®
R&S
FSW
Figure 6-33: Measurement of the R&S FSW's intrinsic noise power in a 1.23 MHz channel band-
6.2.8 Optimizing and Troubleshooting the Measurement
If the results do not meet your expectations, or if you want to minimize the measure-
ment duration, try the following methods to optimize the measurement:
●
Only activate as many adjacent channels as necessary to minimize the required
span and thus the required measurement time for the measurement.
●
Increase the RBW to minimize the measurement time; however, consider the
requirements of the standard if you need to measure according to standard! The
automatic settings are always according to standard.
●
Take advantage of the speed optimization mode in the "Sweep" settings if you do
not require the larger dynamic range (see
●
Reduce the "Sweep Time" and thus the amount of data to be captured and calcu-
lated; however, consider the requirements regarding the standard deviation.
●
To improve the stability of the measured results, increase the "Sweep Time" ,
which also leads to more averaging steps.
●
Instead of trace averaging, use an RMS detector with a higher "Sweep Time" to
obtain better average power results in less time.
●
To determine a channel power level quickly, use the
surement
ment is a zero span measurement where the sweep time determines the measure-
ment time. Due to the FFT measurement, duplicate averaging is performed, provid-
ing very stable results very quickly.
User Manual 1173.9411.02 ─ 36
Channel Power and Adjacent-Channel Power (ACLR) Measurement
width.
(TDP) rather than a Channel Power measurement. The TDP measure-
Measurements and Results
" Optimization "
on page 450).
Time Domain Power Mea-
196