Agilent Technologies Signal Analyzer N9030a User Manual
Page 1157
6 RLC Swept SA Measurement Front-Panel & SCPI Reference
Sweep/Control
Readback
SA - Normal
Initial S/W Revision
Prior to A.02.00
SA - Accuracy
Chooses Sweep Time Auto Rules for specified absolute amplitude accuracy.
For specified accuracy, do not allow sweep time to fall below 20 ms when in SA - Accuracy
Key Path
Sweep/Control, Sweep Setup, Sweep Time Rules
Example
:SWE:TIME:AUTO:RUL ACC
Dependencies
Not available (grayed out) when Source Mode=Tracking.
Couplings
If directly selected, sets AUTO to Off
Readback
SA - Accuracy
Initial S/W Revision
Prior to A.02.00
Stimulus/Response
The Stimulus-Response setting for sweep time rules provides different sweep time settings, for the
case where the analyzer is sweeping in concert with a source. These modified rules take two
forms:
1. Sweeping along with a swept source, which allows faster sweeps than the normal case because
the RBW and VBW filters do not directly interact with the Span. We call this “Swept Tracking”
2. Sweeping along with a stepped source, which usually slows the sweep down because it is
necessary to wait for the stepped source and the analyzer to settle at each point. We call this
“Stepped Tracking”
The analyzer chooses one of these methods based on what kind of a source is connected or
installed; it picks Swept Tracking if there is no source in use.
As always, when the X-series analyzer is in Auto Sweep Time, the sweep time is estimated and
displayed in the Sweep/Control menu as well as in the annotation at the bottom of the displayed
measurement; of course, since this can be dependent on variables outside the analyzer’s control,
the actual sweep time may vary slightly from this estimate.
You can always choose a shorter sweep time to improve the measurement throughput, (with some
potential unspecified accuracy reduction), but the Meas Uncal indicator will come on if the sweep
time you set is less than the calculated Auto Sweep time. You can also select a longer sweep time,
which can be useful (for example) for obtaining accurate insertion loss measurements on very
Remote Language Compatibility Measurement Application Reference
1157