Amplifier Gain of Tunnel Diode Calculator

✖Negative Resistance in Tunnel Diode is a property that cause the voltage across the device is increased, the current through it initially decreases rather than increasing.ⓘ Negative Resistance in Tunnel Diode [R_n]			+10% -10%
✖Load resistance is the resistance value of load given for the network.ⓘ Load Resistance [R_L]			+10% -10%

✖Amplifier Gain of Tunnel Diode is defined as a measure of ability of an amplifier to increase amplitude of a signal from input to output port by adding energy converted from power supply to signal.ⓘ Amplifier Gain of Tunnel Diode [A_v]

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Amplifier Gain of Tunnel Diode

Formula

`"A"_{"v"} = "R"_{"n"}/("R"_{"n"}-"R"_{"L"})`

Example

`"1.062069dB"="77Ω"/("77Ω"-"4.5Ω")`

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Amplifier Gain of Tunnel Diode Solution

STEP 0: Pre-Calculation Summary

Formula Used

Amplifier Gain of Tunnel Diode = Negative Resistance in Tunnel Diode/(Negative Resistance in Tunnel Diode-Load Resistance)
A_v = R_n/(R_n-R_L)
This formula uses 3 Variables

Variables Used

Amplifier Gain of Tunnel Diode - (Measured in Decibel) - Amplifier Gain of Tunnel Diode is defined as a measure of ability of an amplifier to increase amplitude of a signal from input to output port by adding energy converted from power supply to signal.
Negative Resistance in Tunnel Diode - (Measured in Ohm) - Negative Resistance in Tunnel Diode is a property that cause the voltage across the device is increased, the current through it initially decreases rather than increasing.
Load Resistance - (Measured in Ohm) - Load resistance is the resistance value of load given for the network.

STEP 1: Convert Input(s) to Base Unit

Negative Resistance in Tunnel Diode: 77 Ohm --> 77 Ohm No Conversion Required
Load Resistance: 4.5 Ohm --> 4.5 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

A_v = R_n/(R_n-R_L) --> 77/(77-4.5)

Evaluating ... ...

A_v = 1.06206896551724

STEP 3: Convert Result to Output's Unit

1.06206896551724 Decibel --> No Conversion Required

FINAL ANSWER

1.06206896551724 ≈ 1.062069 Decibel <-- Amplifier Gain of Tunnel Diode

(Calculation completed in 00.008 seconds)

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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

Amplifier Gain of Tunnel Diode Formula

Amplifier Gain of Tunnel Diode = Negative Resistance in Tunnel Diode/(Negative Resistance in Tunnel Diode-Load Resistance)
A_v = R_n/(R_n-R_L)

What is Tunnel Diode?

A tunnel diode (also known as a Esaki diode) is a type of semiconductor diode that has effectively “negative resistance” due to the quantum mechanical effect called tunneling. Tunnel diodes have a heavily doped pn junction that is about 10 nm wide.

How to Calculate Amplifier Gain of Tunnel Diode?

Amplifier Gain of Tunnel Diode calculator uses Amplifier Gain of Tunnel Diode = Negative Resistance in Tunnel Diode/(Negative Resistance in Tunnel Diode-Load Resistance) to calculate the Amplifier Gain of Tunnel Diode, The Amplifier Gain of Tunnel Diode formula is defined as a measure of the ability of a two-port circuit (often an amplifier) to increase the power or amplitude of a signal from the input to the output port by adding energy converted from some power supply to the signal. Amplifier Gain of Tunnel Diode is denoted by A_v symbol.

How to calculate Amplifier Gain of Tunnel Diode using this online calculator? To use this online calculator for Amplifier Gain of Tunnel Diode, enter Negative Resistance in Tunnel Diode (R_n) & Load Resistance (R_L) and hit the calculate button. Here is how the Amplifier Gain of Tunnel Diode calculation can be explained with given input values -> 1.062069 = 77/(77-4.5).

FAQ

What is Amplifier Gain of Tunnel Diode?

The Amplifier Gain of Tunnel Diode formula is defined as a measure of the ability of a two-port circuit (often an amplifier) to increase the power or amplitude of a signal from the input to the output port by adding energy converted from some power supply to the signal and is represented as A_v = R_n/(R_n-R_L) or Amplifier Gain of Tunnel Diode = Negative Resistance in Tunnel Diode/(Negative Resistance in Tunnel Diode-Load Resistance). Negative Resistance in Tunnel Diode is a property that cause the voltage across the device is increased, the current through it initially decreases rather than increasing & Load resistance is the resistance value of load given for the network.

How to calculate Amplifier Gain of Tunnel Diode?

The Amplifier Gain of Tunnel Diode formula is defined as a measure of the ability of a two-port circuit (often an amplifier) to increase the power or amplitude of a signal from the input to the output port by adding energy converted from some power supply to the signal is calculated using Amplifier Gain of Tunnel Diode = Negative Resistance in Tunnel Diode/(Negative Resistance in Tunnel Diode-Load Resistance). To calculate Amplifier Gain of Tunnel Diode, you need Negative Resistance in Tunnel Diode (R_n) & Load Resistance (R_L). With our tool, you need to enter the respective value for Negative Resistance in Tunnel Diode & Load Resistance 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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