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 MinimumCls:
"""Minimum commands group definition. 3 total commands, 0 Subgroups, 3 group commands"""
def __init__(self, core: Core, parent):
self._core = core
self._cmd_group = CommandsGroup("minimum", core, parent)
# noinspection PyTypeChecker
[docs]
class ResultData(StructBase):
"""Response structure. Fields: \n
- Reliability: int: decimal 'Reliability indicator'
- Modulation_Tx: enums.ModulationTypeD: No parameter help available
- Power_Backoff_Tx: float: No parameter help available
- Burst_Power_Tx: float: No parameter help available
- Peak_Power_Tx: float: No parameter help available
- Crest_Factor_Tx: float: float Crest factor, antenna n Range: 0 dB to 60 dB, Unit: dB
- Evm_All_Carr_Tx: float: No parameter help available
- Evm_Data_Carr_Tx: float: No parameter help available
- Evm_Pilot_Carr_Tx: float: No parameter help available
- Iq_Offset_Tx: float: No parameter help available
- Dc_Power_Tx: float: No parameter help available
- Gain_Imbalance_Tx: float: No parameter help available
- Quad_Error_Tx: float: No parameter help available
- Ltf_Power_Tx: float: No parameter help available
- Data_Power_Tx: float: No parameter help available
- Preamble_Power_Tx: float: No parameter help available"""
__meta_args_list = [
ArgStruct.scalar_int('Reliability', 'Reliability'),
ArgStruct.scalar_enum('Modulation_Tx', enums.ModulationTypeD),
ArgStruct.scalar_float('Power_Backoff_Tx'),
ArgStruct.scalar_float('Burst_Power_Tx'),
ArgStruct.scalar_float('Peak_Power_Tx'),
ArgStruct.scalar_float('Crest_Factor_Tx'),
ArgStruct.scalar_float('Evm_All_Carr_Tx'),
ArgStruct.scalar_float('Evm_Data_Carr_Tx'),
ArgStruct.scalar_float('Evm_Pilot_Carr_Tx'),
ArgStruct.scalar_float('Iq_Offset_Tx'),
ArgStruct.scalar_float('Dc_Power_Tx'),
ArgStruct.scalar_float('Gain_Imbalance_Tx'),
ArgStruct.scalar_float('Quad_Error_Tx'),
ArgStruct.scalar_float('Ltf_Power_Tx'),
ArgStruct.scalar_float('Data_Power_Tx'),
ArgStruct.scalar_float('Preamble_Power_Tx')]
def __init__(self):
StructBase.__init__(self, self)
self.Reliability: int = None
self.Modulation_Tx: enums.ModulationTypeD = None
self.Power_Backoff_Tx: float = None
self.Burst_Power_Tx: float = None
self.Peak_Power_Tx: float = None
self.Crest_Factor_Tx: float = None
self.Evm_All_Carr_Tx: float = None
self.Evm_Data_Carr_Tx: float = None
self.Evm_Pilot_Carr_Tx: float = None
self.Iq_Offset_Tx: float = None
self.Dc_Power_Tx: float = None
self.Gain_Imbalance_Tx: float = None
self.Quad_Error_Tx: float = None
self.Ltf_Power_Tx: float = None
self.Data_Power_Tx: float = None
self.Preamble_Power_Tx: float = None
[docs]
def read(self, mimo=repcap.Mimo.Default) -> ResultData:
"""SCPI: READ:WLAN:MEASurement<instance>:MEValuation:MODulation:MIMO<n>:MINimum \n
Snippet: value: ResultData = driver.multiEval.modulation.mimo.minimum.read(mimo = repcap.Mimo.Default) \n
Return the single value results for MIMO measurements. There are current, average, minimum, maximum and standard
deviation results. For 80+80 MHz signals, the segment-independent values are returned. 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}:MINimum?', self.__class__.ResultData())
[docs]
def fetch(self, mimo=repcap.Mimo.Default) -> ResultData:
"""SCPI: FETCh:WLAN:MEASurement<instance>:MEValuation:MODulation:MIMO<n>:MINimum \n
Snippet: value: ResultData = driver.multiEval.modulation.mimo.minimum.fetch(mimo = repcap.Mimo.Default) \n
Return the single value results for MIMO measurements. There are current, average, minimum, maximum and standard
deviation results. For 80+80 MHz signals, the segment-independent values are returned. 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}:MINimum?', self.__class__.ResultData())
# noinspection PyTypeChecker
[docs]
class CalculateStruct(StructBase):
"""Response structure. Fields: \n
- Reliability: int: decimal 'Reliability indicator'
- Modulation_Tx: enums.ResultStatus2: No parameter help available
- Power_Backoff_Tx: enums.ResultStatus2: No parameter help available
- Burst_Power_Tx: enums.ResultStatus2: No parameter help available
- Peak_Power_Tx: enums.ResultStatus2: No parameter help available
- Crest_Factor_Tx: enums.ResultStatus2: float Crest factor, antenna n Range: 0 dB to 60 dB, Unit: dB
- Evm_All_Carr_Tx: enums.ResultStatus2: No parameter help available
- Evm_Data_Carr_Tx: enums.ResultStatus2: No parameter help available
- Evm_Pilot_Carr_Tx: enums.ResultStatus2: No parameter help available
- Iq_Offset_Tx: enums.ResultStatus2: No parameter help available
- Dc_Power_Tx: enums.ResultStatus2: No parameter help available
- Gain_Imbalance_Tx: enums.ResultStatus2: No parameter help available
- Quad_Error_Tx: enums.ResultStatus2: No parameter help available
- Ltf_Power_Tx: enums.ResultStatus2: No parameter help available
- Data_Power_Tx: enums.ResultStatus2: No parameter help available
- Preamble_Power_Tx: enums.ResultStatus2: No parameter help available"""
__meta_args_list = [
ArgStruct.scalar_int('Reliability', 'Reliability'),
ArgStruct.scalar_enum('Modulation_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Power_Backoff_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Burst_Power_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Peak_Power_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Crest_Factor_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_All_Carr_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_Data_Carr_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Evm_Pilot_Carr_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Iq_Offset_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Dc_Power_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Gain_Imbalance_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Quad_Error_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Ltf_Power_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Data_Power_Tx', enums.ResultStatus2),
ArgStruct.scalar_enum('Preamble_Power_Tx', enums.ResultStatus2)]
def __init__(self):
StructBase.__init__(self, self)
self.Reliability: int = None
self.Modulation_Tx: enums.ResultStatus2 = None
self.Power_Backoff_Tx: enums.ResultStatus2 = None
self.Burst_Power_Tx: enums.ResultStatus2 = None
self.Peak_Power_Tx: enums.ResultStatus2 = None
self.Crest_Factor_Tx: enums.ResultStatus2 = None
self.Evm_All_Carr_Tx: enums.ResultStatus2 = None
self.Evm_Data_Carr_Tx: enums.ResultStatus2 = None
self.Evm_Pilot_Carr_Tx: enums.ResultStatus2 = None
self.Iq_Offset_Tx: enums.ResultStatus2 = None
self.Dc_Power_Tx: enums.ResultStatus2 = None
self.Gain_Imbalance_Tx: enums.ResultStatus2 = None
self.Quad_Error_Tx: enums.ResultStatus2 = None
self.Ltf_Power_Tx: enums.ResultStatus2 = None
self.Data_Power_Tx: enums.ResultStatus2 = None
self.Preamble_Power_Tx: enums.ResultStatus2 = None
[docs]
def calculate(self, mimo=repcap.Mimo.Default) -> CalculateStruct:
"""SCPI: CALCulate:WLAN:MEASurement<instance>:MEValuation:MODulation:MIMO<n>:MINimum \n
Snippet: value: CalculateStruct = driver.multiEval.modulation.mimo.minimum.calculate(mimo = repcap.Mimo.Default) \n
Return the single value results for MIMO measurements. There are current, average, minimum, maximum and standard
deviation results. For 80+80 MHz signals, the segment-independent values are returned. 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}:MINimum?', self.__class__.CalculateStruct())