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Gyrator

Gyrator with two transconductance parameters

 Description The Gyrator component models an ideal gyrator with independent transconductance parameters.
 Equations ${i}_{1}={i}_{\mathrm{p1}}=-{i}_{\mathrm{n1}}={G}_{2}{v}_{2}$ ${i}_{2}={i}_{\mathrm{p2}}=-{i}_{\mathrm{n2}}=-{G}_{1}{v}_{1}$ ${v}_{1}={v}_{\mathrm{p1}}-{v}_{\mathrm{n1}}$ ${v}_{2}={v}_{\mathrm{p2}}-{v}_{\mathrm{n2}}$

Variables

 Name Units Description Modelica ID $\mathrm{v1}$ $V$ Voltage drop over the left port v1 $\mathrm{v2}$ $V$ Voltage drop over the right port v2 $\mathrm{i1}$ $A$ Current flowing from pos. to neg. pin of the left port i1 $\mathrm{i2}$ $A$ Current flowing from pos. to neg. pin of the right port i2

Connections

 Name Description Modelica ID $\mathrm{p1}$ Positive pin of the left port p1 $\mathrm{n1}$ Negative pin of the left port n1 $\mathrm{p2}$ Positive pin of the right port p2 $\mathrm{n2}$ Negative pin of the right port n2

Parameters

 Name Default Units Description Modelica ID ${G}_{1}$ $1$ $S$ Forward transconductance G1 ${G}_{2}$ $1$ $S$ Reverse transconductance G2

 Modelica Standard Library The component described in this topic is from the Modelica Standard Library. To view the original documentation, which includes author and copyright information, click here.