Glossary: Frequently used terms
R&S
®
ZNB/ZNBT
1564
User Manual 1173.9163.02 ─ 62
settings complement the definitions of the Trace menu; they apply to all traces
assigned to the channel.
Compression point:
The x-dB compression point of an S-parameter or ratio is the
stimulus signal level where the magnitude of the measured quantity has dropped by x
dB compared to its value at small stimulus signal levels (small-signal value).
Confirmation dialog box:
Standard dialog box that pops up to display an error mes-
sage or a warning. The current action can be either continued (OK) or canceled (Can-
cel) on closing the dialog box.
Crosstalk:
The occurrence of a signal at the receive port of the analyzer which did not
travel through the test setup and the DUT but leaks through other internal paths.
Crosstalk causes an isolation error in the measurement which can be corrected by
means of a calibration.
CW frequency:
Continuous Wave frequency; fixed stimulus frequency used in Power,
CW Time and CW Mode sweeps.
D
Data trace:
Trace filled with measurement data and updated after each sweep
(dynamic trace).
Diagram area:
Rectangular portion of the screen used to display traces. Diagram
areas are arranged in windows; they are independent of trace and channel settings.
Directivity error:
Measurement error caused by a coupler or bridge in the analyzer's
source port causing part of the generated signal to leak through the forward path into
the receive path instead of being transmitted towards the DUT. The directivity error can
be corrected by means of a full one port calibration or one of the two-port calibration
methods (except normalization).
Discrete marker:
The stimulus value of a discrete marker always coincides with a
sweep point so that the marker does not show interpolated measurement values.
DUT:
Device under test; generic term for any electrical device or circuit which the vec-
tor network analyzer can measure. Typical DUTs are filters, amplifiers, or mixers.
E
Excursion:
Difference between the response values at a local maximum (minimum) of
the trace and at the two closest local minima (maxima) to the left and to the right.
Extrapolation:
Calculation of a numeric value for a new sweep point outside the origi-
nal sweep range from the numeric values of the existing sweep points. The analyzer
can extrapolate calibration data, transmission coefficients etc. to extend the sweep
range. If not otherwise stated, the numeric value of the first (last) sweep point is