frequency modulated (FM) signal is produced by frequency modulation of the x(t) = 0.5sin(10000πt) message signal, a carrier signal with amplitude Ac= 2 and frequency fc=200 KHz, and a frequency shift constant kf=2π×10^3. . According to this, Obtain the peak frequency deviation of the FM signal. Δf = Determine the modulation index of the FM signal in decimal form. β= Calculate the transmission bandwidth of the FM signal. B=
frequency modulated (FM) signal is produced by frequency modulation of the x(t) = 0.5sin(10000πt) message signal, a carrier signal with amplitude Ac= 2 and frequency fc=200 KHz, and a frequency shift constant kf=2π×10^3. . According to this, Obtain the peak frequency deviation of the FM signal. Δf = Determine the modulation index of the FM signal in decimal form. β= Calculate the transmission bandwidth of the FM signal. B=
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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A frequency modulated (FM) signal is produced by frequency modulation of the x(t) = 0.5sin(10000πt) message signal, a carrier signal with amplitude Ac= 2 and frequency fc=200 KHz, and a frequency shift constant kf=2π×10^3. . According to this,
Obtain the peak frequency deviation of the FM signal. Δf =
Determine the modulation index of the FM signal in decimal form. β=
Calculate the transmission bandwidth of the FM signal. B=
Give the transmission efficiency of the FM signal as a percentage by rounding to the nearest number, η=
Determine the minimum and maximum frequency values of the FM signal. fmin= KHz, fmax = kHz
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