Configuring the Internal Baseband Source
R&S
®
SMW200A
325User Manual 1175.6632.02 ─ 30
{TYPE:SMU-CL}{COPYRIGHT:Rohde&Schwarz}
{DATE:2012-06-11;15:00:09}{HOP LIST:0:0;498:1;506:0}
{CW MODE LIST:0:0;380:1}{LEVATT LIST 3:0:0;464:1}
{BURST LIST:0:0;122:1;270:0;582:1;924:0}
{MARKER LIST 4:0:0;706:1;764:0}
{MARKER LIST 3:0:0;530:1;633:0}
{MARKER LIST 2:0:0;350:1;457:0}
{MARKER LIST 1:0:0;108:1;160:0}
{CONTROL LENGTH:1000}
The Figure 5-14 shows the representation of the created control list in the "Control
Data Editor".
Compare the displayed ramp values of "Marker 1" and the "Total List Length" with
the values in the corresponding tags.
Note: In the provided example, the tags have been separated by line breaks for
better reading.
See also Example "How to assign and activate control signals from a control list"
on page 325.
To create a control list in binary format
Generation of a control list in binary format is not necessary but possible.
► Use the commands BB:DM:CLISt:... to generate a control list in binary format
(see "Handling List Files" on page 1012 and the example in [:SOURce<hw>]:BB:
DM:CLISt:DATA on page 1016).
See also Example "How to assign and activate control signals from a control list"
on page 325.
Example: How to assign and activate control signals from a control list
Note: Irrespectively on the way they are created, generated control lists are not auto-
matically used.
We assume, that a control list clist.dm_iqc containing information on marker 2,
burst gate and level attenuation control signals is created and saved in the direc-
tory /var/user/temp/.
The following example shows how to enable the R&S SMW to:
●
Use the control list for a particular marker output, e.g. the "Custom Digital Modula-
tion > Marker 2".
●
Use the Burst Gate and Level Attenuation control signals as defined in a control
list.
:MMEM:CDIRectory "/var/user/temp"
:SOURce1:BB:DM:CLISt:CATalog?
// Response: clist
:SOURce1:BB:DM:CLISt:SELect "clist"
:SOURce1:BB:DM:TRIGger:OUTPut2:MODE CLISt
:SOURce1:BB:DM:PRAMp:SOURce INTernal
Using the Arbitrary Waveform Generator (ARB)
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