Dynamic Q Factor Calculator

✖Bandwidth refers to the range of frequencies over which the amplifier can effectively amplify a signal.ⓘ Bandwidth [S]			+10% -10%
✖Angular Frequency of a steadily recurring phenomenon expressed in radians per second.ⓘ Angular Frequency [ω]			+10% -10%
✖Series resistance of diode is defined as the total resistance of the circuit is found by simply adding up the resistance values of the individual resistors.ⓘ Series Resistance of Diode [R_s]			+10% -10%

✖Dynamic Q-factor is a dimensionless parameter that describes how underdamped an oscillator or resonator.ⓘ Dynamic Q Factor [Q_d]

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Formula

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Dynamic Q Factor

Formula

`"Q"_{"d"} = "S"/("ω"*"R"_{"s"})`

Example

`"0.012648"="0.04Hz"/("5.75rad/s"*"0.55Ω")`

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Dynamic Q Factor Solution

STEP 0: Pre-Calculation Summary

Formula Used

Dynamic Q-Factor = Bandwidth/(Angular Frequency*Series Resistance of Diode)
Q_d = S/(ω*R_s)
This formula uses 4 Variables

Variables Used

Dynamic Q-Factor - Dynamic Q-factor is a dimensionless parameter that describes how underdamped an oscillator or resonator.
Bandwidth - (Measured in Hertz) - Bandwidth refers to the range of frequencies over which the amplifier can effectively amplify a signal.
Angular Frequency - (Measured in Radian per Second) - Angular Frequency of a steadily recurring phenomenon expressed in radians per second.
Series Resistance of Diode - (Measured in Ohm) - Series resistance of diode is defined as the total resistance of the circuit is found by simply adding up the resistance values of the individual resistors.

STEP 1: Convert Input(s) to Base Unit

Bandwidth: 0.04 Hertz --> 0.04 Hertz No Conversion Required
Angular Frequency: 5.75 Radian per Second --> 5.75 Radian per Second No Conversion Required
Series Resistance of Diode: 0.55 Ohm --> 0.55 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Q_d = S/(ω*R_s) --> 0.04/(5.75*0.55)

Evaluating ... ...

Q_d = 0.0126482213438735

STEP 3: Convert Result to Output's Unit

0.0126482213438735 --> No Conversion Required

FINAL ANSWER

0.0126482213438735 ≈ 0.012648 <-- Dynamic Q-Factor

(Calculation completed in 00.004 seconds)

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< 16 Non Linear Circuits Calculators

Room Temperature

Go Ambient Temperature = (2*Diode Temperature*((1/(Coupling Coefficient*Q Factor))+(1/((Coupling Coefficient*Q Factor)^2) )))/(Noise Figure of Up-Converter-1)

Average Diode Temperature using Single Side Band Noise

Go Diode Temperature = (Noise Figure of Single Side Band-2)*((Output Resistance of Signal Generator*Ambient Temperature)/(2*Diode Resistance))

Noise Figure of Single Side Band

Go Noise Figure of Single Side Band = 2+((2*Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature))

Noise Figure of Double Side Band

Go Noise Figure of Double Side Band = 1+((Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature))

Voltage Reflection Coefficient of Tunnel Diode

Go Voltage Reflection Coefficient = (Impedance Tunnel Diode-Characteristic Impedance)/(Impedance Tunnel Diode+Characteristic Impedance)

Amplifier Gain of Tunnel Diode

Go Amplifier Gain of Tunnel Diode = Negative Resistance in Tunnel Diode/(Negative Resistance in Tunnel Diode-Load Resistance)

Ratio Negative Resistance to Series Resistance

Go Ratio Negative Resistance to Series Resistance = Equivalent Negative Resistance/Total Series Resistance at Idler Frequency

Tunnel Diode Output Power

Go Output Power of Tunnel Diode = (Voltage Tunnel Diode*Current Tunnel Diode)/(2*pi)

Bandwidth using Dynamic Quality Factor

Go Bandwidth = Dynamic Q-Factor/(Angular Frequency*Series Resistance of Diode)

Dynamic Q Factor

Go Dynamic Q-Factor = Bandwidth/(Angular Frequency*Series Resistance of Diode)

Maximum Applied Current across Diode

Go Maximum Applied Current = Maximum Applied Voltage/Reactive Impedence

Reactive Impedence

Go Reactive Impedence = Maximum Applied Voltage/Maximum Applied Current

Maximum Applied Voltage across Diode

Go Maximum Applied Voltage = Maximum Electric Field*Depletion Length

Negative Conductance of Tunnel Diode

Go Negative Conductance Tunnel Diode = 1/(Negative Resistance in Tunnel Diode)

Magnitude of Negative Resistance

Go Negative Resistance in Tunnel Diode = 1/(Negative Conductance Tunnel Diode)

Power Gain of Tunnel Diode

Go Power Gain of Tunnel Diode = Voltage Reflection Coefficient^2

Dynamic Q Factor Formula

Dynamic Q-Factor = Bandwidth/(Angular Frequency*Series Resistance of Diode)
Q_d = S/(ω*R_s)

What are junctions ?

A microwave circuit consists of several microwave devices connected in some way to achieve the desired transmission of MW signal.

How to Calculate Dynamic Q Factor?

Dynamic Q Factor calculator uses Dynamic Q-Factor = Bandwidth/(Angular Frequency*Series Resistance of Diode) to calculate the Dynamic Q-Factor, The Dynamic Q factor formula is defined refers to the quality factor of a resonant circuit that is under conditions of signal excitation. Dynamic Q-Factor is denoted by Q_d symbol.

How to calculate Dynamic Q Factor using this online calculator? To use this online calculator for Dynamic Q Factor, enter Bandwidth (S), Angular Frequency (ω) & Series Resistance of Diode (R_s) and hit the calculate button. Here is how the Dynamic Q Factor calculation can be explained with given input values -> 0.012648 = 0.04/(5.75*0.55).

FAQ

What is Dynamic Q Factor?

The Dynamic Q factor formula is defined refers to the quality factor of a resonant circuit that is under conditions of signal excitation and is represented as Q_d = S/(ω*R_s) or Dynamic Q-Factor = Bandwidth/(Angular Frequency*Series Resistance of Diode). Bandwidth refers to the range of frequencies over which the amplifier can effectively amplify a signal, Angular Frequency of a steadily recurring phenomenon expressed in radians per second & Series resistance of diode is defined as the total resistance of the circuit is found by simply adding up the resistance values of the individual resistors.

How to calculate Dynamic Q Factor?

The Dynamic Q factor formula is defined refers to the quality factor of a resonant circuit that is under conditions of signal excitation is calculated using Dynamic Q-Factor = Bandwidth/(Angular Frequency*Series Resistance of Diode). To calculate Dynamic Q Factor, you need Bandwidth (S), Angular Frequency (ω) & Series Resistance of Diode (R_s). With our tool, you need to enter the respective value for Bandwidth, Angular Frequency & Series Resistance of Diode 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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