Payal Priya
Birsa Institute of Technology (BIT), Sindri
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Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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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
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
Voltage across collector-emitter when MOSFET acts as an amplifier
Voltage across collector-emitter=Supply Voltage-Load Resistance*Saturation current*e^(Voltage across the base–emitter junction/Threshold voltage) 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
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 in active region when transistor acts as an amplifier
Collector current=Saturation current*e^(Voltage across the base–emitter junction/Threshold voltage) GO
Collector current when saturation current is given
Collector current=Saturation current*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

Collector to emitter voltage at saturation Formula

Collector to emitter voltage at saturation=Voltage across the base–emitter junction-Voltage across base-collector junction
V<sub>CESat</sub>=V<sub>BE</sub>-V<sub>BC</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
Collector current when saturation current is given GO
Base current when saturation current in DC is given GO
Forced common-emitter current gain GO

What is VCEsat ?

The collector-to-emitter voltage vCE of a saturated transistor can be found as the difference between the forward-bias voltages of the EBJ and the CBJ.

How to Calculate Collector to emitter voltage at saturation?

Collector to emitter voltage at saturation calculator uses Collector to emitter voltage at saturation=Voltage across the base–emitter junction-Voltage across base-collector junction to calculate the Collector to emitter voltage at saturation, The Collector to emitter voltage at saturation is the ratio of voltage across base-emitter junction and voltage across the base-collector junction at saturation mode. Collector to emitter voltage at saturation and is denoted by VCESat symbol.

How to calculate Collector to emitter voltage at saturation using this online calculator? To use this online calculator for Collector to emitter voltage at saturation, enter Voltage across the base–emitter junction (VBE) and Voltage across base-collector junction (VBC) and hit the calculate button. Here is how the Collector to emitter voltage at saturation calculation can be explained with given input values -> 3 = 5-2.

FAQ

What is Collector to emitter voltage at saturation?
The Collector to emitter voltage at saturation is the ratio of voltage across base-emitter junction and voltage across the base-collector junction at saturation mode and is represented as VCESat=VBE-VBC or Collector to emitter voltage at saturation=Voltage across the base–emitter junction-Voltage across base-collector junction. The voltage across the base–emitter junction is the forward voltage between the base and emitter of the transistor and Voltage across base-collector junction is the electric potential between the base and collector region of a transistor.
How to calculate Collector to emitter voltage at saturation?
The Collector to emitter voltage at saturation is the ratio of voltage across base-emitter junction and voltage across the base-collector junction at saturation mode is calculated using Collector to emitter voltage at saturation=Voltage across the base–emitter junction-Voltage across base-collector junction. To calculate Collector to emitter voltage at saturation, you need Voltage across the base–emitter junction (VBE) and Voltage across base-collector junction (VBC). With our tool, you need to enter the respective value for Voltage across the base–emitter junction and Voltage across base-collector junction and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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