S-Parameters and Linear Components
You can specify linear networks by importing S-parameter data files directly into RF Blockset™ models. To plot S-parameter data and the results of rational fitting, use the S-Parameters block. Other RF Blockset blocks enable you to build models using passive components like resistors, capacitors, inductors, and transmission lines.
Blocks
Elements
Basic Components
Resistor | Model resistor for circuit envelope analysis |
Inductor | Model inductor for circuit envelope analysis |
Capacitor | Model capacitor for circuit envelope analysis |
Mutual Inductor | Model two coupled inductors for circuit envelope analysis |
Ground | Simulate connection to electrical ground |
Z (Impedance) | Model complex impedance |
Attenuator | Model attenuator for RF circuit |
Ideal Transformer | Model ideal transformer |
Phase Shift | Model phase shift in RF systems |
Signal Combiner | Compute sum of RF signals |
S-Parameters | Model S-parameter network |
Three-Winding Transformer | Compute sum of RF signals |
Transmission Line | Model transmission line |
RF Compound Components
Antenna | Model antenna or antenna array accounting for incident power wave (RX) and radiated power wave (TX) (Since R2020b) |
Filter | Model RF Filter |
LC Ladder | Model LC ladder networks |
Simulink Controlled Elements
Variable Attenuator | Model variable attenuator |
Variable Capacitor | Model variable capacitor |
Variable Inductor | Model variable inductor |
Variable Phase Shift | Model variable phase device |
Variable Resistor | Model variable resistor |
Systems
Channel | Model isotropic free-space or ray-tracing based channel (Since R2023b) |
Junctions
Potentiometer | Simulink controlled potentiometer |
Circulator | Model ideal frequency-independent circulators with S-parameters |
Coupler | Model ideal frequency-independent couplers with S-parameters |
Divider | Model ideal frequency-independent dividers or combiners with S-parameters |
SPST | Single pole single throw switch |
SPnT | Single pole multiple throw switch |
SPDT | Single pole double throw switch |
Switch | Simulink controlled two–terminal switch |
Testbenches
Transducer Gain Testbench | Measures transducer gain of system |
Featured Examples
Analysis of Frequency Response of RF System
Analyze the frequency response of an RF system.
Compare Time and Frequency Domain Simulation Options for S-parameters
Model S-parameters using time and frequency domain simulation modes.
Transmission Lines, Delay-Based and Lumped Models
Simulate delay-based and lumped-element transmission lines.
100 Watt TR Module for S-Band Applications
Simulate a 100 Watt transmit and receive (TR) module.
Model RF Systems with Antenna Arrays Using RF Blockset Antenna Block
Use the Antenna block to design antenna arrays for an RF system.
Design and Simulate Monopulse Tracking System
Model and simulate a monopulse tracking system with a transmitter antenna, receiver antenna, and comparator.
MATLAB 명령
다음 MATLAB 명령에 해당하는 링크를 클릭했습니다.
명령을 실행하려면 MATLAB 명령 창에 입력하십시오. 웹 브라우저는 MATLAB 명령을 지원하지 않습니다.
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