Noise Figure of Double Side Band Calculator

✖Diode temperature is the measure of heat to flow in the diode preferentially in one direction.ⓘ Diode Temperature [T_d]			+10% -10%
✖Diode Resistance can be defined as the effective opposition offered by the diode to the flow of current through it.ⓘ Diode Resistance [R_d]			+10% -10%
✖Output Resistance of Signal Generator is a key operating parameter that controls the current generation signal generator when used as a power source.ⓘ Output Resistance of Signal Generator [R_g]			+10% -10%
✖Ambient Temperature is the temperature of the surrounding.ⓘ Ambient Temperature [T₀]			+10% -10%

✖Noise Figure Of double side band in decibels (dB) between the noise output of the actual receiver to the noise output of an “ideal” receiver with the same overall gain and bandwidth.ⓘ Noise Figure of Double Side Band [F_dsb]

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Noise Figure of Double Side Band Solution

STEP 0: Pre-Calculation Summary

Formula Used

Noise Figure of Double Side Band = 1+((Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature))
F_dsb = 1+((T_d*R_d)/(R_g*T₀))
This formula uses 5 Variables

Variables Used

Noise Figure of Double Side Band - (Measured in Decibel) - Noise Figure Of double side band in decibels (dB) between the noise output of the actual receiver to the noise output of an “ideal” receiver with the same overall gain and bandwidth.
Diode Temperature - (Measured in Kelvin) - Diode temperature is the measure of heat to flow in the diode preferentially in one direction.
Diode Resistance - (Measured in Ohm) - Diode Resistance can be defined as the effective opposition offered by the diode to the flow of current through it.
Output Resistance of Signal Generator - (Measured in Ohm) - Output Resistance of Signal Generator is a key operating parameter that controls the current generation signal generator when used as a power source.
Ambient Temperature - (Measured in Kelvin) - Ambient Temperature is the temperature of the surrounding.

STEP 1: Convert Input(s) to Base Unit

Diode Temperature: 290 Kelvin --> 290 Kelvin No Conversion Required
Diode Resistance: 210 Ohm --> 210 Ohm No Conversion Required
Output Resistance of Signal Generator: 33 Ohm --> 33 Ohm No Conversion Required
Ambient Temperature: 300 Kelvin --> 300 Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

F_dsb = 1+((T_d*R_d)/(R_g*T₀)) --> 1+((290*210)/(33*300))

Evaluating ... ...

F_dsb = 7.15151515151515

STEP 3: Convert Result to Output's Unit

7.15151515151515 Decibel --> No Conversion Required

FINAL ANSWER

7.15151515151515 ≈ 7.151515 Decibel <-- Noise Figure of Double Side Band

(Calculation completed in 00.004 seconds)

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Noise Figure of Double Side Band Formula

LaTeX Go

Noise Figure of Double Side Band = 1+((Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature))
F_dsb = 1+((T_d*R_d)/(R_g*T₀))

What Is Homo- Junction Transistor?

When the transistor junction is joined by two similar materials such as silicon- to silicon or germanium-to-germanium, it is called a homo junction transistor.

How to Calculate Noise Figure of Double Side Band?

Noise Figure of Double Side Band calculator uses Noise Figure of Double Side Band = 1+((Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature)) to calculate the Noise Figure of Double Side Band, The Noise Figure of Double Side Band formula is defined as is the maximum voltage amplitude of extraneous signal that can be algebraically added to the noise-free worst-case input level without causing the output voltage to deviate from the allowable logic voltage level produced inside a Double Side Band. Noise Figure of Double Side Band is denoted by F_dsb symbol.

How to calculate Noise Figure of Double Side Band using this online calculator? To use this online calculator for Noise Figure of Double Side Band, enter Diode Temperature (T_d), Diode Resistance (R_d), Output Resistance of Signal Generator (R_g) & Ambient Temperature (T₀) and hit the calculate button. Here is how the Noise Figure of Double Side Band calculation can be explained with given input values -> 7.151515 = 1+((290*210)/(33*300)).

FAQ

What is Noise Figure of Double Side Band?

The Noise Figure of Double Side Band formula is defined as is the maximum voltage amplitude of extraneous signal that can be algebraically added to the noise-free worst-case input level without causing the output voltage to deviate from the allowable logic voltage level produced inside a Double Side Band and is represented as F_dsb = 1+((T_d*R_d)/(R_g*T₀)) or Noise Figure of Double Side Band = 1+((Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature)). Diode temperature is the measure of heat to flow in the diode preferentially in one direction, Diode Resistance can be defined as the effective opposition offered by the diode to the flow of current through it, Output Resistance of Signal Generator is a key operating parameter that controls the current generation signal generator when used as a power source & Ambient Temperature is the temperature of the surrounding.

How to calculate Noise Figure of Double Side Band?

The Noise Figure of Double Side Band formula is defined as is the maximum voltage amplitude of extraneous signal that can be algebraically added to the noise-free worst-case input level without causing the output voltage to deviate from the allowable logic voltage level produced inside a Double Side Band is calculated using Noise Figure of Double Side Band = 1+((Diode Temperature*Diode Resistance)/(Output Resistance of Signal Generator*Ambient Temperature)). To calculate Noise Figure of Double Side Band, you need Diode Temperature (T_d), Diode Resistance (R_d), Output Resistance of Signal Generator (R_g) & Ambient Temperature (T₀). With our tool, you need to enter the respective value for Diode Temperature, Diode Resistance, Output Resistance of Signal Generator & Ambient Temperature 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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