RF circuit or rfbudget vs. rfckt
Objects
This topic helps you to determine when to use RF circuit,
rfbudget, and rfckt objects in your RF analysis
workflow.
RF Toolbox™ provides two approaches to construct and analyze RF networks:
Networks built using elements based on the RF
circuitandrfbudgetobjects.Networks built with
rfcktobjects.
To understand when to use RF circuit, rfbudget, and
rfckt objects, see this table.
| Features | RF circuit or rfbudget | rfckt Objects |
|---|---|---|
| Construct networks with N-ports | Yes (RF circuit) | No |
| Import N-port S-parameters | Yes (RF circuit) | No |
| Matching network design | Yes (RF circuit) | Yes |
| Filter design | Yes | Yes |
| S-parameter analysis | Yes (N-port in RF circuit, two-port in
rfbudget) | Yes (Two-port networks only) |
| Noise analysis | Yes (rfbudget) | Yes |
| Group delay analysis | Yes (RF circuit) | Yes |
| Nonlinearity analysis | Yes (rfbudget — Friis and Harmonic Balance methods) | Yes (Friis method) |
| AM-PM definitions of nonlinear amplifier | Yes (since R2023b) | Yes |
| Compatibility | Compatible with RF Blockset™ Circuit Envelope library blocks (You can import and export
rfbudget objects to Circuit Envelope library). | Compatible with RF Blockset Equivalent Baseband library blocks. |
You can use this table as a reference when designing and analyzing your RF systems. For more on how to design an RF system using these objects, see:
The RF chain shown in both examples is identical and provides the same result on analysis.
See Also
rfbudget | circuit | RF Filter Design | RF Network Construction | RF Budget Analysis
