Vector Network Analyzer Measurement Guide : VNA View Menus : Calibration Menus : Cal Kit Definition Menus for Waveguide
 
Cal Kit Definition Menus for Waveguide
Cal Kit Definition Menus for Waveguide
 
DUT Connector Selector List Box for Waveguide
DUT Connector Selector List Box for Waveguide
This list box is opened by the WG DUT Port 1 and WG DUT Port 2 soft keys.
This feature is used by all Anritsu VNA Masters and by the S412E LMR Master.
 
 
SOLT – WG Menu
Key Sequence: Shift, Calibrate (2) > DUT Port Setup > Setup User‑Defined > Enter
SOLT – WG Menu
 
 
Edit Name
Press this soft key to use the Text Entry feature (refer to the Text Entry section in the user guide for your instrument). Enter a name for your setup.
Short Offset (mm)
Press this soft key to enter a length for the Short Offset.
 
Open Offset (mm)
Press this soft key to enter a length for the Open Offset.

Open C0(e‑15)
Press this soft key to enter a capacitance value for Open 0.

Open C1(e‑27)
Press this soft key to enter a capacitance value for Open 1.

Open C2(e‑36)
Press this soft key to enter a capacitance value for Open 2.

Open C3(e‑45)
Press this soft key to enter a capacitance value for Open 3.

Back
Press this soft key to return to the DUT Port Setup Menu (Waveguide).
 
 
 
Calibration Types
The Calibration Type list box provides the complete selection of available calibration types.
Note 
The MS20xxB compact VNA Master and the S412E LMR Master models are two‑port, 1‑path vector network analyzers that allow S11 and S21 measurements with a single connection. Not all calibration types in the following list apply to the MS20xxB VNA Master and the S412E LMR Master.
The MS20xxC VNA Master models are full-reversing, two‑port vector network analyzers that allow reflection measurements from both ports and allow transmission measurements in both directions (S11, S21, S22, and S12 measurements) with a single connection.
This section describes all available calibration types.
The following list describes each calibration type:
Full 2‑Port (S11, S21, S12, S22) calibrates both ports for measurements in both directions, and provides the most accuracy for two‑port devices. It requires three calibration components and a through‑line.
Full S11 (Port 1) calibrates Port 1 for reflection measurements only. It requires three calibration components.
Full S22 (Port 2) calibrates Port 2 for reflection measurements only. It requires three calibration components.
Full S11 and S22 (both Ports) calibrates both ports for reflection measurements only. It requires six calibration components, three calibration components for each port.
Response S21 (Transmission Response Forward Path) performs simple normalization for S21 measurements. It requires a through‑line.
Response S12 (Transmission Response Reverse Path) performs simple normalization for S12 measurements. It requires a through‑line.
Response S21 and S12 (Transmission Response Both Paths) performs simple normalization for both S21 and S12 measurements. It requires a through‑line.
Response S11 (Reflection Response, Port 1) performs simple normalization for Port 1 reflection measurements only. It requires one short or open.
Response S22 (Reflection Response, Port 2) performs simple normalization for Port 2 reflection measurements only. It requires one short or open.
Response S11 and S22 (Reflection Response, Both Ports) performs simple normalization for both ports for reflection measurements only. It requires two components: one short or open for each port.
1P2P S11, S21 (1 Path, 2 Port Forward Path) calibrates Port 1 for reflection measurements and S21 measurements only. It requires three calibration components and a through‑line.
1P2P S22, S12 (1 Path, 2 Port Reverse Path) calibrates Port 2 for reflection measurements and S12 measurements only. It requires three calibration components and a through‑line.