706 Appendix D
Softkey Functions
Measurement Menu (Balanced Measurement, SE-SE-Bal)
Measurement Menu (Balanced Measurement, SE-SE-Bal)
Key Operation Function SCPI Command
Displays softkeys for setting measurement parameters (only for models with Option 413 or 414). To display
these softkeys, the balanced/unbalanced conversion topology must be set to unbalanced-unbalanced-balanced
SE-SE-Bal), the balanced/unbalanced conversion function must be on (BalUn ON), and the fixture simulator
function must be on (
Fixture Simulator ON) in the “Analysis Menu” on page 647.
Sss11 Selects parameter S
ss11
. S
ss11
defines the way an unbalanced signal
input to (unbalanced) port 1 on the DUT is reflected as an
unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSS11
Sss21 Selects parameter S
ss21
. S
ss21
defines the way an unbalanced signal
input to (unbalanced) port 1 on the DUT is transmitted to
(unbalanced) port 2 on the DUT as an unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSS21
Sss12 Selects parameter S
ss12
. S
ss12
defines the way an unbalanced signal
input to (unbalanced) port 2 on the DUT is transmitted to
(unbalanced) port 1 on the DUT as an unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSS12
Sss22 Selects parameter S
ss22
. S
ss22
defines the way an unbalanced signal
input to (unbalanced) port 2 on the DUT is reflected as an
unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSS22
Sds31 Selects parameter S
ds31
. S
ds31
defines the way an unbalanced
signal input to (unbalanced) port 1 on the DUT is transmitted to
(balanced) port 3 on the DUT as a differential signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SDS31
Sds32 Selects parameter S
ds32
. S
ds32
defines the way an unbalanced
signal input to (unbalanced) port 2 on the DUT is transmitted to
(balanced) port 3 on the DUT as a differential signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SDS32
Ssd13 Selects parameter S
sd13
. S
sd13
defines the way a differential signal
input to (balanced) port 3 on the DUT is transmitted to
(unbalanced) port 1 on the DUT as an unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSD13
Ssd23 Selects parameter S
sd23
. S
sd23
defines the way a differential signal
input to (balanced) port 3 on the DUT is transmitted to
(unbalanced) port 2 on the DUT as an unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSD23
Scs31 Selects parameter S
cs31
. S
cs31
defines the way an unbalanced
signal input to (unbalanced) port 1 on the DUT is transmitted to
(balanced) port 3 on the DUT as a common mode signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SCS31
Scs32 Selects parameter S
cs32
. S
cs32
defines the way an unbalanced
signal input to (unbalanced) port 2 on the DUT is transmitted to
(balanced) port 3 on the DUT as a common mode signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SCS32
Ssc13 Selects parameter S
sc13
. S
sc13
defines the way a common mode
signal input to (balanced) port 3 on the DUT is transmitted to
(unbalanced) port 1 on the DUT as an unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSC13
Ssc23 Selects parameter S
sc23
. S
sc23
defines the way a common mode
signal input to (balanced) port 3 on the DUT is transmitted to
(unbalanced) port 2 on the DUT as an unbalanced signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SSC23
Sdd33 Selects parameter S
dd33
. S
dd33
defines the way a differential signal
input to (balanced) port 3 on the DUT is reflected as a differential
signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SDD33
Scd33 Selects parameter S
cd33
. S
cd33
defines the way a differential signal
input to (balanced) port 3 on the DUT is reflected as a common
mode signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SCD33
Sdc33 Selects parameter S
dc33
. S
dc33
defines the way a common mode
signal input to (balanced) port 3 on the DUT is reflected as a
differential signal.
:CALC{1-16}:FSIM:BAL:PAR{1-16}:SSB
SDC33
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