This is machine translation

Translated by Microsoft
Mouseover text to see original. Click the button below to return to the English version of the page.

Note: This page has been translated by MathWorks. Click here to see
To view all translated materials including this page, select Country from the country navigator on the bottom of this page.

RF Blockset Blocks - By Category

Alphabetical List By Category

Circuit Envelope Simulation

Circuit Envelope Fundamentals

Continuous WaveModel constant envelope source
NoiseModel noise using current or voltage noise source in RF systems
SinusoidModel DC offset and sinusoidal modulation
ConfigurationDefine system simulation settings
InportConvert Simulink input signal to RF Blockset signal
OutportConvert RF Blockset signal to Simulink output signals
Connection PortConnection port for RF subsystem
GroundSimulate connection to electrical ground
Spectrum AnalyzerDisplay frequency spectrum of time-domain signals

S-Parameters and Linear Components

AttenuatorModel attenuator for RF circuit
CapacitorModel capacitor for circuit envelope analysis
FilterModel RF Filter
GroundSimulate connection to electrical ground
Ideal TransformerModel ideal transformer
InductorModel inductor for circuit envelope analysis
LC LadderModel LC ladder networks
Mutual InductorModel two coupled inductors for circuit envelope analysis
Phase ShiftModel phase shift in RF systems
ResistorModel resistor for circuit envelope analysis
Signal CombinerCompute sum of RF signals
S-ParametersModel S-parameter network
Three-Winding TransformerModel three coupled inductors for circuit envelope analysis
Transmission lineModel transmission line
Variable AttenuatorModel variable attenuator
Variable CapacitorModel variable capacitor
Variable InductorModel variable inductor
Variable Phase ShiftModel variable phase device
Variable ResistorModel variable resistor
ImpedanceModel complex impedance
PotentiometerSimulink controlled potentiometer
CirculatorModel ideal frequency-independent circulators with S-parameters
CouplerModel ideal frequency-independent couplers with S-parameters
DividerModel ideal frequency-independent dividers (combiners) with S-parameters
SPSTSingle pole single throw switch
SPnTSingle pole multiple throw switch
SPDTSingle pole double throw switch
SwitchSimulink controlled two–terminal switch
Transducer Gain TestbenchMeasures transducer gain of system

Noise Modeling

AmplifierModel amplifier in RF systems
ResistorModel resistor for circuit envelope analysis
MixerModel mixer in RF systems
S-ParametersModel S-parameter network
Noise Figure TestbenchMeasures noise figure of system
NoiseModel noise using current or voltage noise source in RF systems
Continuous WaveModel constant envelope source
ConfigurationDefine system simulation settings

Nonlinear Modeling

AmplifierModel amplifier in RF systems
MixerModel mixer in RF systems
Power AmplifierModel power amplifier with memory
VGAVariable gain amplifier
OIP3 TestbenchMeasure output third intercept point of system
IIP3 TestbenchMeasure input third intercept point of system
OIP2 TestbenchMeasure output second intercept point of system
IIP2 TestbenchMeasure input second intercept point of system
IQ DemodulatorConvert RF signal to baseband signal
IQ ModulatorConvert baseband signal to RF signal
ModulatorModel RF to RF modulator
DemodulatorModel RF to RF demodulator

Measurements and Testbenches

Transducer Gain TestbenchMeasures transducer gain of system
Noise Figure TestbenchMeasures noise figure of system
OIP3 TestbenchMeasure output third intercept point of system
IIP3 TestbenchMeasure input third intercept point of system
OIP2 TestbenchMeasure output second intercept point of system
IIP2 TestbenchMeasure input second intercept point of system

Custom Blocks

ConfigurationDefine system simulation settings
InportConvert Simulink input signal to RF Blockset signal
OutportConvert RF Blockset signal to Simulink output signals
GroundSimulate connection to electrical ground

Equivalent Baseband Simulation

Cascaded Subsystems

General AmplifierModel nonlinear amplifier described by rfdata object or file data
S-Parameters AmplifierModel nonlinear amplifier using S-parameters
Y-Parameters AmplifierModel nonlinear amplifier using Y-parameters
Z-Parameters AmplifierModel nonlinear amplifier using Z-parameters
General MixerModel mixer and local oscillator described by rfdata object
S-Parameters MixerModel mixer and local oscillator using S-parameters
Y-Parameters MixerModel mixer and local oscillator using Y-parameters
Z-Parameters MixerModel mixer and local oscillator using Z-parameters
LC Bandpass PiModel LC bandpass pi network
LC Bandpass TeeModel LC bandpass tee network
LC Bandstop PiModel LC bandstop pi network
LC Bandstop TeeModel LC bandstop tee network
LC Highpass PiModel LC highpass pi network
LC Highpass TeeModel LC highpass tee network
LC Lowpass PiModel LC lowpass pi network
LC Lowpass TeeModel LC lowpass tee network
Series RModel series resistor
Series LModel series inductor
Series CModel series capacitor
Series RLCModel series RLC network
Shunt RModel shunt resistor
Shunt LModel shunt inductor
Shunt CModel shunt capacitor
Shunt RLCModel shunt RLC network
Connection PortConnection port for RF subsystem
Input PortConnection block from Simulink environment to RF physical blocks
Output PortConnection block from RF physical blocks to Simulink environment
Coaxial Transmission LineModel coaxial transmission line
Coplanar Waveguide Transmission LineModel coplanar waveguide transmission line
Microstrip Transmission LineModel microstrip transmission line
Parallel-Plate Transmission LineModel parallel-plate transmission line
RLCG Transmission LineModel RLCG transmission line
Transmission LineModel transmission line
Two-Wire Transmission LineModel two-wire transmission line

Network Parameter Data

General Circuit ElementModel two-port network described by rfckt object
General AmplifierModel nonlinear amplifier described by rfdata object or file data
General MixerModel mixer and local oscillator described by rfdata object
General Passive NetworkModel two-port passive network described by rfdata object
S-Parameters AmplifierModel nonlinear amplifier using S-parameters
S-Parameters MixerModel mixer and local oscillator using S-parameters
S-Parameters Passive NetworkModel passive network using S-parameters
Y-Parameters AmplifierModel nonlinear amplifier using Y-parameters
Y-Parameters MixerModel mixer and local oscillator using Y-parameters
Y-Parameters Passive NetworkModel passive network using Y-parameters
Z-Parameters AmplifierModel nonlinear amplifier using Z-parameters
Z-Parameters MixerModel mixer and local oscillator using Z-parameters
Z-Parameters Passive NetworkModel passive network using Z-parameters

Visualization

Output PortConnection block from RF physical blocks to Simulink environment