Current

SCPI Commands :

READ:WCDMa:MEASurement<instance>:MEValuation:TRACe:EMASk:KFILter:CURRent
FETCh:WCDMa:MEASurement<instance>:MEValuation:TRACe:EMASk:KFILter:CURRent
class CurrentCls[source]

Current commands group definition. 2 total commands, 0 Subgroups, 2 group commands

fetch() List[float][source]
# SCPI: FETCh:WCDMa:MEASurement<instance>:MEValuation:TRACe:EMASk:KFILter:CURRent
value: List[float] = driver.wcdmaMeas.multiEval.trace.emask.kfilter.current.fetch()

Returns the values of the spectrum emission 30 kHz traces. The results of the current, average and maximum traces can be retrieved.

Suppressed linked return values: reliability

return:

emask_30_k: Comma-separated list of values, the covered frequency range differs for single and dual uplink carrier: Single carrier: n = 1665 values correspond to test points that are separated by 15 kHz and cover the frequency range between -12480 kHz and 12480 kHz from the center carrier frequency. Dual carrier in uplink: n = 2665 values correspond to test points that are separated by 15 kHz. The results cover the frequency range between -19980 kHz and 19980 kHz from the center frequency of both carriers, e.g. from f = (fC2 - fC1) /2.

read() List[float][source]
# SCPI: READ:WCDMa:MEASurement<instance>:MEValuation:TRACe:EMASk:KFILter:CURRent
value: List[float] = driver.wcdmaMeas.multiEval.trace.emask.kfilter.current.read()

Returns the values of the spectrum emission 30 kHz traces. The results of the current, average and maximum traces can be retrieved.

Suppressed linked return values: reliability

return:

emask_30_k: Comma-separated list of values, the covered frequency range differs for single and dual uplink carrier: Single carrier: n = 1665 values correspond to test points that are separated by 15 kHz and cover the frequency range between -12480 kHz and 12480 kHz from the center carrier frequency. Dual carrier in uplink: n = 2665 values correspond to test points that are separated by 15 kHz. The results cover the frequency range between -19980 kHz and 19980 kHz from the center frequency of both carriers, e.g. from f = (fC2 - fC1) /2.