Ohmic Conductivity in Integrated Circuits (IC) Formulas

Ohmic Conductivity is the measure of the capability of the material to pass the flow of electric current. Electrical conductivity differs from one material to another. And is denoted by σ. Ohmic Conductivity is usually measured using the Mho per Centimeter for Electric Conductivity. Note that the value of Ohmic Conductivity is always positive.

Formulas to find Ohmic Conductivity in Integrated Circuits (IC)

fxOhmic Conductivity of ImpurityGo

fxConductivity of N-TypeGo

fxConductivity of P-TypeGo

Integrated Circuits (IC) formulas that make use of Ohmic Conductivity

fxResistance of Diffused LayerGo

List of variables in Integrated Circuits (IC) formulas

fx Charge Go

fx Electron Doping Silicon Mobility Go

fx Electron Concentration Go

fx Hole Doping Silicon Mobility Go

fx Hole Concentration Go

fx Equilibrium Concentration of N-Type Go

fx Intrinsic Concentration Go

fx Equilibrium Concentration of P-Type Go

FAQ

What is the Ohmic Conductivity?

Ohmic Conductivity is the measure of the capability of the material to pass the flow of electric current. Electrical conductivity differs from one material to another. Ohmic Conductivity is usually measured using the Mho per Centimeter for Electric Conductivity. Note that the value of Ohmic Conductivity is always positive.

Can the Ohmic Conductivity be negative?

No, the Ohmic Conductivity, measured in Electric Conductivity cannot be negative.

What unit is used to measure Ohmic Conductivity?

Ohmic Conductivity is usually measured using the Mho per Centimeter[mho/cm] for Electric Conductivity. Siemens per Meter[mho/cm], Mho per Meter[mho/cm], Abmho per Meter[mho/cm] are the few other units in which Ohmic Conductivity can be measured.

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