R&S ZNB - Page 292

Properties: The stimulus variable appears on the horizontal axis, scaled linearly. The

vertical axis, also scaled linearly.

Application: Real measurement data (i.e. the Stability Factors and the DC voltages)

are always displayed in a Lin Mag diagram.

Tip (alternative formats): The magnitude of each complex quantity can be displayed

on a logarithmic scale. It is possible to view the real and imaginary parts instead of the

magnitude and phase.

Remote command:

CALCulate<Chn>:FORMat MLINear

Selects a Cartesian diagram with a logarithmic (base 10) vertical axis scale to display

Remote command:

CALCulate<Chn>:FORMat LOGarithmic

Selects a Cartesian diagram to display the real part of a complex measured quantity.

Properties: The stimulus variable appears on the horizontal axis, scaled linearly. The

real part Re(C) of the complex quantity C = Re(C) + j Im(C), appears on the vertical

axis, also scaled linearly.

Application: The real part of an impedance corresponds to its resistive portion.

Tip (alternative formats): It is possible to view the magnitude and phase of a complex

quantity instead of the real and imaginary part. The magnitude can be displayed on a

quantity.

Properties: The stimulus variable appears on the horizontal axis, scaled linearly. The

imaginary part Im(C) of the complex quantity C = Re(C) + j Im(C), appears on the verti-

cal axis, also scaled linearly.

Application: The imaginary part of an impedance corresponds to its reactive portion.

Positive (negative) values represent inductive (capacitive) reactance.