RF Toolbox™ provides functions, objects, and apps for designing, modeling, analyzing, and visualizing networks of radio frequency (RF) components. You can use RF Toolbox for wireless communications, radar, and signal integrity projects.
With RF Toolbox you can build networks of RF components such as filters, transmission lines, amplifiers, and mixers. Components can be specified using measurement data, network parameters, or physical properties. You can calculate S-parameters, convert among S, Y, Z, ABCD, h, g, and T network parameters, and visualize RF data using rectangular and polar plots and Smith® Charts.
The RF Budget Analyzer app lets you analyze transmitters and receivers in terms of noise figure, gain, and IP3. You can generate RF Blockset™ testbenches and validate analytical results against circuit envelope simulations.
Using the rational function fitting method, you can build models of backplanes and interconnects, and export them as Simulink® blocks or as Verilog-A modules for SerDes design.
RF Toolbox provides functions to manipulate and automate RF measurement data analysis, including de-embedding, enforcing passivity, and computing group delay.
RF filters, transmission lines, amplifiers, and mixers specified by measurement data, network parameters, or physical properties
S-parameter calculation for RF component networks
RF Budget Analyzer app for calculating noise figure, gain, and IP3 of RF transceivers and for generating RF Blockset testbenches
Rational function fitting method for building models and exporting them as Simulink blocks or Verilog-A modules
De-embedding of N-port S-parameters measurement data
Conversion among S, Y, Z, ABCD, h, g, and T network parameters
RF data visualization using rectangular and polar plots and Smith Charts