Payal Priya
Birsa Institute of Technology (BIT), Sindri
Payal Priya has created this Calculator and 300+ more calculators!
Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
Urvi Rathod has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Base current when saturation current in DC is given
Base Current=(Saturation current/Common emitter current gain)*e^(Voltage across the base–emitter junction/Thermal voltage)+Saturation Vapour Pressure at Water Surface*e^(Voltage across base-collector junction/Thermal voltage) GO
Collector current when saturation current of DC is given
Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)-Saturation current for DC*e^(Voltage across base-collector junction/Thermal voltage) GO
Emitter current when common-emitter current gain is given
Emitter current=((Common emitter current gain+1)/Common emitter current gain)*Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage) GO
Diode Equation
Diode Equation=Saturation current*(2.71^(Voltage across diode/(Emission coefficient or ideality factor*Volts-Equivalent of Temperature))-1) GO
Concentration of electrons injected from emitter to base
Concentration of e- injected from emitter to base=Thermal Equilibrium Value*e^(Voltage across the base–emitter junction/Thermal voltage) GO
Non-Ideal Diode Equation
Diode Current=Saturation current*(e^(([Charge-e]*Voltage across diode)/(Emission coefficient or ideality factor*[BoltZ]*Temperature))-1) GO
Base Current 2 of BJT
Base Current 2=(Saturation current/Common emitter current gain)*(e^(Voltage across the base–emitter junction/Thermal voltage)) GO
Emitter current when constant of the transistor is given
Emitter current=(Saturation current/Common-base current gain.)*e^(Voltage across the base–emitter junction/Thermal voltage) GO
Collector Current of BJT
Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage) GO
Ideal Diode Equation
Diode Current=Saturation current*(e^([Charge-e]*Voltage)/([BoltZ]*Temperature)-1) GO
Diode Equation
Diode Current=Saturation current*(e^(Voltage across diode/0.026)-1) GO

11 Other formulas that calculate the same Output

Collector current when saturation current of DC is given
Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)-Saturation current for DC*e^(Voltage across base-collector junction/Thermal voltage) GO
Collector current when early voltage is given for NPN transistor
Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)*(1+Voltage across collector-emitter/Early voltage) GO
Collector Current of BJT
Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage) GO
Collector current of PNP transistor
Collector current=Saturation current*e^(Voltage across emitter-base junction/Thermal voltage) GO
Collector current of PNP transistor when common-emitter current gain
Collector current=Forced common-emitter current gain*Base Current GO
Collector current using Current amplification factor
Collector current=Current Amplification factor*Emitter current GO
Collector current of PNP transistor when common-base current gain is given
Collector current=Common-base current gain.*Emitter current GO
Collector current when emitter current is given
Collector current=Common-base current gain.*Emitter current GO
Collector current using Base transport factor
Collector current=Base Transport factor*Base Current GO
collector current Of A Transistor Using alpha
Collector current=Alpha*Emitter current GO
Collector current Of A Transistor Using Beta
Collector current=Beta*Base Current GO

Collector current when saturation current is given Formula

Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)
I<sub>c</sub>=I<sub>s</sub>*e^(V<sub>BE</sub>/V<sub>t</sub>)
More formulas
Emitter current through minor carrier concentration GO
Saturation current GO
Saturation current when doping concentration is given GO
Thermal equilibrium value of minority charge carrier GO
Base current when saturation current in DC is given GO
Forced common-emitter current gain GO
Collector to emitter voltage at saturation GO

What is saturation collector current?

Saturation, as the name might imply, is where the base current has increased well beyond the point that the emitter-base junction is forward biased. In fact, the base current has increased beyond the point where it can cause the collector current flow to increase.

How to Calculate Collector current when saturation current is given?

Collector current when saturation current is given calculator uses Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage) to calculate the Collector current, The Collector current when saturation current is given is the direct current that passes through the collector at the saturation region. Collector current and is denoted by Ic symbol.

How to calculate Collector current when saturation current is given using this online calculator? To use this online calculator for Collector current when saturation current is given, enter Saturation current (Is), Voltage across the base–emitter junction (VBE) and Thermal voltage (Vt) and hit the calculate button. Here is how the Collector current when saturation current is given calculation can be explained with given input values -> 1.006E+82 = 0.01*e^(5/0.02585).

FAQ

What is Collector current when saturation current is given?
The Collector current when saturation current is given is the direct current that passes through the collector at the saturation region and is represented as Ic=Is*e^(VBE/Vt) or Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage). Saturation current is the diode leakage current density in the absence of light. It is an important parameter which differentiates one diode from another, The voltage across the base–emitter junction is the forward voltage between the base and emitter of the transistor and Thermal Voltage is the voltage produced within the p-n junction.
How to calculate Collector current when saturation current is given?
The Collector current when saturation current is given is the direct current that passes through the collector at the saturation region is calculated using Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage). To calculate Collector current when saturation current is given, you need Saturation current (Is), Voltage across the base–emitter junction (VBE) and Thermal voltage (Vt). With our tool, you need to enter the respective value for Saturation current, Voltage across the base–emitter junction and Thermal voltage and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Collector current?
In this formula, Collector current uses Saturation current, Voltage across the base–emitter junction and Thermal voltage. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Collector current=Base Transport factor*Base Current
  • Collector current=Current Amplification factor*Emitter current
  • Collector current=Alpha*Emitter current
  • Collector current=Beta*Base Current
  • Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)
  • Collector current=Common-base current gain.*Emitter current
  • Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)-Saturation current for DC*e^(Voltage across base-collector junction/Thermal voltage)
  • Collector current=Saturation current*e^(Voltage across emitter-base junction/Thermal voltage)
  • Collector current=Common-base current gain.*Emitter current
  • Collector current=Forced common-emitter current gain*Base Current
  • Collector current=Saturation current*e^(Voltage across the base–emitter junction/Thermal voltage)*(1+Voltage across collector-emitter/Early voltage)
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