An S-parameter can be displayed in different formats, as already described. The VNA Master also allows you to extract information from the trace by using markers. By default, the marker presents the trace point information using the graph type format, thereby providing additional flexibility in analyzing S-parameter VNA data. For example, if the graph type is SWR, then the marker readout is in SWR. You can set the marker type to be something other than the graph type. For any graph type that the trace may have, the markers can be used to extract data in any of the following formats:
• Log Magnitude (dB)
• Log Magnitude / 2 (dB)
• Log Magnitude (dB) and Phase (deg)
• Linear Magnitude (dB)
• Linear Magnitude (dB) and Phase (deg)
• Phase (deg)
• Real and Imaginary
• SWR
• Group Delay (sec)
• Impedance: Zin = R + jX
• Admittance: Yin = G + jB
• Normalized Impedance: Zin / Zo = (R + jX) / Zo
• Normalized Admittance: Yin / Yo = (G + jB) Yo
• Polar Impedance
How Bias is Generated
Another important feature of a VNA is the ability to provide DC bias voltage at the RF port. Bias on the RF cable is useful for operating TMA components that are being tested. The architecture of the VNA Master, when equipped with Option 10, allows for bias to be applied to the RF ports. Bias Tee, Option 10 describes the Bias Tee functions of the VNA Masters.