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HP 8360 User Manual

Page 210

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Theory of operation

The unparalleled leveled output power accuracy and flatness of the
HP 8360 series synthesizer. This is achieved by using a new digital
(versus analog) design to control the internal automatic leveling
circuitry (ALC).

An internal detector samples the output power to provide a dc
feedback voltage. This voltage is compared to a reference voltage
which is proportional to the power level chosen by the user. When
there is a discrepancy between voltages, the power is increased
or decreased until the desired output level is achieved. For
comprehensive theory on the ALC system, refer to the

entry in

the “A” section of this manual.

The factory-generated internal calibration data of the synthesizer
is digitally segmented into 1601 data points across the start/stop
frequency span chosen. Subsequently, these points are converted into

1601 reference voltages for the ALC system. The digital ALC control

scheme not only delivers excellent power accuracy and flatness at
the output port of the synthesizer, but also provides the means to
execute the user flatness correction feature.

Generally, a power meter is required to create a table of correction

data that produces flat power at the test port. You may measure
and enter correction data for up to 801 points. The correction
data contained in the table is linearly interpolated to produce a

data array across the start/stop frequency span set on the

synthesizer. The

data array is summed with the internal

calibration data of the synthesizer (Figure

When user flatness

correction is enabled, the sum of the two arrays produces the 1601
reference voltages for the ALC system.

1601 Equodistont

Point Array

Accessible Only

a

Computer

User Flatness Correction Array

1601 Points

far ALC

1601 Points of Internal

Calibration Data

Figure

The Sources of ALC Calibration Correction Data

Operating and Programming Reference

HP 8360

User’s Handbook