A collection of models (and blocks) used for the different examples.
Some models (especially ZenerDiodePairApproximation, IdealNIC and Triode) contain a nonlinear algebraic relationship between voltage and current which is easy to solve in one direction but hard or impossible in the inverse direction due to non-ambigous solutions of the algebraic equation. However, for the use in the examples this has no negative influence.
| Name | Description |
|---|---|
| SimpleDiode | Shockley diode equation |
| DynamicDiode | Dynamic diode model including junction and diffusion capacitance |
| ZenerDiodePairApproximation | Approximation |
| SimpleTransistor | Simple small-signal npn-model |
| Staircase | Generate staircase signal |
| SimpleLimiter | Limit the range of a signal |
| ImprovedOpAmp3Pin | Idealized operational amplifier within implicit supply |
| Multiplier | Analog multiplier |
| IdealNIC | Ideal model of a negative impedance converter |
| HystereticNIC | Ideal model of a negative impedance converter |
| ImprovedNIC | Improved model of a negative impedance converter |
| IdealChuaDiode | Chua's diode |
| ImprovedChuaDiode | Chua's diode |
| AnalyticAntoniou | Analytic Antoniou simulated inductance |
| IdealAntoniou | Ideal Antoniou simulated inductance |
| ImprovedAntoniou | Improved Antoniou simulated inductance |
| Triode | van der Pol model of vaccum electron tube |
| RotationalEMF | Electromotoric force (electric/mechanic transformer) |
| DriftMemristor | Memristor Nonlinear Drift Model |
| NegFCMemristor | Flux-controlled Memristor with partly negative conductance |
| MemristorReplacement | Flux-controlled Memristor with partly negative conductance |