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.