Phase Deviation of AM Receiver Calculator

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Amplitude Modulation Characteristics

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✖Proportionality Constant is a constant value that shows the relationship between two proportional quantities.ⓘ Proportionality Constant [K_p]			+10% -10%
✖Amplitude of Modulating Signal is the maximum displacement of the signal from its equilibrium or rest position, measured in units of the original signal amplitude.ⓘ Amplitude of Modulating Signal [A_m]			+10% -10%
✖Modulating Signal Frequency is the number of occurrences of a repeating event per unit of time.ⓘ Modulating Signal Frequency [F_m]			+10% -10%

✖Phase Deviation is the peak difference between the instantaneous phase angle of the modulated wave and that of the unmodulated carrier wave.ⓘ Phase Deviation of AM Receiver [ΔP]

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Phase Deviation of AM Receiver

Formula

`"ΔP" = "K"_{"p"}*"A"_{"m"}*"F"_{"m"}`

Example

`"911.9908"="3.3"*"6.12V"*"45.157Hz"`

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Phase Deviation of AM Receiver Solution

STEP 0: Pre-Calculation Summary

Formula Used

Phase Deviation = Proportionality Constant*Amplitude of Modulating Signal*Modulating Signal Frequency
ΔP = K_p*A_m*F_m
This formula uses 4 Variables

Variables Used

Phase Deviation - Phase Deviation is the peak difference between the instantaneous phase angle of the modulated wave and that of the unmodulated carrier wave.
Proportionality Constant - Proportionality Constant is a constant value that shows the relationship between two proportional quantities.
Amplitude of Modulating Signal - (Measured in Volt) - Amplitude of Modulating Signal is the maximum displacement of the signal from its equilibrium or rest position, measured in units of the original signal amplitude.
Modulating Signal Frequency - (Measured in Hertz) - Modulating Signal Frequency is the number of occurrences of a repeating event per unit of time.

STEP 1: Convert Input(s) to Base Unit

Proportionality Constant: 3.3 --> No Conversion Required
Amplitude of Modulating Signal: 6.12 Volt --> 6.12 Volt No Conversion Required
Modulating Signal Frequency: 45.157 Hertz --> 45.157 Hertz No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ΔP = K_p*A_m*F_m --> 3.3*6.12*45.157

Evaluating ... ...

ΔP = 911.990772

STEP 3: Convert Result to Output's Unit

911.990772 --> No Conversion Required

FINAL ANSWER

911.990772 ≈ 911.9908 <-- Phase Deviation

(Calculation completed in 00.005 seconds)

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Created by Suma Madhuri

VIT University (VIT), Chennai

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Vellore Institute of Technology (VIT Vellore), Vellore

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< 18 Amplitude Modulation Characteristics Calculators

Pre Detection Signal to Noise Ratio of AM

Go Pre Detection SNR of SSB = (Amplitude of Carrier Signal^2*(1+Amplitude Sensitivity of Modulator^2*Total Power))/(2*Noise Density*Transmission Bandwidth)

Post Detection Signal to Noise Ratio of AM

Go Post Detection SNR of AM = (Amplitude of Carrier Signal^2*Amplitude Sensitivity of Modulator^2*Total Power)/(2*Noise Density*Transmission Bandwidth)

Coupling Factor of AM Receiver

Go Coupling Factor = (Image Frequency/Radio Frequency)-(Radio Frequency/Image Frequency)

Phase Deviation of AM Receiver

Go Phase Deviation = Proportionality Constant*Amplitude of Modulating Signal*Modulating Signal Frequency

Quality Factor of AM Receiver

Go Quality Factor = 1/(2*pi)*sqrt(Inductance/Capacitance)

Total Current of AM Wave

Go Total Current of AM Wave = Carrier Current*sqrt(1+((Modulation Index^2)/2))

Total Power of AM wave

Go Total Power = Carrier Power+Upper Sideband Power+Lower Sideband Power

Magnitude of Modulating Signal

Go Modulating Signal Magnitude = (Maximum Amplitude of AM Wave-Minimum Amplitude of AM Wave)/2

Maximum Amplitude of AM Wave

Go Maximum Amplitude of AM Wave = Amplitude of Carrier Signal*(1+Modulation Index^2)

Minimum Amplitude of AM Wave

Go Minimum Amplitude of AM Wave = Amplitude of Carrier Signal*(1-Modulation Index^2)

Amplitude of Each Sideband

Go Amplitude of each Sideband = (Modulation Index*Amplitude of Carrier Signal)/2

Image Frequency Bandwidth of AM Receiver

Go Image Frequency Bandwidth = Radio Frequency Bandwidth/Bandwidth Improvement

Radio Frequency Bandwidth of AM Receiver

Go Radio Frequency Bandwidth = Bandwidth Improvement*Image Frequency Bandwidth

Bandwidth Improvement of AM Receiver

Go Bandwidth Improvement = Radio Frequency Bandwidth/Image Frequency Bandwidth

Local Oscillation Frequency of AM Receiver

Go Local Oscillation Frequency = Radio Frequency+Intermediate Frequency

Average Total Power of AM Wave

Go Total Power = Carrier Power*(1+(Modulation Index^2)/2)

Amplitude Sensitivity of Modulator

Go Amplitude Sensitivity of Modulator = 1/Amplitude of Carrier Signal

Bandwidth of AM wave

Go Bandwidth of AM Wave = 2*Maximum Frequency

Phase Deviation of AM Receiver Formula

Phase Deviation = Proportionality Constant*Amplitude of Modulating Signal*Modulating Signal Frequency
ΔP = K_p*A_m*F_m

How does Phase Deviation affect the AM?

Minimizing phase deviations is important in AM systems to ensure accurate demodulation and faithful reproduction of the modulating signal. Techniques such as using phase-locked loops (PLLs) or other phase synchronization methods can be employed to mitigate phase deviations and improve the performance of AM systems.

How to Calculate Phase Deviation of AM Receiver?

Phase Deviation of AM Receiver calculator uses Phase Deviation = Proportionality Constant*Amplitude of Modulating Signal*Modulating Signal Frequency to calculate the Phase Deviation, The Phase Deviation of AM Receiver formula refers to the change in the phase of the carrier signal relative to its original phase. It can affect the quality of the demodulated signal. Phase Deviation is denoted by ΔP symbol.

How to calculate Phase Deviation of AM Receiver using this online calculator? To use this online calculator for Phase Deviation of AM Receiver, enter Proportionality Constant (K_p), Amplitude of Modulating Signal (A_m) & Modulating Signal Frequency (F_m) and hit the calculate button. Here is how the Phase Deviation of AM Receiver calculation can be explained with given input values -> 911.8494 = 3.3*6.12*45.157.

FAQ

What is Phase Deviation of AM Receiver?

The Phase Deviation of AM Receiver formula refers to the change in the phase of the carrier signal relative to its original phase. It can affect the quality of the demodulated signal and is represented as ΔP = K_p*A_m*F_m or Phase Deviation = Proportionality Constant*Amplitude of Modulating Signal*Modulating Signal Frequency. Proportionality Constant is a constant value that shows the relationship between two proportional quantities, Amplitude of Modulating Signal is the maximum displacement of the signal from its equilibrium or rest position, measured in units of the original signal amplitude & Modulating Signal Frequency is the number of occurrences of a repeating event per unit of time.

How to calculate Phase Deviation of AM Receiver?

The Phase Deviation of AM Receiver formula refers to the change in the phase of the carrier signal relative to its original phase. It can affect the quality of the demodulated signal is calculated using Phase Deviation = Proportionality Constant*Amplitude of Modulating Signal*Modulating Signal Frequency. To calculate Phase Deviation of AM Receiver, you need Proportionality Constant (K_p), Amplitude of Modulating Signal (A_m) & Modulating Signal Frequency (F_m). With our tool, you need to enter the respective value for Proportionality Constant, Amplitude of Modulating Signal & Modulating Signal Frequency 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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