Time Domain - Option 010
55
Time Domain - Option 010
With NA Mode, Time Domain (Opt 010), frequency information is used to
calculate and display measurements with time as the horizontal display axis. The
response values appear separated in time allowing a different perspective of the
test device's performance and limitations.
NA Mode settings that are NOT unique to Time Domain are documented in the
NA Mode chapter on page 39.
In this Chapter
Overview ................................................................. 55
Time Domain (Transform) Settings
Transform Settings Table ..................................... 56
Frequency Range and Points ............................... 57
Stimulus (Mode) ..................................................... 57
Set Frequency Lowpass ....................................... 57
Start/Stop Time ...................................................... 57
Distance Units ........................................................ 58
Window Layout ...................................................... 58
Transform Window ................................................ 58
Line Loss and Velocity Factor ............................. 59
Data Chain .............................................................. 60
Trace Settings
Transform Enable .................................................. 60
Gating Enable ......................................................... 60
Gating Settings
Start, Stop, Center, and Span Gate Times ......... 62
Gating Type ............................................................. 62
Overview
In normal NA Mode operation, the FieldFox measures the characteristics of a test
device as a function of frequency. With Time Domain (opt 010), frequency
information is used to calculate the inverse Fourier transform and display
measurements with time on the horizontal display axis. The response values
appear separated in time, allowing a different perspective of the test device's
performance and limitations.
The graphic below compares the same cable reflection measurement data in both
the frequency and time domain. The cable has two bends. Each bend creates a
mismatch or change in the line impedance.