64
Chapter 3
Optimizing Performance
Creating and Applying User Flatness Correction
Creating and Applying User Flatness Correction
User flatness correction allows the digital adjustment of RF output amplitude for up to 1601 frequency
points in any frequency or sweep mode. Using an Agilent E4416A/17A or E4418B/19B power meter
(controlled by the signal generator through GPIB) to calibrate the measurement system, a table of power
level corrections is created for frequencies where power level variations or losses occur. These frequencies
may be defined in sequential linear steps or arbitrarily spaced.
To allow different correction arrays for different test setups or different frequency ranges, you may save
individual user flatness correction tables to the signal generator’s memory catalog and recall them on
demand.
Use the steps in the next sections to create and apply user flatness correction to the signal generator’s RF
output.
Afterward, use the steps in
“Recalling and Applying a User Flatness Correction Array” on page 68
to recall
a user flatness file from the memory catalog and apply it to the signal generator’s RF output.
Creating a User Flatness Correction Array
In this example, you create a user flatness correction array. The flatness correction array contains ten
frequency correction pairs (amplitude correction values for specified frequencies), from 1 to 10 GHz in
1 GHz intervals.
An Agilent E4416A/17A/18B/19B power meter (controlled by the signal generator via GPIB) and E4413A
power sensor are used to measure the RF output amplitude at the specified correction frequencies and
transfer the results to the signal generator. The signal generator reads the power level data from the power
meter, calculates the correction values, and stores the correction pairs in the user flatness correction array.
If you do not have the required Agilent power meter, or if your power meter does not have a GPIB interface,
you can enter correction values manually.
Required Equipment
•
Agilent E4416A/17A/18B/19B power meter
•
Agilent E4413A E Series CW power sensor
•
GPIB interface cable
•
adapters and cables, as required
NOTE
If the setup has an external leveling configuration, the equipment setup in
Figure 3-4
assumes that the steps necessary to correctly level the RF output have been followed. If you
have questions about external leveling, refer to
“Using External Leveling” on page 60
.
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Страница 10: ...Contents x ...
Страница 96: ...86 Chapter 4 Analog Modulation Configuring the LF Output ...
Страница 127: ...Chapter 5 117 Dual Arbitrary Waveform Generator Using Waveform Clipping Figure 5 16 Rectangular Clipping ...
Страница 128: ...118 Chapter 5 Dual Arbitrary Waveform Generator Using Waveform Clipping Figure 5 17 Reduction of Peak to Average Power ...
Страница 142: ...132 Chapter 6 Custom Arb Waveform Generator Working with Filters ...
Страница 178: ...168 Chapter 7 Custom Real Time I Q Baseband Working with Differential Data Encoding ...
Страница 198: ...188 Chapter 10 Troubleshooting ...
Страница 214: ...204 Chapter 10 Troubleshooting Returning a Signal Generator to Agilent Technologies ...