Linear network analysis
Elements

ResistanceCapacitor button.svgInductor button.svgReactanceImpedanceVoltage button.svg
ConductanceElastance button.svgBlank button.svgSusceptance button.svgAdmittance button.svgCurrent button.svg

Components

Resistor button.svg Capacitor button.svg Inductor button.svg Ohm's law button.svg

Series and parallel circuits

Series resistor button.svgParallel resistor button.svgSeries capacitor button.svgParallel capacitor button.svgSeries inductor button.svgParallel inductor button.svg

Impedance transforms

Y-Δ transform Δ-Y transform star-polygon transforms Dual button.svg

Generator theorems Network theorems

Thevenin button.svgNorton button.svgMillman button.svg

KCL button.svgKVL button.svgTellegen button.svg

Network analysis methods

KCL button.svg KVL button.svg Superposition button.svg

Two-port parameters

z-parametersy-parametersh-parametersg-parametersAbcd-parameter button.svgS-parameters



A network, in the context of electrical engineering and electronics, is a collection of interconnected components. Network analysis is the process of finding the voltages across, and the currents through, all network components. There are many techniques for calculating these values. However, for the most part, the techniques assume linear components. Except where stated, the methods described in this article are applicable only to linear network analysis.

Definitions