Circuit Envelope Library
Elements
| Amplifier | Model amplifier in RF systems |
| Attenuator | Model an attenuator |
| Capacitor | Model capacitor for circuit envelope analysis |
| Filter | Model an RF filter |
| Ground | Electrical reference port |
| Ideal Transformer | Model ideal transformer |
| Inductor | Model inductor for circuit envelope analysis |
| LC Ladder | Model LC ladder networks |
| Mixer | Model mixer in RF systems |
| Mutual Inductor | Model two coupled inductors for circuit envelope analysis |
| Phase Shift | Model phase shift in RF systems |
| Power Amplifier | Model a Power Amplifier with memory |
| Resistor | Model resistor for circuit envelope analysis |
| Signal Combiner | Compute sum of RF signals |
| S-Parameters | Model S-parameter network |
| Three-Winding Transformer | Model three coupled inductors for circuit envelope analysis |
| Transmission Line | Model transmission line |
| Variable Attenuator | Model a variable attenuator |
| Variable Capacitor | Model a variable capacitor |
| Variable Inductor | Model a variable inductor |
| Variable Phase Shift | Model a variable phase shift |
| Variable Resistor | Model a variable resistor |
| VGA | Model VGA (variable gain amplifier) |
| Impedance | Model complex impedance |
Junctions
| Circulator | Model ideal frequency-independent circulators with S-parameters |
| Coupler | Model ideal frequency-independent couplers with S-parameters |
| Divider | Model ideal frequency-independent dividers (combiners) with S-parameters |
| Potentiometer | Model Simulink® controlled potentiometer |
| Switch | Model Simulink controlled two terminal switch |
| SPST | Model single pole single throw (SPST) switch |
| SPDT | Model single pole double throw (SPDT) switch |
| SPnT | Model an absorptive or reflective Single Pole Multiple throw (SPnT) switch |
Sources
| Continuous Wave | Model constant envelope source |
| Noise | Model noise using current or voltage noise source in RF systems |
| Sinusoid | Model DC offset and sinusoidal modulation |
Systems
| Demodulator | Model a Demodulator |
| IQ Demodulator | Model an IQ Demodulator |
| IQ Modulator | Model an IQ Modulator |
| Modulator | Model a Modulator |
Testbenches
| IIP2 Testbench | Measures the Input 2nd Intercept Point of a system |
| IIP3 Testbench | Measures the Input 3rd Intercept Point of a system |
| Noise Figure Testbench | Measures the Noise Figure of a System |
| OIP2 Testbench | Measures the Output 2nd Intercept Point of a system |
| OIP3 Testbench | Measures the Output 3rd Intercept Point of a system |
| Transducer Gain Testbench | Measures the Transducer Gain of a system |
Utilities
| Configuration | Specify system-wide parameters for circuit envelope analysis |
| Inport | Convert Simulink input signal to RF Blockset™ signal |
| Outport | Convert RF Blockset signal to Simulink output signals |
| Connection Port | Connection port for RF subsystem |
| Spectrum Analyzer | Display frequency spectrum of time-domain signals |
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