Collector to Emitter Voltage at Saturation Calculator

✖Base-Emitter Voltage is the forward voltage between the base and emitter of the transistor.ⓘ Base-Emitter Voltage [V_BE]			+10% -10%
✖Base-Collector Voltage is the electric potential between the base and collector region of a transistor.ⓘ Base-Collector Voltage [V_BC]			+10% -10%

✖Collector-Emitter Voltage is the electric potential between the base and collector region of a transistor.ⓘ Collector to Emitter Voltage at Saturation [V_CE]

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Formula

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Collector to Emitter Voltage at Saturation

Formula

`"V"_{"CE"} = "V"_{"BE"}-"V"_{"BC"}`

Example

`"3.15V"="5.15V"-"2V"`

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Collector to Emitter Voltage at Saturation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Collector-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage
V_CE = V_BE-V_BC
This formula uses 3 Variables

Variables Used

Collector-Emitter Voltage - (Measured in Volt) - Collector-Emitter Voltage is the electric potential between the base and collector region of a transistor.
Base-Emitter Voltage - (Measured in Volt) - Base-Emitter Voltage is the forward voltage between the base and emitter of the transistor.
Base-Collector Voltage - (Measured in Volt) - Base-Collector Voltage is the electric potential between the base and collector region of a transistor.

STEP 1: Convert Input(s) to Base Unit

Base-Emitter Voltage: 5.15 Volt --> 5.15 Volt No Conversion Required
Base-Collector Voltage: 2 Volt --> 2 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_CE = V_BE-V_BC --> 5.15-2

Evaluating ... ...

V_CE = 3.15

STEP 3: Convert Result to Output's Unit

3.15 Volt --> No Conversion Required

FINAL ANSWER

3.15 Volt <-- Collector-Emitter Voltage

(Calculation completed in 00.004 seconds)

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Credits

Created by Payal Priya

Birsa Institute of Technology (BIT), Sindri

Payal Priya has created this Calculator and 600+ more calculators!

Verified by Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has verified this Calculator and 1900+ more calculators!

< 12 Voltage Calculators

Finite Input Voltage of BJT at Unity Gain Frequency given Complex Frequency Variable

Go Input Voltage = Base Current/((1/Input Resistance)+Complex Frequency Variable*(Collector-Base Junction Capacitance+Base–Emitter Junction Capacitance))

Voltage across Collector-Emitter of BJT Amplifier

Go Collector-Emitter Voltage = Supply Voltage-Load Resistance*Saturation Current*e^(Base-Emitter Voltage/Threshold Voltage)

Finite Input Voltage of BJT at Unity Gain Frequency

Go Input Voltage = Base Current*(1/Input Resistance+1/Collector-Base Junction Capacitance+1/Emitter-Base Capacitance)

Single Component of Drain Voltage given Transconductance

Go Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance

Voltage between Gate and Source

Go Gate to Source Voltage = Input Voltage/(1+Transconductance*Resistance)

Output Voltage given Transconductance

Go Output Voltage = -(Transconductance*Load Resistance*Input Voltage)

Small Signal Input Voltage given Transconductance

Go Small Signal = Input Voltage*(1/(1+Transconductance*Resistance))

Output Voltage of BJT Amplifier

Go Output Voltage = Supply Voltage-Drain Current*Load Resistance

Single Component of Drain Voltage

Go Total Instantaneous Drain Voltage = (-Change in Drain Current*Load Resistance)

Collector to Emitter Voltage at Saturation

Go Collector-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage

Total Instantaneous Gate-to-Source Voltage

Go Gate to Source Voltage = Small Signal+Voltage Across Oxide

Supply Voltage at Maximum Power Dissipation

Go Supply Voltage = (pi*Power)/2

< 20 BJT Circuit Calculators

Transition Frequency of BJT

Go Transition Frequency = Transconductance/(2*pi*(Emitter-Base Capacitance+Collector-Base Junction Capacitance))

Base Current of PNP Transistor using Saturation Current

Go Base Current = (Saturation Current/Common Emitter Current Gain)*e^(Base-Emitter Voltage/Thermal Voltage)

Total Power Dissipated in BJT

Go Power = Collector-Emitter Voltage*Collector Current+Base-Emitter Voltage*Base Current

Unity-Gain Bandwidth of BJT

Go Unity-Gain Bandwidth = Transconductance/(Emitter-Base Capacitance+Collector-Base Junction Capacitance)

Reference Current of BJT Mirror

Go Reference Current = Collector Current+(2*Collector Current)/Common Emitter Current Gain

Common Mode Rejection Ratio

Go Common Mode Rejection Ratio = 20*log10(Differential Mode Gain/Common Mode Gain)

Output Resistance of BJT

Go Resistance = (Supply Voltage+Collector-Emitter Voltage)/Collector Current

Thermal Equilibrium Concentration of Minority Charge Carrier

Go Thermal Equilibrium Concentration = ((Intrinsic Carrier Density)^2)/Doping Concentration of Base

Output Voltage of BJT Amplifier

Go Output Voltage = Supply Voltage-Drain Current*Load Resistance

Total Power Supplied in BJT

Go Power = Supply Voltage*(Collector Current+Input Current)

Common-Base Current Gain

Go Common-Base Current Gain = Common Emitter Current Gain/(Common Emitter Current Gain+1)

Collector to Emitter Voltage at Saturation

Go Collector-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage

Base Current of PNP Transistor given Emitter Current

Go Base Current = Emitter Current/(Common Emitter Current Gain+1)

Base Current of PNP Transistor using Collector Current

Go Base Current = Collector Current/Common Emitter Current Gain

Collector Current using Emitter Current

Go Collector Current = Common-Base Current Gain*Emitter Current

Base Current of PNP Transistor using Common-Base Current Gain

Go Base Current = (1-Common-Base Current Gain)*Emitter Current

Collector Current of BJT

Go Collector Current = Emitter Current-Base Current

Emitter Current of BJT

Go Emitter Current = Collector Current+Base Current

Short-Circuit Transconductance

Go Transconductance = Output Current/Input Voltage

Intrinsic Gain of BJT

Go Intrinsic Gain = Early Voltage/Thermal Voltage

Collector to Emitter Voltage at Saturation Formula

Collector-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage
V_CE = V_BE-V_BC

What is V_CEsat ?

The collector-to-emitter voltage v_CE 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-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage to calculate the Collector-Emitter Voltage, 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-Emitter Voltage is denoted by V_CE 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 Base-Emitter Voltage (V_BE) & Base-Collector Voltage (V_BC) and hit the calculate button. Here is how the Collector to Emitter Voltage at Saturation calculation can be explained with given input values -> 3.15 = 5.15-2.

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 V_CE = V_BE-V_BC or Collector-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage. Base-Emitter Voltage is the forward voltage between the base and emitter of the transistor & Base-Collector Voltage 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-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage. To calculate Collector to Emitter Voltage at Saturation, you need Base-Emitter Voltage (V_BE) & Base-Collector Voltage (V_BC). With our tool, you need to enter the respective value for Base-Emitter Voltage & Base-Collector 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-Emitter Voltage?

In this formula, Collector-Emitter Voltage uses Base-Emitter Voltage & Base-Collector Voltage. We can use 1 other way(s) to calculate the same, which is/are as follows -

Collector-Emitter Voltage = Supply Voltage-Load Resistance*Saturation Current*e^(Base-Emitter Voltage/Threshold Voltage)

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Collector to Emitter Voltage at Saturation Calculator

Collector to Emitter Voltage at Saturation

Collector to Emitter Voltage at Saturation Solution

Credits

< 12 Voltage Calculators

< 20 BJT Circuit Calculators

Collector to Emitter Voltage at Saturation Formula

What is VCEsat ?

How to Calculate Collector to Emitter Voltage at Saturation?

FAQ

What is V_CEsat ?