Minimum

SCPI Commands :

READ:WLAN:MEASurement<instance>:MEValuation:SFLatness:MINimum
FETCh:WLAN:MEASurement<instance>:MEValuation:SFLatness:MINimum
CALCulate:WLAN:MEASurement<instance>:MEValuation:SFLatness:MINimum
class MinimumCls[source]

Minimum commands group definition. 3 total commands, 0 Subgroups, 3 group commands

calculate() List[ResultStatus2][source]
# SCPI: CALCulate:WLAN:MEASurement<instance>:MEValuation:SFLatness:MINimum
value: List[enums.ResultStatus2] = driver.wlanMeas.multiEval.spectrFlatness.minimum.calculate()

Returns the margin values of the spectrum flatness measurement for the current, average, minimum and maximum traces. A positive margin indicates a violation of the spectrum flatness limit. The respective trace value is located above the upper or below the lower limit line. 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.

Suppressed linked return values: reliability

return:

margins: Up to 10 comma-separated list of margins (one value per subcarrier range from left to right) Value 1: trace margin to the upper spectrum flatness limit For bandwidths 80 MHz, the margin is only relevant for the left 80 MHz segment (segment 1) . Value 2 to 5: trace margins to the lower spectrum flatness limit For bandwidths 80 MHz, the margins are only relevant for the left 80 MHz segment (segment 1) . Value 6: trace margin to the upper spectrum flatness limit for the right 80 MHz segment (segment 2) . This margin is only relevant for bandwidths 80 MHz. Value 7 to 10: trace margins to the lower spectrum flatness limit for the right 80 MHz segment (segment 2) . Values 6 to 10 are only relevant for bandwidths 80 MHz.

fetch() List[float][source]
# SCPI: FETCh:WLAN:MEASurement<instance>:MEValuation:SFLatness:MINimum
value: List[float] = driver.wlanMeas.multiEval.spectrFlatness.minimum.fetch()

Returns the margin values of the spectrum flatness measurement for the current, average, minimum and maximum traces. A positive margin indicates a violation of the spectrum flatness limit. The respective trace value is located above the upper or below the lower limit line. 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.

Suppressed linked return values: reliability

return:

margins: Up to 10 comma-separated list of margins (one value per subcarrier range from left to right) Value 1: trace margin to the upper spectrum flatness limit For bandwidths 80 MHz, the margin is only relevant for the left 80 MHz segment (segment 1) . Value 2 to 5: trace margins to the lower spectrum flatness limit For bandwidths 80 MHz, the margins are only relevant for the left 80 MHz segment (segment 1) . Value 6: trace margin to the upper spectrum flatness limit for the right 80 MHz segment (segment 2) . This margin is only relevant for bandwidths 80 MHz. Value 7 to 10: trace margins to the lower spectrum flatness limit for the right 80 MHz segment (segment 2) . Values 6 to 10 are only relevant for bandwidths 80 MHz.

read() List[float][source]
# SCPI: READ:WLAN:MEASurement<instance>:MEValuation:SFLatness:MINimum
value: List[float] = driver.wlanMeas.multiEval.spectrFlatness.minimum.read()

Returns the margin values of the spectrum flatness measurement for the current, average, minimum and maximum traces. A positive margin indicates a violation of the spectrum flatness limit. The respective trace value is located above the upper or below the lower limit line. 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.

Suppressed linked return values: reliability

return:

margins: Up to 10 comma-separated list of margins (one value per subcarrier range from left to right) Value 1: trace margin to the upper spectrum flatness limit For bandwidths 80 MHz, the margin is only relevant for the left 80 MHz segment (segment 1) . Value 2 to 5: trace margins to the lower spectrum flatness limit For bandwidths 80 MHz, the margins are only relevant for the left 80 MHz segment (segment 1) . Value 6: trace margin to the upper spectrum flatness limit for the right 80 MHz segment (segment 2) . This margin is only relevant for bandwidths 80 MHz. Value 7 to 10: trace margins to the lower spectrum flatness limit for the right 80 MHz segment (segment 2) . Values 6 to 10 are only relevant for bandwidths 80 MHz.