Input Resistance of Common-Emitter Amplifier given Emitter Resistance Solution

STEP 0: Pre-Calculation Summary
Formula Used
Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/((Total Resistance+Emitter Resistance)*(Collector Base Current Gain+1)))^-1
Rin = (1/Rb+1/Rb2+1/((Rt+Re)*(β+1)))^-1
This formula uses 6 Variables
Variables Used
Input Resistance - (Measured in Ohm) - Input resistance 2 is the opposition that an electrical component or circuit presents to the flow of electrical current when a voltage is applied to it.
Base Resistance - (Measured in Ohm) - Base resistance is a measure of the opposition to current flow in an electrical circuit.
Base Resistance 2 - (Measured in Ohm) - Base resistance 2 is a measure of the opposition to current flow in an electrical circuit.
Total Resistance - (Measured in Ohm) - Total resistance is defined as the sum of all the resistances present in the circuit of a transistor amplifier.
Emitter Resistance - (Measured in Ohm) - Emitter Resistance is a dynamic resistance of the emitter-base junction diode of a transistor.
Collector Base Current Gain - Collector Base Current Gain is a term used in electronic circuits to describe the maximum current that a collector-emitter junction of a transistor can tolerate without breaking down.
STEP 1: Convert Input(s) to Base Unit
Base Resistance: 1.213 Kilohm --> 1213 Ohm (Check conversion ​here)
Base Resistance 2: 0.534 Kilohm --> 534 Ohm (Check conversion ​here)
Total Resistance: 0.072 Kilohm --> 72 Ohm (Check conversion ​here)
Emitter Resistance: 0.067 Kilohm --> 67 Ohm (Check conversion ​here)
Collector Base Current Gain: 12 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Rin = (1/Rb+1/Rb2+1/((Rt+Re)*(β+1)))^-1 --> (1/1213+1/534+1/((72+67)*(12+1)))^-1
Evaluating ... ...
Rin = 307.648298323254
STEP 3: Convert Result to Output's Unit
307.648298323254 Ohm -->0.307648298323254 Kilohm (Check conversion ​here)
FINAL ANSWER
0.307648298323254 0.307648 Kilohm <-- Input Resistance
(Calculation completed in 00.020 seconds)

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Birsa Institute of Technology (BIT), Sindri
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Common Emitter Amplifier Calculators

Overall Feedback Voltage Gain of Common-Collector Amplifier
​ LaTeX ​ Go Overall Voltage Gain = ((Collector Base Current Gain+1)*Load Resistance)/((Collector Base Current Gain+1)*Load Resistance+(Collector Base Current Gain+1)*Emitter Resistance+Signal Resistance)
Overall Voltage Gain of Common-Emitter Amplifier
​ LaTeX ​ Go Feedback Voltage Gain = -MOSFET Primary Transconductance*(Input Resistance/(Input Resistance+Signal Resistance))*(1/Collector Resistance+1/Load Resistance+1/Finite Output Resistance)^-1
Overall Feedback Voltage Gain of Common-Emitter Amplifier
​ LaTeX ​ Go Feedback Voltage Gain = -Common Base Current Gain*Collector Resistance/Emitter Resistance*(Input Resistance/(Input Resistance+Signal Resistance))
Fundamental Voltage in Common-Emitter Amplifier
​ LaTeX ​ Go Fundamental Component Voltage = Input Resistance*Base Current

CV Actions of Common Stage Amplifiers Calculators

Input Resistance of Common Emitter Amplifier
​ LaTeX ​ Go Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/Small Signal Input Resistance)^-1
Input Impedance of Common-Base Amplifier
​ LaTeX ​ Go Input Impedance = (1/Emitter Resistance+1/Small Signal Input Resistance)^(-1)
Fundamental Voltage in Common-Emitter Amplifier
​ LaTeX ​ Go Fundamental Component Voltage = Input Resistance*Base Current
Emitter Current of Common-Base Amplifier
​ LaTeX ​ Go Emitter Current = Input Voltage/Emitter Resistance

Input Resistance of Common-Emitter Amplifier given Emitter Resistance Formula

​LaTeX ​Go
Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/((Total Resistance+Emitter Resistance)*(Collector Base Current Gain+1)))^-1
Rin = (1/Rb+1/Rb2+1/((Rt+Re)*(β+1)))^-1

What does a common emitter amplifier do?

The common emitter amplifier configuration provides voltage gain and is one of the most widely used transistor configurations for electronic circuit design. The common emitter transistor amplifier circuit is one of the mainstay circuits for use within electronic circuit design offers many advantages.

How to Calculate Input Resistance of Common-Emitter Amplifier given Emitter Resistance?

Input Resistance of Common-Emitter Amplifier given Emitter Resistance calculator uses Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/((Total Resistance+Emitter Resistance)*(Collector Base Current Gain+1)))^-1 to calculate the Input Resistance, The Input resistance of common-emitter amplifier given emitter resistance formula is defined as the opposition offered to the flow of the current of the electrical circuit. Input Resistance is denoted by Rin symbol.

How to calculate Input Resistance of Common-Emitter Amplifier given Emitter Resistance using this online calculator? To use this online calculator for Input Resistance of Common-Emitter Amplifier given Emitter Resistance, enter Base Resistance (Rb), Base Resistance 2 (Rb2), Total Resistance (Rt), Emitter Resistance (Re) & Collector Base Current Gain (β) and hit the calculate button. Here is how the Input Resistance of Common-Emitter Amplifier given Emitter Resistance calculation can be explained with given input values -> 0.000308 = (1/1213+1/534+1/((72+67)*(12+1)))^-1.

FAQ

What is Input Resistance of Common-Emitter Amplifier given Emitter Resistance?
The Input resistance of common-emitter amplifier given emitter resistance formula is defined as the opposition offered to the flow of the current of the electrical circuit and is represented as Rin = (1/Rb+1/Rb2+1/((Rt+Re)*(β+1)))^-1 or Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/((Total Resistance+Emitter Resistance)*(Collector Base Current Gain+1)))^-1. Base resistance is a measure of the opposition to current flow in an electrical circuit, Base resistance 2 is a measure of the opposition to current flow in an electrical circuit, Total resistance is defined as the sum of all the resistances present in the circuit of a transistor amplifier, Emitter Resistance is a dynamic resistance of the emitter-base junction diode of a transistor & Collector Base Current Gain is a term used in electronic circuits to describe the maximum current that a collector-emitter junction of a transistor can tolerate without breaking down.
How to calculate Input Resistance of Common-Emitter Amplifier given Emitter Resistance?
The Input resistance of common-emitter amplifier given emitter resistance formula is defined as the opposition offered to the flow of the current of the electrical circuit is calculated using Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/((Total Resistance+Emitter Resistance)*(Collector Base Current Gain+1)))^-1. To calculate Input Resistance of Common-Emitter Amplifier given Emitter Resistance, you need Base Resistance (Rb), Base Resistance 2 (Rb2), Total Resistance (Rt), Emitter Resistance (Re) & Collector Base Current Gain (β). With our tool, you need to enter the respective value for Base Resistance, Base Resistance 2, Total Resistance, Emitter Resistance & Collector Base Current Gain 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 Input Resistance?
In this formula, Input Resistance uses Base Resistance, Base Resistance 2, Total Resistance, Emitter Resistance & Collector Base Current Gain. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/Small Signal Input Resistance)^-1
  • Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/(Small Signal Input Resistance+(Collector Base Current Gain+1)*Emitter Resistance))^-1
  • Input Resistance = (1/Base Resistance+1/Base Resistance 2+1/Small Signal Input Resistance)^-1
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