Anode Current Solution

STEP 0: Pre-Calculation Summary
Formula Used
Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency)
I0 = Pgen/(V0*ηe)
This formula uses 4 Variables
Variables Used
Anode Current - (Measured in Ampere) - Anode current is defined as the electric current emitted from a highly polarized electrode (the anode) where electric current travels into an electrical device.
Power Generated in Anode Circuit - (Measured in Watt) - Power Generated in Anode Circuit is defined as the radio-frequency power that is induced into an anode circuit.
Anode Voltage - (Measured in Volt) - Anode Voltage is the voltage applied to the anode or plate of a vacuum tube to attract and collect the electrons in the beam after they have passed through the device.
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
Power Generated in Anode Circuit: 33.704 Kilowatt --> 33704 Watt (Check conversion here)
Anode Voltage: 26000 Volt --> 26000 Volt No Conversion Required
Electronic Efficiency: 0.61 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
I0 = Pgen/(V0e) --> 33704/(26000*0.61)
Evaluating ... ...
I0 = 2.12509457755359
STEP 3: Convert Result to Output's Unit
2.12509457755359 Ampere --> No Conversion Required
FINAL ANSWER
2.12509457755359 2.125095 Ampere <-- Anode Current
(Calculation completed in 00.004 seconds)

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Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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17 Magnetron Oscillator Calculators

Distance between Anode and Cathode
Go Distance Between Anode and Cathode = (1/Hull Cutoff Magnetic Flux Density)*sqrt(2*([Mass-e]/[Charge-e])*Anode Voltage)
Hull Cutoff Magnetic Flux Density
Go Hull Cutoff Magnetic Flux Density = (1/Distance Between Anode and Cathode)*sqrt(2*([Mass-e]/[Charge-e])*Anode Voltage)
Hull Cut-off Voltage
Go Hull Cut off Voltage = (1/2)*([Charge-e]/[Mass-e])*Hull Cutoff Magnetic Flux Density^2*Distance Between Anode and Cathode^2
Electron Uniform Velocity
Go Electron Uniform Velocity = sqrt((2*Beam Voltage)*([Charge-e]/[Mass-e]))
Cyclotron Angular Frequency
Go Cyclotron Angular Frequency = Magnetic Flux Density in Z Direction*([Charge-e]/[Mass-e])
Circuit Efficiency in Magnetron
Go Circuit Efficiency = Resonator Conductance/(Resonator Conductance+Conductance of Cavity)
Anode Current
Go Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency)
Magnetron Phase Shift
Go Phase Shift in Magnetron = 2*pi*(Number of Oscillation/Number of Resonant Cavities)
Repetition Frequency of Pulse
Go Repetition Frequency = (Spectral Line Frequency-Carrier Frequency)/Number of Samples
Spectral Line Frequency
Go Spectral Line Frequency = Carrier Frequency+Number of Samples*Repetition Frequency
Noise Ratio
Go Signal Noise Ratio = (Input Signal Noise Ratio/Output Signal Noise Ratio)-1
Space Charge Reduction Factor
Go Space Charge Reduction Factor = Reduced Plasma Frequency/Plasma Frequency
Electronic Efficiency
Go Electronic Efficiency = Power Generated in Anode Circuit/DC Power Supply
Modulation Linearity
Go Modulation Linearity = Maximum Frequency Deviation/Peak Frequency
Receiver Sensitivity
Go Receiver Sensitivity = Receiver Noise Floor+Signal Noise Ratio
Characteristic Admittance
Go Characteristic Admittance = 1/Characteristic Impedance
RF Pulse Width
Go RF Pulse Width = 1/(2*Bandwidth)

Anode Current Formula

Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency)
I0 = Pgen/(V0*ηe)

Why mode jumping should be avoided in Magnetrons?

The resonant modes of magnetron are very close to each other and there is always a possibility of mode jumping. The weaker modes have very little difference from the dominant mode and purity of vibration may be lost. Therefore, mode jumping must be avoided.

How to Calculate Anode Current?

Anode Current calculator uses Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency) to calculate the Anode Current, The Anode Current formula is the current that flows from the anode to the cathode in a vacuum tube or other similar electronic device. The anode is the positive electrode in the device, while the cathode is the negative electrode. Anode Current is denoted by I0 symbol.

How to calculate Anode Current using this online calculator? To use this online calculator for Anode Current, enter Power Generated in Anode Circuit (Pgen), Anode Voltage (V0) & Electronic Efficiency e) and hit the calculate button. Here is how the Anode Current calculation can be explained with given input values -> 2.125095 = 33704/(26000*0.61) .

FAQ

What is Anode Current?
The Anode Current formula is the current that flows from the anode to the cathode in a vacuum tube or other similar electronic device. The anode is the positive electrode in the device, while the cathode is the negative electrode and is represented as I0 = Pgen/(V0e) or Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency). Power Generated in Anode Circuit is defined as the radio-frequency power that is induced into an anode circuit, Anode Voltage is the voltage applied to the anode or plate of a vacuum tube to attract and collect the electrons in the beam after they have passed through the device & Electronic efficiency is defined as useful power output divided by the total electrical power consumed.
How to calculate Anode Current?
The Anode Current formula is the current that flows from the anode to the cathode in a vacuum tube or other similar electronic device. The anode is the positive electrode in the device, while the cathode is the negative electrode is calculated using Anode Current = Power Generated in Anode Circuit/(Anode Voltage*Electronic Efficiency). To calculate Anode Current, you need Power Generated in Anode Circuit (Pgen), Anode Voltage (V0) & Electronic Efficiency e). With our tool, you need to enter the respective value for Power Generated in Anode Circuit, Anode Voltage & 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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