Bandwidth using Dynamic Quality Factor Solution

STEP 0: Pre-Calculation Summary
Formula Used
Bandwidth = Dynamic Q-Factor/(Angular Frequency*Series Resistance of Diode)
S = Qd/(ω*Rs)
This formula uses 4 Variables
Variables Used
Bandwidth - (Measured in Hertz) - Bandwidth refers to the range of frequencies over which the amplifier can effectively amplify a signal.
Dynamic Q-Factor - Dynamic Q-factor is a dimensionless parameter that describes how underdamped an oscillator or resonator.
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
Dynamic Q-Factor: 0.012 --> 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
S = Qd/(ω*Rs) --> 0.012/(5.75*0.55)
Evaluating ... ...
S = 0.00379446640316206
STEP 3: Convert Result to Output's Unit
0.00379446640316206 Hertz --> No Conversion Required
FINAL ANSWER
0.00379446640316206 0.003794 Hertz <-- Bandwidth
(Calculation completed in 00.004 seconds)

Credits

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Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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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

Bandwidth using Dynamic Quality Factor Formula

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

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

How to Calculate Bandwidth using Dynamic Quality Factor?

Bandwidth using Dynamic Quality Factor calculator uses Bandwidth = Dynamic Q-Factor/(Angular Frequency*Series Resistance of Diode) to calculate the Bandwidth, Bandwidth using Dynamic Quality Factor to the range of frequencies over which the amplifier can effectively amplify a signal. Bandwidth is denoted by S symbol.

How to calculate Bandwidth using Dynamic Quality Factor using this online calculator? To use this online calculator for Bandwidth using Dynamic Quality Factor, enter Dynamic Q-Factor (Qd), Angular Frequency (ω) & Series Resistance of Diode (Rs) and hit the calculate button. Here is how the Bandwidth using Dynamic Quality Factor calculation can be explained with given input values -> 0.003794 = 0.012/(5.75*0.55) .

FAQ

What is Bandwidth using Dynamic Quality Factor?
Bandwidth using Dynamic Quality Factor to the range of frequencies over which the amplifier can effectively amplify a signal and is represented as S = Qd/(ω*Rs) or Bandwidth = Dynamic Q-Factor/(Angular Frequency*Series Resistance of Diode). Dynamic Q-factor is a dimensionless parameter that describes how underdamped an oscillator or resonator, 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 Bandwidth using Dynamic Quality Factor?
Bandwidth using Dynamic Quality Factor to the range of frequencies over which the amplifier can effectively amplify a signal is calculated using Bandwidth = Dynamic Q-Factor/(Angular Frequency*Series Resistance of Diode). To calculate Bandwidth using Dynamic Quality Factor, you need Dynamic Q-Factor (Qd), Angular Frequency (ω) & Series Resistance of Diode (Rs). With our tool, you need to enter the respective value for Dynamic Q-Factor, 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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