Nikita Suryawanshi
Vellore Institute of Technology (VIT), Vellore
Nikita Suryawanshi has created this Calculator and 100+ more calculators!
Payal Priya
Birsa Institute of Technology (BIT), Sindri
Payal Priya has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

V<sub>out</sub> with D<sub>1</sub>
Output Voltage=Input Voltage*Resistance 2*Resistance 3/((Resistance 1*Resistance 2)+(Resistance 1*Resistance 3)+(Resistance 2*Resistance 3)) GO
V<sub>out</sub> with D<sub>2</sub>
Output Voltage=Input Voltage*Resistance 2*Resistance 4/((Resistance 1*Resistance 2)+(Resistance 1*Resistance 4)+(Resistance 2*Resistance 4)) GO
Charging/Discharging Time
Charging/Discharging Time=Capacitance 1*(Upper Trigger Voltage-Lower Trigger Voltage)/Current 2 GO
Effective Capacitance
Total Capacitance=(Capacitance 1*Capacitance 2)/(Capacitance 1+Capacitance 2) GO
V<sub>out</sub> without D<sub>1</sub> and D<sub>2</sub>
Output Voltage=Input Voltage*Resistance 2/(Resistance 1+Resistance 2) GO
Upper Trigger Point Voltage
Upper Trigger Voltage=(Supply Voltage-1)*(Resistance 3/Resistance 4) GO
Lower Trigger Point Voltage
Lower Trigger Voltage=(1-Supply Voltage)*(Resistance 3/Resistance 4) GO
Value of C<sub>d</sub>
Distributed Capacitance=(Capacitance 1-(4*Capacitance 2))/3 GO
Voltage Gain
Amplitude Gain=(Resistance 3+Resistance 4)/Resistance 4 GO
Voltage Gain of Op-Amp
Amplitude Gain=-Feedback Resistance/Resistance 1 GO
Value of C<sub>T</sub>
Total Capacitance=Capacitance 1-Capacitance 2 GO

3 Other formulas that calculate the same Output

Frequency of Oscillation of Op-Amp
Frequency of Oscillation=1/(2*pi*sqrt((Inductance 1+Inductance 2)*Total Capacitance)) GO
Frequency of Oscillation of Hartley Oscillator
Frequency of Oscillation=1/(2*pi*sqrt(Total Inductance*Total Capacitance)) GO
Frequency of Oscillation
Frequency of Oscillation=1/(2*pi*sqrt(Total Inductance*Total Capacitance)) GO

Frequency of Oscillation of Wein Bridge Formula

Frequency of Oscillation=1/(2*pi*sqrt(Resistance 1*Resistance 3*Capacitance 1*Capacitance 2))
f=1/(2*pi*sqrt(R<sub>1</sub>*R<sub>3</sub>*C<sub>1</sub>*C<sub>2</sub>))
More formulas
Voltage Gain GO

What is the disadvantage of Wein bridge oscillator?

The disadvantage of Wein bridge oscillator is that it produces sine waves only at balance conditions and not at all frequencies. Another disadvantage is that the output may have a large amplitude, leading to stability issues.

How to Calculate Frequency of Oscillation of Wein Bridge?

Frequency of Oscillation of Wein Bridge calculator uses Frequency of Oscillation=1/(2*pi*sqrt(Resistance 1*Resistance 3*Capacitance 1*Capacitance 2)) to calculate the Frequency of Oscillation, The Frequency of Oscillation of Wein Bridge formula is used to define the input frequency at which the oscillator oscillates. Frequency of Oscillation and is denoted by f symbol.

How to calculate Frequency of Oscillation of Wein Bridge using this online calculator? To use this online calculator for Frequency of Oscillation of Wein Bridge, enter Resistance 1 (R1), Resistance 3 (R3), Capacitance 1 (C1) and Capacitance 2 (C2) and hit the calculate button. Here is how the Frequency of Oscillation of Wein Bridge calculation can be explained with given input values -> 0.018378 = 1/(2*pi*sqrt(5*10*3*0.5)).

FAQ

What is Frequency of Oscillation of Wein Bridge?
The Frequency of Oscillation of Wein Bridge formula is used to define the input frequency at which the oscillator oscillates and is represented as f=1/(2*pi*sqrt(R1*R3*C1*C2)) or Frequency of Oscillation=1/(2*pi*sqrt(Resistance 1*Resistance 3*Capacitance 1*Capacitance 2)). Resistance 1 is the value of resistor 1 of the oscillator, Resistance 3 is the value of resistor 3 of the oscillator, Capacitance 1 is the value of capacitor 1 of oscillator and Capacitance 2 is the value of capacitor 2 of the oscillator.
How to calculate Frequency of Oscillation of Wein Bridge?
The Frequency of Oscillation of Wein Bridge formula is used to define the input frequency at which the oscillator oscillates is calculated using Frequency of Oscillation=1/(2*pi*sqrt(Resistance 1*Resistance 3*Capacitance 1*Capacitance 2)). To calculate Frequency of Oscillation of Wein Bridge, you need Resistance 1 (R1), Resistance 3 (R3), Capacitance 1 (C1) and Capacitance 2 (C2). With our tool, you need to enter the respective value for Resistance 1, Resistance 3, Capacitance 1 and Capacitance 2 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 Frequency of Oscillation?
In this formula, Frequency of Oscillation uses Resistance 1, Resistance 3, Capacitance 1 and Capacitance 2. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Frequency of Oscillation=1/(2*pi*sqrt(Total Inductance*Total Capacitance))
  • Frequency of Oscillation=1/(2*pi*sqrt(Total Inductance*Total Capacitance))
  • Frequency of Oscillation=1/(2*pi*sqrt((Inductance 1+Inductance 2)*Total Capacitance))
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