Power gain of down converter given Degradation Factor Calculator

✖Signal Frequency refer to the frequency of an electrical waveform, such as an alternating current (AC) signal.ⓘ Signal Frequency [f_s]			+10% -10%
✖Output Frequency refers to the rate at which a system or device produces outputs or results.ⓘ Output Frequency [f_o]			+10% -10%
✖Figure of Merit is a measure used to quantify the performance of a device, system.ⓘ Figure of Merit [γQ]			+10% -10%

✖Power gain of down converter given Gain degradation factor is a measure of how much the input power is increased or decreased as a result of the down conversion process.ⓘ Power gain of down converter given Degradation Factor [Gain_dc]

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Formula

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Power gain of down converter given Degradation Factor

Formula

`"Gain"_{"dc"} = "f"_{"s"}/"f"_{"o"}*("f"_{"s"}/"f"_{"o"}*("γQ")^2)/(1+sqrt(1+("f"_{"s"}/"f"_{"o"}*("γQ")^2)))^2`

Example

`"0.764627W"="28Hz"/"26Hz"*("28Hz"/"26Hz"*("5.6")^2)/(1+sqrt(1+("28Hz"/"26Hz"*("5.6")^2)))^2`

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Power gain of down converter given Degradation Factor Solution

STEP 0: Pre-Calculation Summary

Formula Used

Power gain of down converter = Signal Frequency/Output Frequency*(Signal Frequency/Output Frequency*(Figure of Merit)^2)/(1+sqrt(1+(Signal Frequency/Output Frequency*(Figure of Merit)^2)))^2
Gain_dc = f_s/f_o*(f_s/f_o*(γQ)^2)/(1+sqrt(1+(f_s/f_o*(γQ)^2)))^2
This formula uses 1 Functions, 4 Variables

Functions Used

sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)

Variables Used

Power gain of down converter - (Measured in Watt) - Power gain of down converter given Gain degradation factor is a measure of how much the input power is increased or decreased as a result of the down conversion process.
Signal Frequency - (Measured in Hertz) - Signal Frequency refer to the frequency of an electrical waveform, such as an alternating current (AC) signal.
Output Frequency - (Measured in Hertz) - Output Frequency refers to the rate at which a system or device produces outputs or results.
Figure of Merit - Figure of Merit is a measure used to quantify the performance of a device, system.

STEP 1: Convert Input(s) to Base Unit

Signal Frequency: 28 Hertz --> 28 Hertz No Conversion Required
Output Frequency: 26 Hertz --> 26 Hertz No Conversion Required
Figure of Merit: 5.6 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Gain_dc = f_s/f_o*(f_s/f_o*(γQ)^2)/(1+sqrt(1+(f_s/f_o*(γQ)^2)))^2 --> 28/26*(28/26*(5.6)^2)/(1+sqrt(1+(28/26*(5.6)^2)))^2

Evaluating ... ...

Gain_dc = 0.764626847874621

STEP 3: Convert Result to Output's Unit

0.764626847874621 Watt --> No Conversion Required

FINAL ANSWER

0.764626847874621 ≈ 0.764627 Watt <-- Power gain of down converter

(Calculation completed in 00.004 seconds)

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Power gain of down converter given Degradation Factor

Go Power gain of down converter = Signal Frequency/Output Frequency*(Signal Frequency/Output Frequency*(Figure of Merit)^2)/(1+sqrt(1+(Signal Frequency/Output Frequency*(Figure of Merit)^2)))^2

Gain Degradation Factor for MESFET

Go Gain Degradation Factor = Output Frequency/Signal Frequency*(Signal Frequency/Output Frequency*(Figure of Merit)^2)/(1+sqrt(1+(Signal Frequency/Output Frequency*(Figure of Merit)^2)))^2

Noise Factor GaAs MESFET

Go Noise Factor = 1+2*Angular frequency*Gate Source Capacitance/Transconductance of the MESFET*sqrt((Source Resistance-Gate Resistance)/Input Resistance)

Maximum Operating Frequency

Go Maximum Operating Frequency = MESFET Cutoff Frequency/2*sqrt(Drain Resistance/(Source Resistance+Input Resistance+Gate Metallization Resistance))

Maximum Allowable Power

Go Maximum Allowable Power = 1/(Reactance*Transit Time Cutoff Frequency^2)*(Maximum Electric Field*Maximum Saturation Drift Velocity/(2*pi))^2

Transconductance in Saturation Region in MESFET

Go Transconductance of the MESFET = Output Conductance*(1-sqrt((Input Voltage-Threshold Voltage)/Pinch-off Voltage))

Maximum Power Gain of Microwave Transistor

Go Maximum Power Gain of a Microwave Transistor = (Transit Time Cutoff Frequency/Power Gain Frequency)^2*Output Impedance/Input Impedence

MESFET Cutoff Frequency

Go MESFET Cutoff Frequency = Transconductance of the MESFET/(2*pi*Gate Source Capacitance)

Maximum Frequency of Oscillation

Go Maximum Frequency of Oscillation = Saturation Velocity/(2*pi*Channel Length)

Transit Angle

Go Transit Angle = Angular frequency*Length of Drift Space/Carrier Drift Velocity

Power gain of down converter given Degradation Factor Formula

What is the degradation factor in the context of signal processing?

The degradation factor is the reciprocal of the power gain and is a measure of how much a signal is weakened or degraded during processing.

How to Calculate Power gain of down converter given Degradation Factor?

Power gain of down converter given Degradation Factor calculator uses Power gain of down converter = Signal Frequency/Output Frequency*(Signal Frequency/Output Frequency*(Figure of Merit)^2)/(1+sqrt(1+(Signal Frequency/Output Frequency*(Figure of Merit)^2)))^2 to calculate the Power gain of down converter, The Power gain of down converter given Degradation Factor formula is defined as a device that takes an incoming signal at a higher frequency and converts it to a lower frequency. Power gain of down converter is denoted by Gain_dc symbol.

How to calculate Power gain of down converter given Degradation Factor using this online calculator? To use this online calculator for Power gain of down converter given Degradation Factor, enter Signal Frequency (f_s), Output Frequency (f_o) & Figure of Merit (γQ) and hit the calculate button. Here is how the Power gain of down converter given Degradation Factor calculation can be explained with given input values -> 0.764627 = 28/26*(28/26*(5.6)^2)/(1+sqrt(1+(28/26*(5.6)^2)))^2.

FAQ

What is Power gain of down converter given Degradation Factor?

The Power gain of down converter given Degradation Factor formula is defined as a device that takes an incoming signal at a higher frequency and converts it to a lower frequency and is represented as Gain_dc = f_s/f_o*(f_s/f_o*(γQ)^2)/(1+sqrt(1+(f_s/f_o*(γQ)^2)))^2 or Power gain of down converter = Signal Frequency/Output Frequency*(Signal Frequency/Output Frequency*(Figure of Merit)^2)/(1+sqrt(1+(Signal Frequency/Output Frequency*(Figure of Merit)^2)))^2. Signal Frequency refer to the frequency of an electrical waveform, such as an alternating current (AC) signal, Output Frequency refers to the rate at which a system or device produces outputs or results & Figure of Merit is a measure used to quantify the performance of a device, system.

How to calculate Power gain of down converter given Degradation Factor?

The Power gain of down converter given Degradation Factor formula is defined as a device that takes an incoming signal at a higher frequency and converts it to a lower frequency is calculated using Power gain of down converter = Signal Frequency/Output Frequency*(Signal Frequency/Output Frequency*(Figure of Merit)^2)/(1+sqrt(1+(Signal Frequency/Output Frequency*(Figure of Merit)^2)))^2. To calculate Power gain of down converter given Degradation Factor, you need Signal Frequency (f_s), Output Frequency (f_o) & Figure of Merit (γQ). With our tool, you need to enter the respective value for Signal Frequency, Output Frequency & Figure of Merit 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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