from ....Internal.Core import Core
from ....Internal.CommandsGroup import CommandsGroup
from ....Internal.StructBase import StructBase
from ....Internal.ArgStruct import ArgStruct
from .... import enums
# noinspection PyPep8Naming,PyAttributeOutsideInit,SpellCheckingInspection
[docs]class DbfDiversity:
"""DbfDiversity commands group definition. 4 total commands, 1 Sub-groups, 2 group commands"""
def __init__(self, core: Core, parent):
self._core = core
self._base = CommandsGroup("dbfDiversity", core, parent)
@property
def flexible(self):
"""flexible commands group. 0 Sub-classes, 2 commands."""
if not hasattr(self, '_flexible'):
from .DbfDiversity_.Flexible import Flexible
self._flexible = Flexible(self._core, self._base)
return self._flexible
# noinspection PyTypeChecker
[docs] class ExternalStruct(StructBase):
"""Structure for reading output parameters. Fields: \n
- Rx_Connector: enums.RxConnector: RF connector for the input path
- Rx_Converter: enums.RxConverter: RX module for the input path
- Tx_Connector: enums.TxConnector: RF connector for the first output path of the carrier one
- Tx_Converter: enums.TxConverter: TX module for the first output path of the carrier one. Select different modules for each of the paths.
- Tx_2_Connector: enums.TxConnector: RF connector for the second output path of the carrier one
- Tx_2_Converter: enums.TxConverter: TX module for the second output path of the carrier one
- Tx_3_Connector: enums.TxConnector: RF connector for the first output path of the carrier two
- Tx_3_Converter: enums.TxConverter: TX module for the first output path of the carrier two
- Tx_4_Connector: enums.TxConnector: RF connector for the second output path of the carrier two
- Tx_4_Converter: enums.TxConverter: TX module for the second output path of the carrier two
- Iq_Connector: enums.TxConnector: DIG IQ OUT connector for external fading of the first output path of the carrier one
- Iq_2_Connector: enums.TxConnector: DIG IQ OUT connector for external fading of the second output path of the carrier one
- Iq_3_Connector: enums.TxConnector: DIG IQ OUT connector for external fading of the first output path of the carrier two
- Iq_4_Connector: enums.TxConnector: DIG IQ OUT connector for external fading of the second output path of the carrier two"""
__meta_args_list = [
ArgStruct.scalar_enum('Rx_Connector', enums.RxConnector),
ArgStruct.scalar_enum('Rx_Converter', enums.RxConverter),
ArgStruct.scalar_enum('Tx_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Tx_2_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_2_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Tx_3_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_3_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Tx_4_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_4_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Iq_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Iq_2_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Iq_3_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Iq_4_Connector', enums.TxConnector)]
def __init__(self):
StructBase.__init__(self, self)
self.Rx_Connector: enums.RxConnector = None
self.Rx_Converter: enums.RxConverter = None
self.Tx_Connector: enums.TxConnector = None
self.Tx_Converter: enums.TxConverter = None
self.Tx_2_Connector: enums.TxConnector = None
self.Tx_2_Converter: enums.TxConverter = None
self.Tx_3_Connector: enums.TxConnector = None
self.Tx_3_Converter: enums.TxConverter = None
self.Tx_4_Connector: enums.TxConnector = None
self.Tx_4_Converter: enums.TxConverter = None
self.Iq_Connector: enums.TxConnector = None
self.Iq_2_Connector: enums.TxConnector = None
self.Iq_3_Connector: enums.TxConnector = None
self.Iq_4_Connector: enums.TxConnector = None
# noinspection PyTypeChecker
[docs] def get_external(self) -> ExternalStruct:
"""SCPI: ROUTe:WCDMa:SIGNaling<instance>:SCENario:DBFDiversity[:EXTernal] \n
Snippet: value: ExternalStruct = driver.route.scenario.dbfDiversity.get_external() \n
Activates the 'Dual Carrier / Dual Band RX Diversity Fading: External' scenario and selects the signal paths.
For possible connector and converter values, see 'Values for Signal Path Selection'. \n
:return: structure: for return value, see the help for ExternalStruct structure arguments.
"""
return self._core.io.query_struct('ROUTe:WCDMa:SIGNaling<Instance>:SCENario:DBFDiversity:EXTernal?', self.__class__.ExternalStruct())
[docs] def set_external(self, value: ExternalStruct) -> None:
"""SCPI: ROUTe:WCDMa:SIGNaling<instance>:SCENario:DBFDiversity[:EXTernal] \n
Snippet: driver.route.scenario.dbfDiversity.set_external(value = ExternalStruct()) \n
Activates the 'Dual Carrier / Dual Band RX Diversity Fading: External' scenario and selects the signal paths.
For possible connector and converter values, see 'Values for Signal Path Selection'. \n
:param value: see the help for ExternalStruct structure arguments.
"""
self._core.io.write_struct('ROUTe:WCDMa:SIGNaling<Instance>:SCENario:DBFDiversity:EXTernal', value)
# noinspection PyTypeChecker
[docs] class InternalStruct(StructBase):
"""Structure for reading output parameters. Fields: \n
- Rx_Connector: enums.RxConnector: RF connector for the input path
- Rx_Converter: enums.RxConverter: RX module for the input path
- Tx_Connector: enums.TxConnector: RF connector for the first output path of the carrier one
- Tx_Converter: enums.TxConverter: TX module for the first output path of the carrier one. Select different modules for each of the paths.
- Tx_2_Connector: enums.TxConnector: RF connector for the second output path of the carrier one
- Tx_2_Converter: enums.TxConverter: TX module for the second output path of the carrier one
- Tx_3_Connector: enums.TxConnector: RF connector for the first output path of the carrier two
- Tx_3_Converter: enums.TxConverter: TX module for the first output path of the carrier two
- Tx_4_Connector: enums.TxConnector: RF connector for the second output path of the carrier two
- Tx_4_Converter: enums.TxConverter: TX module for the second output path of the carrier two
- Fader_1: enums.Fader: Internal fader used for the second output path of carrier one.
- Fader_2: enums.Fader: Internal fader used for the second output path of carrier two. Select different boards for the two carriers."""
__meta_args_list = [
ArgStruct.scalar_enum('Rx_Connector', enums.RxConnector),
ArgStruct.scalar_enum('Rx_Converter', enums.RxConverter),
ArgStruct.scalar_enum('Tx_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Tx_2_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_2_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Tx_3_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_3_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Tx_4_Connector', enums.TxConnector),
ArgStruct.scalar_enum('Tx_4_Converter', enums.TxConverter),
ArgStruct.scalar_enum('Fader_1', enums.Fader),
ArgStruct.scalar_enum('Fader_2', enums.Fader)]
def __init__(self):
StructBase.__init__(self, self)
self.Rx_Connector: enums.RxConnector = None
self.Rx_Converter: enums.RxConverter = None
self.Tx_Connector: enums.TxConnector = None
self.Tx_Converter: enums.TxConverter = None
self.Tx_2_Connector: enums.TxConnector = None
self.Tx_2_Converter: enums.TxConverter = None
self.Tx_3_Connector: enums.TxConnector = None
self.Tx_3_Converter: enums.TxConverter = None
self.Tx_4_Connector: enums.TxConnector = None
self.Tx_4_Converter: enums.TxConverter = None
self.Fader_1: enums.Fader = None
self.Fader_2: enums.Fader = None
# noinspection PyTypeChecker
[docs] def get_internal(self) -> InternalStruct:
"""SCPI: ROUTe:WCDMa:SIGNaling<instance>:SCENario:DBFDiversity:INTernal \n
Snippet: value: InternalStruct = driver.route.scenario.dbfDiversity.get_internal() \n
Activates the 'Dual Carrier / Dual Band RX Diversity Fading: Internal' scenario and selects the signal paths. To set the
signaling unit manually, use the command method RsCmwWcdmaSig.Route.Scenario.DbfDiversity.Flexible.internal instead. For
possible connector and converter values, see 'Values for Signal Path Selection'. \n
:return: structure: for return value, see the help for InternalStruct structure arguments.
"""
return self._core.io.query_struct('ROUTe:WCDMa:SIGNaling<Instance>:SCENario:DBFDiversity:INTernal?', self.__class__.InternalStruct())
[docs] def set_internal(self, value: InternalStruct) -> None:
"""SCPI: ROUTe:WCDMa:SIGNaling<instance>:SCENario:DBFDiversity:INTernal \n
Snippet: driver.route.scenario.dbfDiversity.set_internal(value = InternalStruct()) \n
Activates the 'Dual Carrier / Dual Band RX Diversity Fading: Internal' scenario and selects the signal paths. To set the
signaling unit manually, use the command method RsCmwWcdmaSig.Route.Scenario.DbfDiversity.Flexible.internal instead. For
possible connector and converter values, see 'Values for Signal Path Selection'. \n
:param value: see the help for InternalStruct structure arguments.
"""
self._core.io.write_struct('ROUTe:WCDMa:SIGNaling<Instance>:SCENario:DBFDiversity:INTernal', value)
def clone(self) -> 'DbfDiversity':
"""Clones the group by creating new object from it and its whole existing sub-groups
Also copies all the existing default Repeated Capabilities setting,
which you can change independently without affecting the original group"""
new_group = DbfDiversity(self._core, self._base.parent)
self._base.synchronize_repcaps(new_group)
return new_group