Agilent Technologies FieldFox N9913A User Manual page 33

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User manual (237 pages)

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When the DTF frequencies are set manually, they may not be the optimum

frequencies for measuring the distance to fault. The distance may no longer be

alias-free. Learn more about alias-free range on page 37.

How to manually set Frequencies in Bandpass Mode

 Press Freq/Dist

 Then

 OR

 Press

 Then

These settings specify the minimum and maximum frequencies to be used for the

DTF measurement. These exact frequencies may not be used, but a narrower

frequency range may be used that will still pass through the bandpass filter.

To see the frequencies that are used in the DTF measurement, press Meas Setup

4 then

determine the exact frequency range being used.

Coupled Frequency

When a Return Loss & DTF measurement is present, this setting allows you to

have different frequency ranges for each measurement. Learn more on page 22.

Cable (Correction) Specifications

By default, the FieldFox does NOT correct DTF measurements to account for the

inherent loss of a cable. However, to make more accurate DTF measurements, the

Cable Loss and Velocity Factor values should be considered.

About Velocity Factor and Cable Loss

The following is an example showing how DTF cable correction works:

The DUT is a 100 meter transmission cable. The Cable Loss value is .1

dB/meter. This means that a signal traveling ONE WAY through the cable will

lose 10 dB of power (100 m * .1dB/m). Because the FieldFox performs this

measurement with 1 port, the test signal travels down the cable and then back,

for a total loss of 20 dB.

DTF (Distance to Fault) Measurements

Min Start Freq

and type the start frequency to use for the DTF

measurement.

Max Stop Freq

and type the stop frequency to use for the DTF

measurement.

Max Freq Span

and type the frequency range to use for the DTF

measurement.

Center Frequency

the DTF measurement.

Settings

then

Velocity Factor is a property of the physical material of a cable. A VF of 1.0

corresponds to the speed of light in a vacuum, or the fastest VF possible. A

polyethylene dielectric cable has VF = 0.66 and a cable with PTFE dielectric

has VF = 0.7.

Cable Loss is specified in dB/meter. In addition to the length of the cable,

loss is also directly proportional to the frequency of the signal that passes

through the cable.

and type the center frequency of the range to use for

Page. The calculated Start and Stop frequencies

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Agilent Technologies FieldFox N9913A User Manual page 33

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