Open Circuit Time Constant of Amplifier Calculator

✖Open circuit Time Constant is an approximate analysis technique used in electronic circuit design to determine the corner frequency of complex circuits.ⓘ Open Circuit Time Constant of Amplifier [T_oc]

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Formula

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Open Circuit Time Constant of Amplifier

Formula

`"T"_{"oc"} = 1/"ω"_{"p"}`

Example

`"1.666667s"=1/"0.6Hz"`

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Open Circuit Time Constant of Amplifier Solution

STEP 0: Pre-Calculation Summary

Formula Used

Open Circuit Time Constant = 1/Pole Frequency
T_oc = 1/ω_p
This formula uses 2 Variables

Variables Used

Open Circuit Time Constant - (Measured in Second) - Open circuit Time Constant is an approximate analysis technique used in electronic circuit design to determine the corner frequency of complex circuits.
Pole Frequency - (Measured in Hertz) - A pole frequency is that frequency at which the transfer function of a system approaches infinity.

STEP 1: Convert Input(s) to Base Unit

Pole Frequency: 0.6 Hertz --> 0.6 Hertz No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T_oc = 1/ω_p --> 1/0.6

Evaluating ... ...

T_oc = 1.66666666666667

STEP 3: Convert Result to Output's Unit

1.66666666666667 Second --> No Conversion Required

FINAL ANSWER

1.66666666666667 ≈ 1.666667 Second <-- Open Circuit Time Constant

(Calculation completed in 00.004 seconds)

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Created by Devyaani Garg

Shiv Nadar University (SNU), Greater Noida

Devyaani Garg has created this Calculator and 50+ more calculators!

Verified by Payal Priya

Birsa Institute of Technology (BIT), Sindri

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< 21 Amplifier Characteristics Calculators

Base Junction Width of Amplifier

Go Base Junction Width = (Base Emitter Area*[Charge-e]*Electron Diffusivity*Thermal Equilibrium Concentration)/Saturation Current

Saturation Current

Go Saturation Current = (Base Emitter Area*[Charge-e]*Electron Diffusivity*Thermal Equilibrium Concentration)/Base Junction Width

Differential Voltage in Amplifier

Go Differential Input Signal = Output Voltage/((Resistance 4/Resistance 3)*(1+(Resistance 2)/Resistance 1))

Output Voltage for Instrumentation Amplifier

Go Output Voltage = (Resistance 4/Resistance 3)*(1+(Resistance 2)/Resistance 1)*Differential Input Signal

Voltage Gain given Load Resistance

Go Voltage Gain = Common Base Current Gain*((1/(1/Load Resistance+1/Collector Resistance))/Emitter Resistance)

Load Power of Amplifier

Go Load Power = (Positive DC Voltage*Positive DC Current)+(Negative DC Voltage*Negative DC Current)

Signal Voltage of Amplifier

Go Signal Voltage = Input Voltage*((Input Resistance+Signal Resistance)/Input Resistance)

Input Voltage of Amplifier

Go Input Voltage = (Input Resistance/(Input Resistance+Signal Resistance))*Signal Voltage

Differential Gain of Instrumentation Amplifier

Go Differential Mode Gain = (Resistance 4/Resistance 3)*(1+(Resistance 2)/Resistance 1)

Load Resistance with respect to Transconductance

Go Load Resistance = -(Output Voltage Gain*(1/Transconductance+Series Resistor))

Output Voltage Gain given Transconductance

Go Output Voltage Gain = -(Load Resistance/(1/Transconductance+Series Resistor))

Open-Circuit Transresistance

Go Open Circuit Transresistance = Output Voltage/Input Current

Amplifier Power Efficiency

Go Power Efficiency Percentage = 100*(Load Power/Input Power)

Current Gain of Amplifier in Decibels

Go Current Gain in Decibels = 20*(log10(Current Gain))

Output Voltage of Amplifier

Go Output Voltage = Voltage Gain*Input Voltage

Current Gain of Amplifier

Go Current Gain = Output Current/Input Current

Voltage Gain of Amplifier

Go Voltage Gain = Output Voltage/Input Voltage

Input Voltage at Maximum Power Dissipation

Go Input Voltage = (Peak Voltage*pi)/2

Peak Voltage at Maximum Power Dissipation

Go Peak Voltage = (2*Input Voltage)/pi

Power Gain of Amplifier

Go Power Gain = Load Power/Input Power

Open Circuit Time Constant of Amplifier

Go Open Circuit Time Constant = 1/Pole Frequency

Open Circuit Time Constant of Amplifier Formula

Open Circuit Time Constant = 1/Pole Frequency
T_oc = 1/ω_p

What is the initial condition assumed while calculating open circuit voltage gain?

The default condition assumed while performing this calculation is that instantaneous output current is zero, also input impedance (Ri) is infinite and output impedance (Ro) is zero.

How to Calculate Open Circuit Time Constant of Amplifier?

Open Circuit Time Constant of Amplifier calculator uses Open Circuit Time Constant = 1/Pole Frequency to calculate the Open Circuit Time Constant, The Open circuit time constant of amplifier formula is a method is an approximate analysis technique used in electronic circuit design to determine the corner frequency of complex circuits. It is a special case of zero-value time constant (ZVT) method technique when reactive elements consist of only capacitors. Open Circuit Time Constant is denoted by T_oc symbol.

How to calculate Open Circuit Time Constant of Amplifier using this online calculator? To use this online calculator for Open Circuit Time Constant of Amplifier, enter Pole Frequency (ω_p) and hit the calculate button. Here is how the Open Circuit Time Constant of Amplifier calculation can be explained with given input values -> 1.666667 = 1/0.6.

FAQ

What is Open Circuit Time Constant of Amplifier?

The Open circuit time constant of amplifier formula is a method is an approximate analysis technique used in electronic circuit design to determine the corner frequency of complex circuits. It is a special case of zero-value time constant (ZVT) method technique when reactive elements consist of only capacitors and is represented as T_oc = 1/ω_p or Open Circuit Time Constant = 1/Pole Frequency. A pole frequency is that frequency at which the transfer function of a system approaches infinity.

How to calculate Open Circuit Time Constant of Amplifier?

The Open circuit time constant of amplifier formula is a method is an approximate analysis technique used in electronic circuit design to determine the corner frequency of complex circuits. It is a special case of zero-value time constant (ZVT) method technique when reactive elements consist of only capacitors is calculated using Open Circuit Time Constant = 1/Pole Frequency. To calculate Open Circuit Time Constant of Amplifier, you need Pole Frequency (ω_p). With our tool, you need to enter the respective value for Pole Frequency 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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