from .......Internal.Core import Core
from .......Internal.CommandsGroup import CommandsGroup
from .......Internal.StructBase import StructBase
from .......Internal.ArgStruct import ArgStruct
from ....... import enums
from ....... import repcap
# noinspection PyPep8Naming,PyAttributeOutsideInit,SpellCheckingInspection
[docs]
class StandardDevCls:
"""StandardDev commands group definition. 3 total commands, 0 Subgroups, 3 group commands"""
def __init__(self, core: Core, parent):
self._core = core
self._cmd_group = CommandsGroup("standardDev", core, parent)
# noinspection PyTypeChecker
[docs]
class ResultData(StructBase):
"""Response structure. Fields: \n
- Reliability: int: 'Reliability indicator'
- Evm_All_Carr_Seg_1_Tx: float: No parameter help available
- Evm_All_Carr_Seg_2_Tx: float: No parameter help available
- Evm_Data_Carr_Seg_1_Tx: float: No parameter help available
- Evm_Data_Carr_Seg_2_Tx: float: No parameter help available
- Evm_Pilot_Carr_Seg_1_Tx: float: No parameter help available
- Evm_Pilot_Carr_Seg_2_Tx: float: No parameter help available
- Power_Backoff_Seg_1_Tx: float: No parameter help available
- Power_Backoff_Seg_2_Tx: float: No parameter help available
- Burst_Power_Seg_1_Tx: float: No parameter help available
- Burst_Power_Seg_2_Tx: float: No parameter help available
- Peak_Power_Seg_1_Tx: float: No parameter help available
- Peak_Power_Seg_2_Tx: float: No parameter help available
- Crest_Factor_Seg_1_Tx: float: No parameter help available
- Crest_Factor_Seg_2_Tx: float: No parameter help available
- Iq_Offset_Seg_1_Tx: float: No parameter help available
- Iq_Offset_Seg_2_Tx: float: No parameter help available
- Dc_Power_Seg_1_Tx: float: No parameter help available
- Dc_Power_Seg_2_Tx: float: No parameter help available
- Ltf_Power_Seg_1_Tx: float: No parameter help available
- Ltf_Power_Seg_2_Tx: float: No parameter help available
- Data_Power_Seg_1_Tx: float: No parameter help available
- Data_Power_Seg_2_Tx: float: No parameter help available
- Preamble_Power_Seg_1_Tx: float: No parameter help available
- Preamble_Power_Seg_2_Tx: float: No parameter help available"""
__meta_args_list = [
ArgStruct.scalar_int('Reliability', 'Reliability'),
ArgStruct.scalar_float('Evm_All_Carr_Seg_1_Tx'),
ArgStruct.scalar_float('Evm_All_Carr_Seg_2_Tx'),
ArgStruct.scalar_float('Evm_Data_Carr_Seg_1_Tx'),
ArgStruct.scalar_float('Evm_Data_Carr_Seg_2_Tx'),
ArgStruct.scalar_float('Evm_Pilot_Carr_Seg_1_Tx'),
ArgStruct.scalar_float('Evm_Pilot_Carr_Seg_2_Tx'),
ArgStruct.scalar_float('Power_Backoff_Seg_1_Tx'),
ArgStruct.scalar_float('Power_Backoff_Seg_2_Tx'),
ArgStruct.scalar_float('Burst_Power_Seg_1_Tx'),
ArgStruct.scalar_float('Burst_Power_Seg_2_Tx'),
ArgStruct.scalar_float('Peak_Power_Seg_1_Tx'),
ArgStruct.scalar_float('Peak_Power_Seg_2_Tx'),
ArgStruct.scalar_float('Crest_Factor_Seg_1_Tx'),
ArgStruct.scalar_float('Crest_Factor_Seg_2_Tx'),
ArgStruct.scalar_float('Iq_Offset_Seg_1_Tx'),
ArgStruct.scalar_float('Iq_Offset_Seg_2_Tx'),
ArgStruct.scalar_float('Dc_Power_Seg_1_Tx'),
ArgStruct.scalar_float('Dc_Power_Seg_2_Tx'),
ArgStruct.scalar_float('Ltf_Power_Seg_1_Tx'),
ArgStruct.scalar_float('Ltf_Power_Seg_2_Tx'),
ArgStruct.scalar_float('Data_Power_Seg_1_Tx'),
ArgStruct.scalar_float('Data_Power_Seg_2_Tx'),
ArgStruct.scalar_float('Preamble_Power_Seg_1_Tx'),
ArgStruct.scalar_float('Preamble_Power_Seg_2_Tx')]
def __init__(self):
StructBase.__init__(self, self)
self.Reliability: int = None
self.Evm_All_Carr_Seg_1_Tx: float = None
self.Evm_All_Carr_Seg_2_Tx: float = None
self.Evm_Data_Carr_Seg_1_Tx: float = None
self.Evm_Data_Carr_Seg_2_Tx: float = None
self.Evm_Pilot_Carr_Seg_1_Tx: float = None
self.Evm_Pilot_Carr_Seg_2_Tx: float = None
self.Power_Backoff_Seg_1_Tx: float = None
self.Power_Backoff_Seg_2_Tx: float = None
self.Burst_Power_Seg_1_Tx: float = None
self.Burst_Power_Seg_2_Tx: float = None
self.Peak_Power_Seg_1_Tx: float = None
self.Peak_Power_Seg_2_Tx: float = None
self.Crest_Factor_Seg_1_Tx: float = None
self.Crest_Factor_Seg_2_Tx: float = None
self.Iq_Offset_Seg_1_Tx: float = None
self.Iq_Offset_Seg_2_Tx: float = None
self.Dc_Power_Seg_1_Tx: float = None
self.Dc_Power_Seg_2_Tx: float = None
self.Ltf_Power_Seg_1_Tx: float = None
self.Ltf_Power_Seg_2_Tx: float = None
self.Data_Power_Seg_1_Tx: float = None
self.Data_Power_Seg_2_Tx: float = None
self.Preamble_Power_Seg_1_Tx: float = None
self.Preamble_Power_Seg_2_Tx: float = None
[docs]
def read(self, mimo=repcap.Mimo.Default) -> ResultData:
"""SCPI: READ:WLAN:MEASurement<instance>:MEValuation:MODulation:MIMO<n>:SEGMents:SDEViation \n
Snippet: value: ResultData = driver.wlanMeas.multiEval.modulation.mimo.segments.standardDev.read(mimo = repcap.Mimo.Default) \n
Return the single value results for MIMO measurements and bandwidths > 160 MHz. The results are available per antenna for
the left 160 MHz segment <1> and for the right 160 MHz segment <2>. There are current, average, minimum, maximum and
standard deviation results. The values described below are returned by FETCh and READ commands. CALCulate commands return
limit check results instead, one value for each result listed below. \n
:param mimo: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Mimo')
:return: structure: for return value, see the help for ResultData structure arguments."""
mimo_cmd_val = self._cmd_group.get_repcap_cmd_value(mimo, repcap.Mimo)
return self._core.io.query_struct(f'READ:WLAN:MEASurement<Instance>:MEValuation:MODulation:MIMO{mimo_cmd_val}:SEGMents:SDEViation?', self.__class__.ResultData())
[docs]
def fetch(self, mimo=repcap.Mimo.Default) -> ResultData:
"""SCPI: FETCh:WLAN:MEASurement<instance>:MEValuation:MODulation:MIMO<n>:SEGMents:SDEViation \n
Snippet: value: ResultData = driver.wlanMeas.multiEval.modulation.mimo.segments.standardDev.fetch(mimo = repcap.Mimo.Default) \n
Return the single value results for MIMO measurements and bandwidths > 160 MHz. The results are available per antenna for
the left 160 MHz segment <1> and for the right 160 MHz segment <2>. There are current, average, minimum, maximum and
standard deviation results. The values described below are returned by FETCh and READ commands. CALCulate commands return
limit check results instead, one value for each result listed below. \n
:param mimo: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Mimo')
:return: structure: for return value, see the help for ResultData structure arguments."""
mimo_cmd_val = self._cmd_group.get_repcap_cmd_value(mimo, repcap.Mimo)
return self._core.io.query_struct(f'FETCh:WLAN:MEASurement<Instance>:MEValuation:MODulation:MIMO{mimo_cmd_val}:SEGMents:SDEViation?', self.__class__.ResultData())
# noinspection PyTypeChecker
[docs]
class CalculateStruct(StructBase):
"""Response structure. Fields: \n
- Reliability: int: 'Reliability indicator'
- Evm_All_Carr_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Evm_All_Carr_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Evm_Data_Carr_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Evm_Data_Carr_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Evm_Pilot_Carr_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Evm_Pilot_Carr_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Power_Backoff_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Power_Backoff_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Burst_Power_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Burst_Power_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Peak_Power_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Peak_Power_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Crest_Factor_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Crest_Factor_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Iq_Offset_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Iq_Offset_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Dc_Power_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Dc_Power_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Ltf_Power_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Ltf_Power_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Data_Power_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Data_Power_Seg_2_Tx: enums.ResultStatus2: No parameter help available
- Preamble_Power_Seg_1_Tx: enums.ResultStatus2: No parameter help available
- Preamble_Power_Seg_2_Tx: enums.ResultStatus2: No parameter help available"""
__meta_args_list = [
ArgStruct.scalar_int('Reliability', 'Reliability'),
ArgStruct.scalar_enum('Evm_All_Carr_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_All_Carr_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_Data_Carr_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_Data_Carr_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_Pilot_Carr_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_Pilot_Carr_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Power_Backoff_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Power_Backoff_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Burst_Power_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Burst_Power_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Peak_Power_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Peak_Power_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Crest_Factor_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Crest_Factor_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Iq_Offset_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Iq_Offset_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Dc_Power_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Dc_Power_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Ltf_Power_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Ltf_Power_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Data_Power_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Data_Power_Seg_2_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Preamble_Power_Seg_1_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Preamble_Power_Seg_2_Tx', enums.ResultStatus2)]
def __init__(self):
StructBase.__init__(self, self)
self.Reliability: int = None
self.Evm_All_Carr_Seg_1_Tx: enums.ResultStatus2 = None
self.Evm_All_Carr_Seg_2_Tx: enums.ResultStatus2 = None
self.Evm_Data_Carr_Seg_1_Tx: enums.ResultStatus2 = None
self.Evm_Data_Carr_Seg_2_Tx: enums.ResultStatus2 = None
self.Evm_Pilot_Carr_Seg_1_Tx: enums.ResultStatus2 = None
self.Evm_Pilot_Carr_Seg_2_Tx: enums.ResultStatus2 = None
self.Power_Backoff_Seg_1_Tx: enums.ResultStatus2 = None
self.Power_Backoff_Seg_2_Tx: enums.ResultStatus2 = None
self.Burst_Power_Seg_1_Tx: enums.ResultStatus2 = None
self.Burst_Power_Seg_2_Tx: enums.ResultStatus2 = None
self.Peak_Power_Seg_1_Tx: enums.ResultStatus2 = None
self.Peak_Power_Seg_2_Tx: enums.ResultStatus2 = None
self.Crest_Factor_Seg_1_Tx: enums.ResultStatus2 = None
self.Crest_Factor_Seg_2_Tx: enums.ResultStatus2 = None
self.Iq_Offset_Seg_1_Tx: enums.ResultStatus2 = None
self.Iq_Offset_Seg_2_Tx: enums.ResultStatus2 = None
self.Dc_Power_Seg_1_Tx: enums.ResultStatus2 = None
self.Dc_Power_Seg_2_Tx: enums.ResultStatus2 = None
self.Ltf_Power_Seg_1_Tx: enums.ResultStatus2 = None
self.Ltf_Power_Seg_2_Tx: enums.ResultStatus2 = None
self.Data_Power_Seg_1_Tx: enums.ResultStatus2 = None
self.Data_Power_Seg_2_Tx: enums.ResultStatus2 = None
self.Preamble_Power_Seg_1_Tx: enums.ResultStatus2 = None
self.Preamble_Power_Seg_2_Tx: enums.ResultStatus2 = None
[docs]
def calculate(self, mimo=repcap.Mimo.Default) -> CalculateStruct:
"""SCPI: CALCulate:WLAN:MEASurement<instance>:MEValuation:MODulation:MIMO<n>:SEGMents:SDEViation \n
Snippet: value: CalculateStruct = driver.wlanMeas.multiEval.modulation.mimo.segments.standardDev.calculate(mimo = repcap.Mimo.Default) \n
Return the single value results for MIMO measurements and bandwidths > 160 MHz. The results are available per antenna for
the left 160 MHz segment <1> and for the right 160 MHz segment <2>. There are current, average, minimum, maximum and
standard deviation results. The values described below are returned by FETCh and READ commands. CALCulate commands return
limit check results instead, one value for each result listed below. \n
:param mimo: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Mimo')
:return: structure: for return value, see the help for CalculateStruct structure arguments."""
mimo_cmd_val = self._cmd_group.get_repcap_cmd_value(mimo, repcap.Mimo)
return self._core.io.query_struct(f'CALCulate:WLAN:MEASurement<Instance>:MEValuation:MODulation:MIMO{mimo_cmd_val}:SEGMents:SDEViation?', self.__class__.CalculateStruct())