Result, Djnq – Teledyne LeCroy WavePro Automation Command User Manual

Automation Command and Query Reference Manual - Control Reference

positions, with equal probability. In most real cases the Dual Dirac model violates Albert Einstein's famous quote,
which applies to any model, that everything should be made "as simple as possible, but not simpler". SDA2 never
shows DjDD as DJ. It is accessible by automation.

ClearSweeps

Action

Clear any accumulated result data. Useful for example to restart an average, or parameter statistics.

Description

View

Bool

Sets/Queries the trace's 'Viewed' state. When true, the trace is displayed on one of the display
graticules. Note that even when a trace is not visible, it may be used as a source for Math, Measure,
etc.

Description

ClearSweeps

Action

View

Bool

RESULT

app.SDA2.JitterMeasure.Parameters.DjDD.Out.Result

DJNQ

app.SDA2.JitterMeasure.Parameters.DjNQ

DjNQ is Dj computed from the Normalized Qscale jitter decomposition. SDA2 shows this value when
app.SDA2.JitterMeasure.Parameters.JitterModel is set to "Dual-Dirac NQ-Scale". For a description of Normalized
Qscale please see app.SDA2.JitterMeasure.Parameters.JitterModel and
app.SDA2.JitterMeasure.Histogram.ShowNQScaleFit.

ClearSweeps

Action

Clear any accumulated result data. Useful for example to restart an average, or parameter statistics.

Description

View

Bool

Sets/Queries the trace's 'Viewed' state. When true, the trace is displayed on one of the display
graticules. Note that even when a trace is not visible, it may be used as a source for Math, Measure,
etc.

Description

ClearSweeps

Action

View

Bool

RESULT

app.SDA2.JitterMeasure.Parameters.DjNQ.Out.Result

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