Operational considerations – Agilent Technologies PN 8510-16 User Manual

Page 7

The following error messages may occur while
attempting to enable the flatness correction and/or
reducing the test port power level:

• If flatness correction is enabled before reducing

the test port power level, IF Overload or Source
1 Warning—RF Unleveled may be displayed on
the analyzer as the source becomes unleveled.
Unleveling occurs when the source attempts to
output its maximum specified power plus the
flatness correction.

• If the output power is reduced to a suitable test

port power level before turning flatness correc-
tion on, No IF Found may be displayed. There
may not be sufficient output power from the
source for the 8510C to phase lock to the signal.

These error messages should disappear when flat-
ness correction is enabled with the appropriate
test port power level setting. If the test port power
level is not correctly reduced, the source will
become unleveled and try to output maximum
power. Although flatness correction will be applied
to the unleveled signal, the measurement for the
unleveled portion of the frequency span will not be
valid because the flatness-correction feature can-
not compensate for the inconsistent power varia-
tions that occur.

Power control with flatness correction
The ability to compensate for power variations
across the entire measurement span of the source
will depend on the highest leveled output power
the source can produce and the amount of power
compensation required. The test port power may
be adjusted over the entire P

max

to P

min

range with-

out degrading the flatness-correction calibration.

Table 4 shows test port power ranges for various
source/test set combinations. To determine the test
port power levels for a particular frequency span,
choose a power level between P

max

of the highest

frequency in the measurement span and P

min

of the

lowest frequency in the measurement span. For
example, the power range for a 50 MHz to 20 GHz
span with an 83621B/8515A system is –13.5 dBm
to –26 dBm. A high-power Agilent 83623B adds
7 dBm to P

max

of the 83621B. If a user sets up a

50 MHz to 20 GHz measurement with an 83623B
and an 8515A, the test port power range is
–6.5 dBm to –26 dBm.

Operational Considerations

Calibration time
The user may choose to speed up the calibration process by reducing the number of trace points on the
analyzer. Table 5 provides some typical calibration times for flatness correction over the full frequency
span of the source for different source/test set combinations. Calibration times may be slightly reduced by
increasing the stepped measurement speed with the quick step feature on the Agilent 8510C.

Table 5. Typical calibration times (in minutes) versus number of calibration points with maximum leveled source power

Number of Points

83620B/83621B

83631B

83651B

with 8514B

with 8515A

with 8517B

801

401

201

101