.metering_total_absorbed = Sensor(key='6400_00462500', name='metering_total_absorbed', unit='kWh', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total power from the grid measured by energy meter
- pysma.definitions.metering_total_yield = Sensor(key='6400_00462400', name='metering_total_yield', unit='kWh', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total power supplied to the grid measured by energy meter
- pysma.definitions.metering_voltage_l1 = Sensor(key='6100_0046E500', name='metering_voltage_l1', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage for phase 1 measured by energy meter
- pysma.definitions.metering_voltage_l2 = Sensor(key='6100_0046E600', name='metering_voltage_l2', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage for phase 2 measured by energy meter
- pysma.definitions.metering_voltage_l3 = Sensor(key='6100_0046E700', name='metering_voltage_l3', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage for phase 3 measured by energy meter
- pysma.definitions.operating_status_general = Sensor(key='6180_08412800', name='operating_status_general', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=False, l10n_translate=True, value=None)¶
General operating status
- pysma.definitions.optimizer_current = Sensor(key='6100_40652900', name='optimizer_current', unit='A', factor=1000, path=None, enabled=False, l10n_translate=False, value=None)¶
Current supplied by optimizer
- pysma.definitions.optimizer_power = Sensor(key='6100_40652A00', name='optimizer_power', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Power supplied by optimizer
- pysma.definitions.optimizer_serial = Sensor(key='6800_10852600', name='optimizer_serial', unit='', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Serial number of optimizer
- pysma.definitions.optimizer_temp = Sensor(key='6100_40652B00', name='optimizer_temp', unit='C', factor=10, path=None, enabled=False, l10n_translate=False, value=None)¶
Temperature of optimizer
- pysma.definitions.optimizer_voltage = Sensor(key='6100_40652800', name='optimizer_voltage', unit='V', factor=100, path=None, enabled=False, l10n_translate=False, value=None)¶
Voltage supplied by optimizer
- pysma.definitions.power_l1 = Sensor(key='6100_40464000', name='power_l1', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Power for phase 1
- pysma.definitions.power_l2 = Sensor(key='6100_40464100', name='power_l2', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Power for phase 2
- pysma.definitions.power_l3 = Sensor(key='6100_40464200', name='power_l3', unit='W', factor=None, path=None, enabled=False, l10n_translate=False, value=None)¶
Power for phase 3
- pysma.definitions.pv_current_a = Sensor(key='6380_40452100', name='pv_current_a', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current amperage generated by the solar panels (A side)
- pysma.definitions.pv_current_b = Sensor(key='6380_40452100', name='pv_current_b', unit='A', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Current amperage generated by the solar panels (B side)
- pysma.definitions.pv_gen_meter = Sensor(key='6400_0046C300', name='pv_gen_meter', unit='kWh', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total kWh generated to date
- pysma.definitions.pv_power_a = Sensor(key='6380_40251E00', name='pv_power_a', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Current power generated by the solar panels (A side)
- pysma.definitions.pv_power_b = Sensor(key='6380_40251E00', name='pv_power_b', unit='W', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Current power generated by the solar panels (B side)
- pysma.definitions.pv_voltage_a = Sensor(key='6380_40451F00', name='pv_voltage_a', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Current voltage generated by the solar panels (A side)
- pysma.definitions.pv_voltage_b = Sensor(key='6380_40451F00', name='pv_voltage_b', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Current voltage generated by the solar panels (B side)
- pysma.definitions.serial_number = Sensor(key='6800_00A21E00', name='serial_number', unit='', factor=None, path=None, enabled=True, l10n_translate=False, value=None)¶
Device serial number
- pysma.definitions.status = Sensor(key='6180_08214800', name='status', unit='', factor=None, path=('"{}"[{}].val[0].tag', 'val[0].tag'), enabled=True, l10n_translate=True, value=None)¶
Status of the device
- pysma.definitions.total_yield = Sensor(key='6400_00260100', name='total_yield', unit='kWh', factor=1000, path=None, enabled=True, l10n_translate=False, value=None)¶
Total power yield from a solar installation
- pysma.definitions.voltage_l1 = Sensor(key='6100_00464800', name='voltage_l1', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage for phase 1
- pysma.definitions.voltage_l2 = Sensor(key='6100_00464900', name='voltage_l2', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage for phase 2
- pysma.definitions.voltage_l3 = Sensor(key='6100_00464A00', name='voltage_l3', unit='V', factor=100, path=None, enabled=True, l10n_translate=False, value=None)¶
Voltage for phase 3
pysma.exceptions module¶
Exceptions for the pysma library.
- exception pysma.exceptions.SmaAuthenticationException¶
Bases:
pysma.exceptions.SmaException
An attempt to authenticate failed.
- exception pysma.exceptions.SmaConnectionException¶
Bases:
pysma.exceptions.SmaException
An error occurred in the connection with the device.
- exception pysma.exceptions.SmaException¶
Bases:
Exception
Base exception of the pysma library.
- exception pysma.exceptions.SmaReadException¶
Bases:
pysma.exceptions.SmaException
Reading the data did not return an expected result.
pysma.helpers module¶
Helper functions for the pysma library.
- pysma.helpers.version_int_to_string(version_integer: int) → str¶
Convert a version integer to a readable string.
- Parameters
version_integer (int) – The version integer, as retrieved from the device.
- Returns
The version translated to a readable string.
- Return type
str
pysma.sensor module¶
Sensor classes for SMA WebConnect library for Python.
- class pysma.sensor.Sensor(key: str, name: str, unit: str = '', factor: Optional[int] = None, path: Optional[Union[list, tuple]] = None, enabled: bool = True, l10n_translate: bool = False)¶
Bases:
object
pysma sensor.
Method generated by attrs for class Sensor.
- enabled¶
- extract_value(result_body: dict, l10n: Optional[dict] = None, devclass: str = '1') → bool¶
Extract value from json body.
- Parameters
result_body (dict) – json body retrieved from device
l10n (dict, optional) – Dictionary to translate tags to strings. Defaults to None.
devclass (str, optional) – The device class of the device used to extract the value. Defaults to “1”.
- Returns
Extracting value successful
- Return type
bool
- factor¶
- key¶
- key_idx¶
- l10n_translate¶
- name¶
- path¶
- unit¶
- value¶
- class pysma.sensor.Sensors(sensors: Optional[Union[pysma.sensor.Sensor, List[pysma.sensor.Sensor]]] = None)¶
Bases:
object
SMA Sensors.
Init Sensors.
- Parameters
sensors (Union[Sensor, List[Sensor], None], optional) – One or a list of sensors to add on init. Defaults to None.
- add(sensor: Union[pysma.sensor.Sensor, List[pysma.sensor.Sensor]]) → None¶
Add a sensor, logs warning if it exists.
A copy of sensor, or the sensors in the list, will be added. If the sensor name already exists it will be overwritten. If the sensor key already exists it will not be added.