![]() The license may be downloaded on Drexel owned devices as well as your personal computer or on your portable device using Matlab mobile on your iPhone, iPad, or Android device. Unlimited installations are available for everyone in the classroom, in labs and field research, at home or while traveling.Get MATLAB through the custom MathWorks page for Drexel here.The unlimited access also extends to 33 standard add-on programs: Policies, Procedures, and Terms of Serviceĭrexel University Information Technology Office and the Provost Office join forces to expand MATLAB access for everyone, everywhere at Drexel starting July 1, 2016.Īll faculty, staff, and students have unlimited access to the standard configuration of MathWorks programs, including MATLAB, Simulink, and 33 add-on toolboxes.Inspect results numerically or graphically by plotting different metrics. Compute the budget considering impedance mismatches instead of relying on custom spreadsheets and complex computations. Analyze the budget of the cascade in terms of noise, power, gain, and nonlinearity.ĭetermine system-level specs of RF transceivers for wireless communications and radar systems. RF Budget Analyzer AppUse the RF Budget Analyzer app to graphically build, or script in MATLAB®, a cascade of RF components. Optimize the design of matching networks with local and global optimization algorithms.Ĭompute the RF budget of a cascade of RF components in terms of noise, power, gain, and nonlinearity. Calculate input and output reflection coefficients, stability factors, and noise figure for cascaded components. RF AnalysisPerform frequency-domain analysis of RF networks to compute metrics such as VSWR, gain, and group delay. Cascade and use S-parameters data for designing an RF network. Read and write industry-standard data file formats, such as N-port Touchstone. ![]() Build arbitrary networks using RF components such as lumped RLC elements and transmission lines characterized by physical properties. RF Network DesignDesign RF filters and matching networks starting from high-level specifications. Build arbitrary RF networks and analyze them in the frequency domain. Convert and reorder single-ended N-port S-parameters to single-ended M-port S-parameters.ĭesign RF filters and matching networks. Transform single-ended measurements into differential or other mixed-mode formats. Convert S-parameters to S-parameters with different reference impedances.ĭe-embed measured 2N-port S-parameter data by removing the effects of test fixtures and access structures. For example, use Y-parameters for calculating network parameters of RLC circuits, T-parameters for analyzing cascaded elements, and S-parameters for visualizing frequency responses. Measure VSWR, reflection coefficients, phase, and group delay.Ĭhoose the appropriate format by converting among S, Y, Z, ABCD, h, g, and T network parameter formats. Visualize S-parameters on cartesian, polar, or Smith charts. Import and export N-port Touchstone® files. Parameters ManipulationUse functions to transform and manipulate S-parameter data. Convert the format, change the reference impedance, and de-embed measurement data. Measure VSWR, reflection coefficients, phase and group delay. ![]() Use functions to import, export, and visualize N-port S-parameter data. RF Toolbox provides functions to manipulate and automate RF measurement data analysis, including de-embedding, enforcing passivity, and computing group delay. 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. You can generate RF Blockset test benches and validate analytical results against circuit envelope simulations. ![]() The RF Budget Analyzer app lets you analyze transmitters and receivers in terms of noise figure, gain, and IP3. 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. Components can be specified using measurement data, network parameters, or physical properties. With RF Toolbox you can build networks of RF components such as filters, transmission lines, amplifiers, and mixers. You can use RF Toolbox for wireless communications, radar, and signal integrity projects. RF Toolbox™ provides functions, objects, and apps for designing, modeling, analyzing, and visualizing networks of radio frequency (RF) components.
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