GUI reference
R&S
®
ZNA
306
User Manual 1178.6462.02 ─ 20
For background information, see
Chapter 4.3.3.1, "Converted impedances"
Remote command:
CALCulate<Ch>:PARameter:MEASure
"<Trace_Name>", "Z-S11" |
"Z-S12" | "Z-S12SER" | "Z-S12PAR" ...
CALCulate<Ch>:PARameter:SDEFine
"<Trace_Name>", "Z-S11" |
"Z-S12" | "Z-S12SER" | "Z-S12PAR" | ...
Y <- S-Parameters ← Y/Z/k/μ-Parameters
Allows you to select a converted admittance as measured quantity.
A converted admittance is calculated from the corresponding S-parameter, which can
be selected in the pull-down lists below "Y ←" In case a transmission parameter is
selected, you can choose between a series and a parallel admittance calculation.
For background information, see
Chapter 4.3.4.1, "Converted admittances"
Remote command:
CALCulate<Ch>:PARameter:MEASure
"<Trace_Name>", "Y-S11" |
"Y-S12" | "Y-S12SER" | "Y-S12PAR" ...
CALCulate<Ch>:PARameter:SDEFine
"<Trace_Name>", "Y-S11" |
"Y-S12" | "Y-S12SER" | "Y-S12PAR" | ...
Y/Z-Parameters ← Y/Z/k/μ-Parameters
Allows you to select an admittance (Y-) or impedance (Z-) parameter as measured
quantity. Both Y- and Z-parameters can serve as an alternative to S-parameters for
characterizing a linear n-port network.
In absence of balanced ports, Y- and Z-parameters are expressed as Y/Z<i><j>, where
<i> and <j> denote logical ports numbers. Otherwise they are expressed as Y/
Z<m_i><m_j><i><j>, where <m_i> and <m_j> denote the port modes of the related
logical ports <i> and <j>.
For background information, see
Chapter 4.3.4.2, "Y-parameters"
Chapter 4.3.3.2, "Z-parameters"
Meas softtool