Power Loss in Anode Circuit Calculator

✖A DC power supply converts AC power from a standard outlet into a stable DC power source.ⓘ DC Power Supply [P_dc]			+10% -10%
✖Electronic efficiency is defined as useful power output divided by the total electrical power consumed.ⓘ Electronic Efficiency [η_e]			+10% -10%

✖Power Loss is defined as the total power dissipated or loss due to current leakage or heat dissipation in an anode circuit.ⓘ Power Loss in Anode Circuit [P_L]

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Formula

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Power Loss in Anode Circuit

Formula

`"P"_{"L"} = "P"_{"dc"}*(1-"η"_{"e"})`

Example

`"21.45kW"="55kW"*(1-"0.61")`

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Power Loss in Anode Circuit Solution

STEP 0: Pre-Calculation Summary

Formula Used

Power Loss = DC Power Supply*(1-Electronic Efficiency)
P_L = P_dc*(1-η_e)
This formula uses 3 Variables

Variables Used

Power Loss - (Measured in Watt) - Power Loss is defined as the total power dissipated or loss due to current leakage or heat dissipation in an anode circuit.
DC Power Supply - (Measured in Watt) - A DC power supply converts AC power from a standard outlet into a stable DC power source.
Electronic Efficiency - Electronic efficiency is defined as useful power output divided by the total electrical power consumed.

STEP 1: Convert Input(s) to Base Unit

DC Power Supply: 55 Kilowatt --> 55000 Watt (Check conversion here)
Electronic Efficiency: 0.61 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_L = P_dc*(1-η_e) --> 55000*(1-0.61)

Evaluating ... ...

P_L = 21450

STEP 3: Convert Result to Output's Unit

21450 Watt -->21.45 Kilowatt (Check conversion here)

FINAL ANSWER

21.45 Kilowatt <-- Power Loss

(Calculation completed in 00.020 seconds)

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Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

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< 13 Klystron Calculators

Width of Depletion Zone

Go Width of Depletion Region = sqrt((([Permitivity-silicon]*2)/([Charge-e]*Doping Density))*(Schottky Potential Barrier-Gate Voltage))

Mutual Conductance of Klystron Amplifier

Go Mutual Conductance of Klystron Amplifier = (2*Cathode Buncher Current*Beam Coupling Coefficient*First Order Bessel Function)/Input Signal Amplitude

Klystron Efficiency

Go Klystron Efficiency = (Beam Complex Coefficient*First Order Bessel Function)*(Catcher Gap Voltage/Cathode Buncher Voltage)

Bunching Parameter of Klystron

Go Bunching Parameter = (Beam Coupling Coefficient*Input Signal Amplitude*Angular Variation)/(2*Cathode Buncher Voltage)

Beam Loading Conductance

Go Beam Loading Conductance = Conductance of Cavity-(Loaded Conductance+Copper Loss Conductance)

Copper Loss of Cavity

Go Copper Loss Conductance = Conductance of Cavity-(Beam Loading Conductance+Loaded Conductance)

Cavity Conductance

Go Conductance of Cavity = Loaded Conductance+Copper Loss Conductance+Beam Loading Conductance

Anode Voltage

Go Anode Voltage = Power Generated in Anode Circuit/ (Anode Current*Electronic Efficiency)

Resonant Frequency of Cavity

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

Input Power of Reflex Klystron

Go Reflex Klystron Input Power = Reflex Klystron Voltage*Reflex Klystron Beam Current

DC Transit Time

Go DC Transient Time = Gate Length/Saturation Drift Velocity

Power Loss in Anode Circuit

Go Power Loss = DC Power Supply*(1-Electronic Efficiency)

DC Power Supply

Go DC Power Supply = Power Loss/(1-Electronic Efficiency)

Power Loss in Anode Circuit Formula

Power Loss = DC Power Supply*(1-Electronic Efficiency)
P_L = P_dc*(1-η_e)

What is Klystron?

A klystron is a specialized type of vacuum tube used primarily for generating and amplifying radiofrequency (RF) signals. It is widely employed in high-power microwave applications, including radar systems, particle accelerators, and communication systems.

How to Calculate Power Loss in Anode Circuit?

Power Loss in Anode Circuit calculator uses Power Loss = DC Power Supply*(1-Electronic Efficiency) to calculate the Power Loss, The Power Loss in Anode Circuit formula is defined as the total power dissipated or loss due to current leakage or heat dissipation in an anode circuit. Power Loss is denoted by P_L symbol.

How to calculate Power Loss in Anode Circuit using this online calculator? To use this online calculator for Power Loss in Anode Circuit, enter DC Power Supply (P_dc) & Electronic Efficiency (η_e) and hit the calculate button. Here is how the Power Loss in Anode Circuit calculation can be explained with given input values -> 0.02145 = 55000*(1-0.61).

FAQ

What is Power Loss in Anode Circuit?

The Power Loss in Anode Circuit formula is defined as the total power dissipated or loss due to current leakage or heat dissipation in an anode circuit and is represented as P_L = P_dc*(1-η_e) or Power Loss = DC Power Supply*(1-Electronic Efficiency). A DC power supply converts AC power from a standard outlet into a stable DC power source & Electronic efficiency is defined as useful power output divided by the total electrical power consumed.

How to calculate Power Loss in Anode Circuit?

The Power Loss in Anode Circuit formula is defined as the total power dissipated or loss due to current leakage or heat dissipation in an anode circuit is calculated using Power Loss = DC Power Supply*(1-Electronic Efficiency). To calculate Power Loss in Anode Circuit, you need DC Power Supply (P_dc) & Electronic Efficiency (η_e). With our tool, you need to enter the respective value for DC Power Supply & Electronic Efficiency 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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