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Maximum Input Voltage in Two Cavity Klystron Formula

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Maximum Input Voltage in Two Cavity Klystron is defined as the maximum amount of voltage which can be supplied to the klystron amplifier. Check FAQs
V1max=2VkXβiθg
V1max - Maximum Input Voltage in Two Cavity Klystron?Vk - Reflex Klystron Voltage?X - Bunching Parameter?βi - Beam Coupling Coefficient?θg - Average Transient Angle?

Maximum Input Voltage in Two Cavity Klystron Example

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Here is how the Maximum Input Voltage in Two Cavity Klystron equation looks like with Values.

Here is how the Maximum Input Voltage in Two Cavity Klystron equation looks like with Units.

Here is how the Maximum Input Voltage in Two Cavity Klystron equation looks like.

72.7626Edit=2300Edit3.08Edit0.836Edit30.38Edit
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Maximum Input Voltage in Two Cavity Klystron Solution

Follow our step by step solution on how to calculate Maximum Input Voltage in Two Cavity Klystron?

FIRST Step Consider the formula
V1max=2VkXβiθg
Next Step Substitute values of Variables
V1max=2300V3.080.83630.38rad
Next Step Prepare to Evaluate
V1max=23003.080.83630.38
Next Step Evaluate
V1max=72.7625515401407V
LAST Step Rounding Answer
V1max=72.7626V

Maximum Input Voltage in Two Cavity Klystron Formula Elements

Variables
Maximum Input Voltage in Two Cavity Klystron
Maximum Input Voltage in Two Cavity Klystron is defined as the maximum amount of voltage which can be supplied to the klystron amplifier.
Symbol: V1max
Measurement: Electric PotentialUnit: V
Note: Value should be greater than 0.
Formulas to find Maximum Input Voltage in Two Cavity KlystronOpen Variable
Reflex Klystron Voltage
Reflex Klystron Voltage is the amount of voltage which is supplied to the klystron in order to generate an electron beam.
Symbol: Vk
Measurement: Electric PotentialUnit: V
Note: Value should be greater than 0.
Formulas to find Reflex Klystron VoltageOpen Variable
Bunching Parameter
Bunching parameter as the ratio of the peak electric field to the average electric field at the input cavity of the klystron.
Symbol: X
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Bunching ParameterOpen Variable
Beam Coupling Coefficient
Beam Coupling Coefficient is a measure of the interaction between an electron beam and an electromagnetic wave in a resonant cavity.
Symbol: βi
Measurement: NAUnit: Unitless
Note: Value can be positive or negative.
Formulas to find Beam Coupling CoefficientOpen Variable
Average Transient Angle
Average transient angle is Stability of Paralleled Synchronous and Virtual Synchronous Generators in Islanded Microgrids.
Symbol: θg
Measurement: AngleUnit: rad
Note: Value can be positive or negative.
Formulas to find Average Transient AngleOpen Variable

Other formulas in Klystron Cavity category

​Go Induced Current in Catcher Cavity
I2=It0βi
​Go Buncher Cavity Gap
d=τEvo
​Go Induced Current in Walls of Catcher Cavity
I2=βiIo
​Go Phase Constant of Fundamental Mode Field
βo=2πMLN

How to Evaluate Maximum Input Voltage in Two Cavity Klystron?

Maximum Input Voltage in Two Cavity Klystron evaluator uses Maximum Input Voltage in Two Cavity Klystron = (2*Reflex Klystron Voltage*Bunching Parameter)/(Beam Coupling Coefficient*Average Transient Angle) to evaluate the Maximum Input Voltage in Two Cavity Klystron, The Maximum Input Voltage in Two Cavity Klystron formula is defined as the maximum amount of voltage which can be supplied to the klystron amplifier which is used to generate an electron beam. Maximum Input Voltage in Two Cavity Klystron is denoted by V1max symbol.

How to evaluate Maximum Input Voltage in Two Cavity Klystron using this online evaluator? To use this online evaluator for Maximum Input Voltage in Two Cavity Klystron, enter Reflex Klystron Voltage (Vk), Bunching Parameter (X), Beam Coupling Coefficient i) & Average Transient Angle g) and hit the calculate button.

FAQs on Maximum Input Voltage in Two Cavity Klystron

What is the formula to find Maximum Input Voltage in Two Cavity Klystron?
The formula of Maximum Input Voltage in Two Cavity Klystron is expressed as Maximum Input Voltage in Two Cavity Klystron = (2*Reflex Klystron Voltage*Bunching Parameter)/(Beam Coupling Coefficient*Average Transient Angle). Here is an example- 72.76255 = (2*300*3.08)/(0.836*30.38).
How to calculate Maximum Input Voltage in Two Cavity Klystron?
With Reflex Klystron Voltage (Vk), Bunching Parameter (X), Beam Coupling Coefficient i) & Average Transient Angle g) we can find Maximum Input Voltage in Two Cavity Klystron using the formula - Maximum Input Voltage in Two Cavity Klystron = (2*Reflex Klystron Voltage*Bunching Parameter)/(Beam Coupling Coefficient*Average Transient Angle).
Can the Maximum Input Voltage in Two Cavity Klystron be negative?
No, the Maximum Input Voltage in Two Cavity Klystron, measured in Electric Potential cannot be negative.
Which unit is used to measure Maximum Input Voltage in Two Cavity Klystron?
Maximum Input Voltage in Two Cavity Klystron is usually measured using the Volt[V] for Electric Potential. Millivolt[V], Microvolt[V], Nanovolt[V] are the few other units in which Maximum Input Voltage in Two Cavity Klystron can be measured.
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