Q-Factor of Loaded Catcher Cavity Calculator

✖Q Factor of Catcher Wall is defined as a measure of the strength of the damping of its oscillations, or for the relative line width Of Catcher Wall.ⓘ Q Factor of Catcher Wall [Q_o]			+10% -10%
✖Q Factor of Beam Loading is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of Beam Loading.ⓘ Q Factor of Beam Loading [Q_b]			+10% -10%
✖Q Factor of External Load is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of External Load.ⓘ Q Factor of External Load [Q_el]			+10% -10%

✖Q Factor of Loaded Catcher Cavity is defined as a measure of the strength of the damping of its oscillations.ⓘ Q-Factor of Loaded Catcher Cavity [Q_L]

⎘ Copy

👎

Formula

✖

Q-Factor of Loaded Catcher Cavity

Formula

`"Q"_{"L"} = (1/"Q"_{"o"})+(1/"Q"_{"b"})+(1/"Q"_{"el"})`

Example

`"2.240476"=(1/"1.25")+(1/"0.8")+(1/"5.25")`

Calculator

LaTeX

Reset

👍

Download Microwave Tubes and Circuits Formula PDF PDF Image

Q-Factor of Loaded Catcher Cavity Solution

STEP 0: Pre-Calculation Summary

Formula Used

Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load)
Q_L = (1/Q_o)+(1/Q_b)+(1/Q_el)
This formula uses 4 Variables

Variables Used

Q Factor of Loaded Catcher Cavity - Q Factor of Loaded Catcher Cavity is defined as a measure of the strength of the damping of its oscillations.
Q Factor of Catcher Wall - Q Factor of Catcher Wall is defined as a measure of the strength of the damping of its oscillations, or for the relative line width Of Catcher Wall.
Q Factor of Beam Loading - Q Factor of Beam Loading is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of Beam Loading.
Q Factor of External Load - Q Factor of External Load is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of External Load.

STEP 1: Convert Input(s) to Base Unit

Q Factor of Catcher Wall: 1.25 --> No Conversion Required
Q Factor of Beam Loading: 0.8 --> No Conversion Required
Q Factor of External Load: 5.25 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Q_L = (1/Q_o)+(1/Q_b)+(1/Q_el) --> (1/1.25)+(1/0.8)+(1/5.25)

Evaluating ... ...

Q_L = 2.24047619047619

STEP 3: Convert Result to Output's Unit

2.24047619047619 --> No Conversion Required

FINAL ANSWER

2.24047619047619 ≈ 2.240476 <-- Q Factor of Loaded Catcher Cavity

(Calculation completed in 00.004 seconds)

You are here -

Home » Engineering » Electronics » Microwave Theory » Microwave Tubes and Circuits » Q-Factor » Q-Factor of Loaded Catcher Cavity

Credits

Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

Shobhit Dimri has created this Calculator and 900+ more calculators!

Verified by Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has verified this Calculator and 1900+ more calculators!

< 14 Q-Factor Calculators

Q-Factor of Loaded Resonator Circuit

Go Q Factor of Loaded Resonator Circuit = (Resonant Angular Frequency*Capacitance at Vane Tips)/(Resonator Conductance+Conductance of Cavity)

Q-Factor of Loaded Catcher Cavity

Go Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load)

Q-Factor of External Load

Go Q Factor of External Load = 1/(Q Factor of Loaded Catcher Cavity-(1/Q Factor of Beam Loading)-(1/Q Factor of Catcher Wall))

Q-Factor of Catcher Wall

Go Q Factor of Catcher Wall = 1/(Q Factor of Loaded Catcher Cavity-(1/Q Factor of Beam Loading)-(1/Q Factor of External Load))

Q-Factor of Beam Loading

Go Q Factor of Beam Loading = 1/(Q Factor of Loaded Catcher Cavity-(1/Q Factor of Catcher Wall)-(1/Q Factor of External Load))

Q-Factor of Microstrip Lines given Height and Frequency

Go Q-Factor of Microstrip Lines = 0.63*Height*sqrt(Conductivity*Frequency)

Resonant Angular Frequency given Q-External

Go Resonant Angular Frequency = (Loaded Conductance*External Q-Factor)/Capacitance at Vane Tips

Load Conductance given Q-External

Go Loaded Conductance = (Resonant Angular Frequency*Capacitance at Vane Tips)/External Q-Factor

External Q-Factor

Go External Q-Factor = (Capacitance at Vane Tips*Resonant Angular Frequency)/Loaded Conductance

Unloaded Q-factor

Go Unloaded Q-factor = Capacitance at Vane Tips*Angular Frequency/Conductance of Cavity

Quality Factor of Cavity Resonator

Go Q factor of Cavity Resonator = Resonant Frequency/(Frequency 2-Frequency 1)

Q-Factor for Copper Strip

Go Q-Factor of Copper Strip Lines = 4780*Height*sqrt(Frequency)

Q-Factor of Wide Microstrip Lines

Go Q-Factor of Microstrip Lines = 27.3/Conductor Attenuation Constant

Q-Factor given Dielectric Attenuation Constant

Go Q-Factor = 27.3/Dielectric Attenuation Constant

Q-Factor of Loaded Catcher Cavity Formula

Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load)
Q_L = (1/Q_o)+(1/Q_b)+(1/Q_el)

What is Resonant Circuit?

An electric circuit which has very low impedance at a certain frequency. Resonant circuits are often built using an inductor, such as a coil, connected in parallel to a capacitor.

How to Calculate Q-Factor of Loaded Catcher Cavity?

Q-Factor of Loaded Catcher Cavity calculator uses Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load) to calculate the Q Factor of Loaded Catcher Cavity, The Q-Factor of Loaded Catcher Cavity formula is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of Loaded Catcher Cavity. Q Factor of Loaded Catcher Cavity is denoted by Q_L symbol.

How to calculate Q-Factor of Loaded Catcher Cavity using this online calculator? To use this online calculator for Q-Factor of Loaded Catcher Cavity, enter Q Factor of Catcher Wall (Q_o), Q Factor of Beam Loading (Q_b) & Q Factor of External Load (Q_el) and hit the calculate button. Here is how the Q-Factor of Loaded Catcher Cavity calculation can be explained with given input values -> 2.240476 = (1/1.25)+(1/0.8)+(1/5.25).

FAQ

What is Q-Factor of Loaded Catcher Cavity?

The Q-Factor of Loaded Catcher Cavity formula is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of Loaded Catcher Cavity and is represented as Q_L = (1/Q_o)+(1/Q_b)+(1/Q_el) or Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load). Q Factor of Catcher Wall is defined as a measure of the strength of the damping of its oscillations, or for the relative line width Of Catcher Wall, Q Factor of Beam Loading is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of Beam Loading & Q Factor of External Load is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of External Load.

How to calculate Q-Factor of Loaded Catcher Cavity?

The Q-Factor of Loaded Catcher Cavity formula is defined as a measure of the strength of the damping of its oscillations, or for the relative linewidth Of Loaded Catcher Cavity is calculated using Q Factor of Loaded Catcher Cavity = (1/Q Factor of Catcher Wall)+(1/Q Factor of Beam Loading)+(1/Q Factor of External Load). To calculate Q-Factor of Loaded Catcher Cavity, you need Q Factor of Catcher Wall (Q_o), Q Factor of Beam Loading (Q_b) & Q Factor of External Load (Q_el). With our tool, you need to enter the respective value for Q Factor of Catcher Wall, Q Factor of Beam Loading & Q Factor of External Load and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

Home

FREE PDFs

🔍 Search