from .......Internal.Core import Core
from .......Internal.CommandsGroup import CommandsGroup
from .......Internal.StructBase import StructBase
from .......Internal.ArgStruct import ArgStruct
from ....... import repcap
# noinspection PyPep8Naming,PyAttributeOutsideInit,SpellCheckingInspection
[docs]
class StandardDevCls:
"""StandardDev commands group definition. 2 total commands, 0 Subgroups, 2 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'
- Out_Of_Tolerance: int: Out of tolerance result, i.e. the percentage of measurement intervals of the statistic count for modulation measurements exceeding the specified modulation limits.
- Evm_Rms_Low: float: EVM RMS value, low EVM window position
- Evm_Rms_High: float: EVM RMS value, high EVM window position
- Evm_Peak_Low: float: EVM peak value, low EVM window position
- Evm_Peak_High: float: EVM peak value, high EVM window position
- Mag_Error_Rms_Low: float: Magnitude error RMS value, low EVM window position
- Mag_Error_Rms_High: float: Magnitude error RMS value, low EVM window position
- Mag_Error_Peak_Low: float: Magnitude error peak value, low EVM window position
- Mag_Err_Peak_High: float: Magnitude error peak value, high EVM window position
- Ph_Error_Rms_Low: float: Phase error RMS value, low EVM window position
- Ph_Error_Rms_High: float: Phase error RMS value, high EVM window position
- Ph_Error_Peak_Low: float: Phase error peak value, low EVM window position
- Ph_Error_Peak_High: float: Phase error peak value, high EVM window position
- Iq_Offset: float: I/Q origin offset
- Frequency_Error: float: Carrier frequency error
- Timing_Error: float: Time error
- Tx_Power: float: User equipment power
- Peak_Power: float: User equipment peak power
- Psd: float: No parameter help available
- Evm_Dmrs_Low: float: EVM DMRS value, low EVM window position
- Evm_Dmrs_High: float: EVM DMRS value, high EVM window position
- Mag_Err_Dmrs_Low: float: Magnitude error DMRS value, low EVM window position
- Mag_Err_Dmrs_High: float: Magnitude error DMRS value, high EVM window position
- Ph_Error_Dmrs_Low: float: Phase error DMRS value, low EVM window position
- Ph_Error_Dmrs_High: float: Phase error DMRS value, high EVM window position
- Freq_Error_Ppm: float: Carrier frequency error in ppm
- Sample_Clock_Err: float: No parameter help available
- Antenna_1_Power: float: No parameter help available
- Antenna_2_Power: float: No parameter help available"""
__meta_args_list = [
ArgStruct.scalar_int('Reliability', 'Reliability'),
ArgStruct.scalar_int('Out_Of_Tolerance'),
ArgStruct.scalar_float('Evm_Rms_Low'),
ArgStruct.scalar_float('Evm_Rms_High'),
ArgStruct.scalar_float('Evm_Peak_Low'),
ArgStruct.scalar_float('Evm_Peak_High'),
ArgStruct.scalar_float('Mag_Error_Rms_Low'),
ArgStruct.scalar_float('Mag_Error_Rms_High'),
ArgStruct.scalar_float('Mag_Error_Peak_Low'),
ArgStruct.scalar_float('Mag_Err_Peak_High'),
ArgStruct.scalar_float('Ph_Error_Rms_Low'),
ArgStruct.scalar_float('Ph_Error_Rms_High'),
ArgStruct.scalar_float('Ph_Error_Peak_Low'),
ArgStruct.scalar_float('Ph_Error_Peak_High'),
ArgStruct.scalar_float('Iq_Offset'),
ArgStruct.scalar_float('Frequency_Error'),
ArgStruct.scalar_float('Timing_Error'),
ArgStruct.scalar_float('Tx_Power'),
ArgStruct.scalar_float('Peak_Power'),
ArgStruct.scalar_float('Psd'),
ArgStruct.scalar_float('Evm_Dmrs_Low'),
ArgStruct.scalar_float('Evm_Dmrs_High'),
ArgStruct.scalar_float('Mag_Err_Dmrs_Low'),
ArgStruct.scalar_float('Mag_Err_Dmrs_High'),
ArgStruct.scalar_float('Ph_Error_Dmrs_Low'),
ArgStruct.scalar_float('Ph_Error_Dmrs_High'),
ArgStruct.scalar_float('Freq_Error_Ppm'),
ArgStruct.scalar_float('Sample_Clock_Err'),
ArgStruct.scalar_float('Antenna_1_Power'),
ArgStruct.scalar_float('Antenna_2_Power')]
def __init__(self):
StructBase.__init__(self, self)
self.Reliability: int = None
self.Out_Of_Tolerance: int = None
self.Evm_Rms_Low: float = None
self.Evm_Rms_High: float = None
self.Evm_Peak_Low: float = None
self.Evm_Peak_High: float = None
self.Mag_Error_Rms_Low: float = None
self.Mag_Error_Rms_High: float = None
self.Mag_Error_Peak_Low: float = None
self.Mag_Err_Peak_High: float = None
self.Ph_Error_Rms_Low: float = None
self.Ph_Error_Rms_High: float = None
self.Ph_Error_Peak_Low: float = None
self.Ph_Error_Peak_High: float = None
self.Iq_Offset: float = None
self.Frequency_Error: float = None
self.Timing_Error: float = None
self.Tx_Power: float = None
self.Peak_Power: float = None
self.Psd: float = None
self.Evm_Dmrs_Low: float = None
self.Evm_Dmrs_High: float = None
self.Mag_Err_Dmrs_Low: float = None
self.Mag_Err_Dmrs_High: float = None
self.Ph_Error_Dmrs_Low: float = None
self.Ph_Error_Dmrs_High: float = None
self.Freq_Error_Ppm: float = None
self.Sample_Clock_Err: float = None
self.Antenna_1_Power: float = None
self.Antenna_2_Power: float = None
[docs]
def read(self, carrierComponent=repcap.CarrierComponent.Default, layer=repcap.Layer.Default) -> ResultData:
"""SCPI: READ:NRSub:MEASurement<Instance>:MEValuation[:CC<no>][:LAYer<layer>]:MODulation:SDEViation \n
Snippet: value: ResultData = driver.nrSubMeas.multiEval.cc.layer.modulation.standardDev.read(carrierComponent = repcap.CarrierComponent.Default, layer = repcap.Layer.Default) \n
Return the current, average and standard deviation single-value results for carrier <no>, layer/antenna <l>. 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 carrierComponent: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Cc')
:param layer: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Layer')
:return: structure: for return value, see the help for ResultData structure arguments."""
carrierComponent_cmd_val = self._cmd_group.get_repcap_cmd_value(carrierComponent, repcap.CarrierComponent)
layer_cmd_val = self._cmd_group.get_repcap_cmd_value(layer, repcap.Layer)
return self._core.io.query_struct(f'READ:NRSub:MEASurement<Instance>:MEValuation:CC{carrierComponent_cmd_val}:LAYer{layer_cmd_val}:MODulation:SDEViation?', self.__class__.ResultData())
[docs]
def fetch(self, carrierComponent=repcap.CarrierComponent.Default, layer=repcap.Layer.Default) -> ResultData:
"""SCPI: FETCh:NRSub:MEASurement<Instance>:MEValuation[:CC<no>][:LAYer<layer>]:MODulation:SDEViation \n
Snippet: value: ResultData = driver.nrSubMeas.multiEval.cc.layer.modulation.standardDev.fetch(carrierComponent = repcap.CarrierComponent.Default, layer = repcap.Layer.Default) \n
Return the current, average and standard deviation single-value results for carrier <no>, layer/antenna <l>. 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 carrierComponent: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Cc')
:param layer: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Layer')
:return: structure: for return value, see the help for ResultData structure arguments."""
carrierComponent_cmd_val = self._cmd_group.get_repcap_cmd_value(carrierComponent, repcap.CarrierComponent)
layer_cmd_val = self._cmd_group.get_repcap_cmd_value(layer, repcap.Layer)
return self._core.io.query_struct(f'FETCh:NRSub:MEASurement<Instance>:MEValuation:CC{carrierComponent_cmd_val}:LAYer{layer_cmd_val}:MODulation:SDEViation?', self.__class__.ResultData())