Collector Emitter Voltage given Collector Resistance Calculator

✖Collector Supply Voltage is the voltage of the power supply that is connected to the collector of the BJT.ⓘ Collector Supply Voltage [V_cc]			+10% -10%
✖Collector Current is the current that flows through the collector terminal of the BJT.ⓘ Collector Current [I_c]			+10% -10%
✖Input Biasing current is the current that flows into an electrical device. It is measured in amperes (A).ⓘ Input Biasing Current [I _base]			+10% -10%
✖Collector Load Resistor is a resistor that is connected between the collector and V_ccterminals of a bipolar junction transistor.ⓘ Collector Load Resistor [R_c]			+10% -10%

✖Collector Emitter Voltage is the voltage difference between the collector and emitter terminals of a bipolar junction transistor.ⓘ Collector Emitter Voltage given Collector Resistance [V_ce]

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Formula

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Collector Emitter Voltage given Collector Resistance

Formula

`"V"_{"ce"} = "V"_{"cc"}-("I"_{"c"}+"I "_{"base"})*"R"_{"c"}`

Example

`"1.00358V"="60.2V"-("216.0714mA"+"178.5714mA")*"0.15kΩ"`

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Collector Emitter Voltage given Collector Resistance Solution

STEP 0: Pre-Calculation Summary

Formula Used

Collector Emitter Voltage = Collector Supply Voltage-(Collector Current+Input Biasing Current)*Collector Load Resistor
V_ce = V_cc-(I_c+I _base)*R_c
This formula uses 5 Variables

Variables Used

Collector Emitter Voltage - (Measured in Volt) - Collector Emitter Voltage is the voltage difference between the collector and emitter terminals of a bipolar junction transistor.
Collector Supply Voltage - (Measured in Volt) - Collector Supply Voltage is the voltage of the power supply that is connected to the collector of the BJT.
Collector Current - (Measured in Ampere) - Collector Current is the current that flows through the collector terminal of the BJT.
Input Biasing Current - (Measured in Ampere) - Input Biasing current is the current that flows into an electrical device. It is measured in amperes (A).
Collector Load Resistor - (Measured in Ohm) - Collector Load Resistor is a resistor that is connected between the collector and V_ccterminals of a bipolar junction transistor.

STEP 1: Convert Input(s) to Base Unit

Collector Supply Voltage: 60.2 Volt --> 60.2 Volt No Conversion Required
Collector Current: 216.0714 Milliampere --> 0.2160714 Ampere (Check conversion here)
Input Biasing Current: 178.5714 Milliampere --> 0.1785714 Ampere (Check conversion here)
Collector Load Resistor: 0.15 Kilohm --> 150 Ohm (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_ce = V_cc-(I_c+I _base)*R_c --> 60.2-(0.2160714+0.1785714)*150

Evaluating ... ...

V_ce = 1.00358000000001

STEP 3: Convert Result to Output's Unit

1.00358000000001 Volt --> No Conversion Required

FINAL ANSWER

1.00358000000001 ≈ 1.00358 Volt <-- Collector Emitter Voltage

(Calculation completed in 00.004 seconds)

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< 18 Biasing Calculators

Collector Current given Current Gain Mosfet

Go Collector Current = (Current Gain*(Negative Supply Voltage-Base Emitter Voltage))/(Base Resistance+(Current Gain+1)*Emitter Resistance)

Input Biasing Current of Mosfet

Go Input Biasing Current = (Negative Supply Voltage-Base Emitter Voltage)/(Base Resistance+(Current Gain+1)*Emitter Resistance)

Collector Emitter Voltage given Collector Resistance

Go Collector Emitter Voltage = Collector Supply Voltage-(Collector Current+Input Biasing Current)*Collector Load Resistor

Collector Current given Current Gain

Go Collector Current = Current Gain*(Collector Supply Voltage-Base Emitter Voltage)/Base Resistance

Collector Emitter Voltage

Go Collector Emitter Voltage = Collector Supply Voltage-Collector Load Resistor*Collector Current

DC Bias Current of MOSFET

Go DC Bias Current = 1/2*Transconductance Parameter*(Gate-Source Voltage-Threshold Voltage)^2

Collector Voltage with respect to Ground

Go Collector Voltage = Collector Supply Voltage-Collector Current*Collector Load Resistor

Emitter Voltage with respect to Ground

Go Emitter Voltage = -Negative Supply Voltage+(Emitter Current*Emitter Resistance)

Base Current of MOSFET

Go Input Biasing Current = (Bias Voltage-Base Emitter Voltage)/Base Resistance

DC Bias Output Voltage at Drain

Go Output Voltage = Supply Voltage-Load Resistance*DC Bias Current

Collector Current in Saturation

Go Collector Current Saturation = Collector Supply Voltage/Collector Load Resistor

DC Bias Current of MOSFET using Overdrive Voltage

Go DC Bias Current = 1/2*Transconductance Parameter*Effective Voltage^2

Input Bias Current

Go DC Bias Current = (Input Bias Current 1+Input Bias Current 2)/2

Bias Voltage of MOSFET

Go Total Instantaneous Bias Voltage = DC Bias Voltage+DC Voltage

Emitter Current of Mosfet

Go Emitter Current = Collector Current+Input Biasing Current

Collector Current of Mosfet

Go Collector Current = Current Gain*Input Biasing Current

Base Voltage with respect to Ground

Go Base Voltage = Emitter Voltage+Base Emitter Voltage

Bias Current in Differential Pair

Go DC Bias Current = Drain Current 1+Drain Current 2

Collector Emitter Voltage given Collector Resistance Formula

Collector Emitter Voltage = Collector Supply Voltage-(Collector Current+Input Biasing Current)*Collector Load Resistor
V_ce = V_cc-(I_c+I _base)*R_c

What factors affect the collector-emitter voltage?

The following factors affect the collector-emitter voltage:

Collector supply voltage : The collector supply voltage is the voltage that is applied to the collector of the transistor. The collector-emitter voltage cannot exceed the collector supply voltage.
Collector current : The collector current is the current that flows through the collector of the transistor. The collector current affects the collector-emitter voltage because it causes a voltage drop across the collector resistance

How to Calculate Collector Emitter Voltage given Collector Resistance?

Collector Emitter Voltage given Collector Resistance calculator uses Collector Emitter Voltage = Collector Supply Voltage-(Collector Current+Input Biasing Current)*Collector Load Resistor to calculate the Collector Emitter Voltage, The Collector Emitter Voltage given Collector Resistance formula is defined as the voltage difference between the collector and emitter terminals of the transistor. It is one of the most important parameters of a BJT, as it determines the output voltage and power dissipation of the device. Collector Emitter Voltage is denoted by V_ce symbol.

How to calculate Collector Emitter Voltage given Collector Resistance using this online calculator? To use this online calculator for Collector Emitter Voltage given Collector Resistance, enter Collector Supply Voltage (V_cc), Collector Current (I_c), Input Biasing Current (I _base) & Collector Load Resistor (R_c) and hit the calculate button. Here is how the Collector Emitter Voltage given Collector Resistance calculation can be explained with given input values -> -41.99642 = 60.2-(0.2160714+0.1785714)*150.

FAQ

What is Collector Emitter Voltage given Collector Resistance?

The Collector Emitter Voltage given Collector Resistance formula is defined as the voltage difference between the collector and emitter terminals of the transistor. It is one of the most important parameters of a BJT, as it determines the output voltage and power dissipation of the device and is represented as V_ce = V_cc-(I_c+I _base)*R_c or Collector Emitter Voltage = Collector Supply Voltage-(Collector Current+Input Biasing Current)*Collector Load Resistor. Collector Supply Voltage is the voltage of the power supply that is connected to the collector of the BJT, Collector Current is the current that flows through the collector terminal of the BJT, Input Biasing current is the current that flows into an electrical device. It is measured in amperes (A) & Collector Load Resistor is a resistor that is connected between the collector and V_ccterminals of a bipolar junction transistor.

How to calculate Collector Emitter Voltage given Collector Resistance?

The Collector Emitter Voltage given Collector Resistance formula is defined as the voltage difference between the collector and emitter terminals of the transistor. It is one of the most important parameters of a BJT, as it determines the output voltage and power dissipation of the device is calculated using Collector Emitter Voltage = Collector Supply Voltage-(Collector Current+Input Biasing Current)*Collector Load Resistor. To calculate Collector Emitter Voltage given Collector Resistance, you need Collector Supply Voltage (V_cc), Collector Current (I_c), Input Biasing Current (I _base) & Collector Load Resistor (R_c). With our tool, you need to enter the respective value for Collector Supply Voltage, Collector Current, Input Biasing Current & Collector Load Resistor 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 Collector Supply Voltage, Collector Current, Input Biasing Current & Collector Load Resistor. We can use 1 other way(s) to calculate the same, which is/are as follows -

Collector Emitter Voltage = Collector Supply Voltage-Collector Load Resistor*Collector Current

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