Lrange¶
SCPI Commands
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:SACP
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:PVTime
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FACCuracy
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FOFFset
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DELTa
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FDRift
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DAVerage
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DMINimum
CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DMAXimum
- class Lrange[source]
Lrange commands group definition. 9 total commands, 0 Sub-groups, 9 group commands
- class DaverageStruct[source]
Structure for reading output parameters. Fields:
Freq_Dev_F_1_Lower: float: numeric Range: 0 Hz to 500 kHz
Freq_Dev_F_1_Upper: float: numeric Range: 0 Hz to 500 kHz
Freq_Dev_F_1_Enable: List[bool]: OFF | ON Disable or enable limits for current, average, maximum, and minimum results (4 values)
- class DeltaStruct[source]
Structure for reading output parameters. Fields:
Delta_F_1_P_99_P_9: float: numeric Range: 150 kHz to 250 kHz
Delta_F_1_P_99_Enable: bool: OFF | ON Disable/enable limit checking
- class DmaximumStruct[source]
Structure for reading output parameters. Fields:
Freq_Dev_F_1_Lower: float: numeric Range: 0 Hz to 500 kHz
Freq_Dev_F_1_Upper: float: numeric Range: 0 Hz to 500 kHz
Freq_Dev_F_1_Enable: List[bool]: OFF | ON Disable or enable limits for current, average, maximum, and minimum results (4 values)
- class DminimumStruct[source]
Structure for reading output parameters. Fields:
Freq_Dev_F_1_Lower: float: numeric Range: 0 Hz to 500 kHz
Freq_Dev_F_1_Upper: float: numeric Range: 0 Hz to 500 kHz
Freq_Dev_F_1_Enable: List[bool]: OFF | ON Disable or enable limits for current, average, maximum, and minimum results (4 values)
- class FaccuracyStruct[source]
Structure for reading output parameters. Fields:
Freq_Accuracy: float: numeric Range: 0 Hz to 250 kHz
Freq_Acc_Enabled: List[bool]: OFF | ON Disable or enable limit check for current, average, and maximum results (3 values)
- class FdriftStruct[source]
Structure for reading output parameters. Fields:
Frequency_Drift: float: numeric Range: 0 Hz to 250 kHz
Max_Drift_Rate: float: numeric Range: 0 Hz to 250 kHz
Initl_Freq_Drift: float: numeric Range: 0 Hz to 250 kHz
Freq_Drift_Enable: List[bool]: OFF | ON Disable or enable limit checking for current, average, and maximum results (3 values) .
Max_Drift_Rate_Enb: List[bool]: OFF | ON Disable or enable limit checking for current, average, and maximum results (3 values) .
Init_Freq_Drift_En: List[bool]: OFF | ON Disable or enable limit checking for current, average, and maximum results (3 values) .
- class FoffsetStruct[source]
Structure for reading output parameters. Fields:
Freq_Offset: float: numeric Range: 0 Hz to 250 kHz
Freq_Offset_Enable: List[bool]: OFF | ON Disable or enable limit checking for current, average, and maximum results (3 values)
- class PowerVsTimeStruct[source]
Structure for reading output parameters. Fields:
Avg_Pow_Lower: float: numeric Range: -99.99 dBm to 99.99 dBm
Avg_Pow_Upper: float: numeric Range: -99.99 dBm to 99.99 dBm
Pkm_Avg_Pow_Upper: float: numeric Range: -99.99 dBm to 99.99 dBm
Avg_Pow_Enabled: List[bool]: OFF | ON Disables or enables the limit check for the average power, 4 values, corresponding to the current, average, maximum and minimum results.
Pkm_Avg_Pow_Enable: List[bool]: OFF | ON Disables or enables the limit check for the ‘peak minus average power’, 4 values, corresponding to the current, average, maximum and minimum results.
- class SacpStruct[source]
Structure for reading output parameters. Fields:
Ptx_Limit: float: numeric Power limit for 1 MHz channels fTX± 2 MHz Range: -80 dBm to -10 dBm
Exc_Ptx_Limit: float: numeric Power limit for 1 MHz channels fTX±3 MHz, fTX±4 MHz, … Range: -80 dBm to -10 dBm
No_Of_Ex_Limit: int: numeric Maximum number of tolerable exceptions, i.e. 1 MHz channels fTX±3 MHz, fTX±4 MHz, … whose power is above ExcPTxLimit, but below PTxLimit Range: 0 to 16
Ptx_Enable: bool: OFF | ON Disables | enables the PTxLimit limit for 1 MHz channels fTX± 2 MHz
No_Of_Exc_Enable: bool: OFF | ON Disables | enables the ExcPTxLimit limit for 1 MHz channels fTX±3 MHz, fTX±4 MHz, … with NoOfExLimit tolerable exceptions (per statistic cycle) .
- get_daverage() → DaverageStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DAVerage value: DaverageStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_daverage()
Defines the lower and upper Δf1 frequency deviation limits for LE coded PHY. The mnemonics DAVerage, DMINimum, DMAXimum distinguish average, minimum and maximum frequency deviations.
- return
structure: for return value, see the help for DaverageStruct structure arguments.
- get_delta() → DeltaStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DELTa value: DeltaStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_delta()
Sets/gets the limit for the frequency deviation Δf1 that must be exceeded by 99.9% of the measured samples for LE coded PHY.
- return
structure: for return value, see the help for DeltaStruct structure arguments.
- get_dmaximum() → DmaximumStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DMAXimum value: DmaximumStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_dmaximum()
Defines the lower and upper Δf1 frequency deviation limits for LE coded PHY. The mnemonics DAVerage, DMINimum, DMAXimum distinguish average, minimum and maximum frequency deviations.
- return
structure: for return value, see the help for DmaximumStruct structure arguments.
- get_dminimum() → DminimumStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DMINimum value: DminimumStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_dminimum()
Defines the lower and upper Δf1 frequency deviation limits for LE coded PHY. The mnemonics DAVerage, DMINimum, DMAXimum distinguish average, minimum and maximum frequency deviations.
- return
structure: for return value, see the help for DminimumStruct structure arguments.
- get_faccuracy() → FaccuracyStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FACCuracy value: FaccuracyStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_faccuracy()
Defines the limit for the frequency accuracy. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge..) are available.
- return
structure: for return value, see the help for FaccuracyStruct structure arguments.
- get_fdrift() → FdriftStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FDRift value: FdriftStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_fdrift()
Sets and enables limits for frequency drift, maximum drift rate and initial frequency drift. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge..) are available.
- return
structure: for return value, see the help for FdriftStruct structure arguments.
- get_foffset() → FoffsetStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FOFFset value: FoffsetStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_foffset()
Sets/gets the frequency offset limit. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge..) are available.
- return
structure: for return value, see the help for FoffsetStruct structure arguments.
- get_power_vs_time() → PowerVsTimeStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:PVTime value: PowerVsTimeStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_power_vs_time()
Defines the power limits: lower and upper average power limits, upper limit for ‘peak minus average power’, limit check enabling. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge.. ) are available.
- return
structure: for return value, see the help for PowerVsTimeStruct structure arguments.
- get_sacp() → SacpStruct[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:SACP value: SacpStruct = driver.configure.multiEval.limit.lowEnergy.lrange.get_sacp()
These commands define and enable the ‘Spectrum ACP’ limits for BR (…:LIMit:SACP) , LE 1M PHY ( …:LE1M…) , LE 2M PHY (…:LE2M…) , and LE coded PHY (…:LRANge…) , respectively.
- return
structure: for return value, see the help for SacpStruct structure arguments.
- set_daverage(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.DaverageStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DAVerage driver.configure.multiEval.limit.lowEnergy.lrange.set_daverage(value = DaverageStruct())
Defines the lower and upper Δf1 frequency deviation limits for LE coded PHY. The mnemonics DAVerage, DMINimum, DMAXimum distinguish average, minimum and maximum frequency deviations.
- param value
see the help for DaverageStruct structure arguments.
- set_delta(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.DeltaStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DELTa driver.configure.multiEval.limit.lowEnergy.lrange.set_delta(value = DeltaStruct())
Sets/gets the limit for the frequency deviation Δf1 that must be exceeded by 99.9% of the measured samples for LE coded PHY.
- param value
see the help for DeltaStruct structure arguments.
- set_dmaximum(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.DmaximumStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DMAXimum driver.configure.multiEval.limit.lowEnergy.lrange.set_dmaximum(value = DmaximumStruct())
Defines the lower and upper Δf1 frequency deviation limits for LE coded PHY. The mnemonics DAVerage, DMINimum, DMAXimum distinguish average, minimum and maximum frequency deviations.
- param value
see the help for DmaximumStruct structure arguments.
- set_dminimum(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.DminimumStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:DMINimum driver.configure.multiEval.limit.lowEnergy.lrange.set_dminimum(value = DminimumStruct())
Defines the lower and upper Δf1 frequency deviation limits for LE coded PHY. The mnemonics DAVerage, DMINimum, DMAXimum distinguish average, minimum and maximum frequency deviations.
- param value
see the help for DminimumStruct structure arguments.
- set_faccuracy(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.FaccuracyStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FACCuracy driver.configure.multiEval.limit.lowEnergy.lrange.set_faccuracy(value = FaccuracyStruct())
Defines the limit for the frequency accuracy. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge..) are available.
- param value
see the help for FaccuracyStruct structure arguments.
- set_fdrift(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.FdriftStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FDRift driver.configure.multiEval.limit.lowEnergy.lrange.set_fdrift(value = FdriftStruct())
Sets and enables limits for frequency drift, maximum drift rate and initial frequency drift. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge..) are available.
- param value
see the help for FdriftStruct structure arguments.
- set_foffset(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.FoffsetStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:FOFFset driver.configure.multiEval.limit.lowEnergy.lrange.set_foffset(value = FoffsetStruct())
Sets/gets the frequency offset limit. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge..) are available.
- param value
see the help for FoffsetStruct structure arguments.
- set_power_vs_time(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.PowerVsTimeStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:PVTime driver.configure.multiEval.limit.lowEnergy.lrange.set_power_vs_time(value = PowerVsTimeStruct())
Defines the power limits: lower and upper average power limits, upper limit for ‘peak minus average power’, limit check enabling. Commands for uncoded LE 1M PHY (..:LE1M..) , LE 2M PHY (..:LE2M..) , and LE coded PHY (..:LRANge.. ) are available.
- param value
see the help for PowerVsTimeStruct structure arguments.
- set_sacp(value: RsCmwBluetoothMeas.Implementations.Configure_.MultiEval_.Limit_.LowEnergy_.Lrange.Lrange.SacpStruct) → None[source]
# SCPI: CONFigure:BLUetooth:MEASurement<Instance>:MEValuation:LIMit:LENergy:LRANge:SACP driver.configure.multiEval.limit.lowEnergy.lrange.set_sacp(value = SacpStruct())
These commands define and enable the ‘Spectrum ACP’ limits for BR (…:LIMit:SACP) , LE 1M PHY ( …:LE1M…) , LE 2M PHY (…:LE2M…) , and LE coded PHY (…:LRANge…) , respectively.
- param value
see the help for SacpStruct structure arguments.