Using Eq. (4), sketch the amplitude of the AM signal frequency spectrum equation 4: ??(??) =...

Consider the signal x(t) = 3 cos 2π(30)t + 4 . (a) Plot the spectrum of...

Consider the signal x(t) = 3 cos 2π(30)t + 4 . (a) Plot the spectrum of the signal x(t). Show the spectrum as a function of f in Hz. ?π? For the remainder of this problem, assume that the signal x(t) is sampled to produce the discrete-time signal x[n] at a rate of fs = 50 Hz. b Sketch the spectrum for the sampled signal x[n]. The spectrum should be a function of the normalized frequency variable ωˆ over the...

 Sketch the spectrum of an AM signal with modulation index 0.5, and explain why this form...

 Sketch the spectrum of an AM signal with modulation index 0.5, and explain why this form of modulation is also referred to as DSB-LC. 13. Envelope detectors are commonly used to demodulate AM signals. Explain whether this is a form of coherent or non-coherent demodulation? Where else can envelope detectors be used in communication syste

I am sketching amplitude modulated signal in time domain. I can sketch it when modulated signal...

I am sketching amplitude modulated signal in time domain. I can sketch it when modulated signal Xc(t) is like (1 + m(t))s(t) where m(t) is a modulating signal and s(t) is a carrier signal. but when modulated signal has different equation, I don't know how to sketch it. for example, modulated signal Xc(t) = sin(2pi100000t)sin(2pi1000t). so I have searched about it and I found someone convert sin(2pi100000t)sin(2pi1000t) form to (1 + m(t))s(t) form. but now I don't know how to...

1. An amplitude modulated system has following parameters: Modulating signal frequency fm = 500 Hz, Carrier...

1. An amplitude modulated system has following parameters: Modulating signal frequency fm = 500 Hz, Carrier frequency fc = 2KHz. Draw a two-sided spectrum with approximately scaled frequencies and amplitude. Consider perfect modulation (mod index = 1). 2. What is the typical range of AM modulation index (depth)? What will happen if it is at the lowest value or highest value in the range? What will happen if it goes beyond the range? too low a level of modulation and...

Generate a Matlab Code for amplitude modulated signal by multiplying a message signal (a low frequency...

Generate a Matlab Code for amplitude modulated signal by multiplying a message signal (a low frequency cosine signal) with a carrier signal (a high frequency cosine signal). Sketch the Fourier transform of the modulated signal. Demodulate the modulated signal (with no noise) by again multiplying it with the same carrier signal. Sketch the Fourier transform of the signal obtained in c). Your task is to recover the message signal from the signal in c). Determine the type of filter you...

A carrier signal, Vc(t) = 5cos(1π3000t) F is frequency modulated by a modulating signal of 4...

A carrier signal, Vc(t) = 5cos(1π3000t) F is frequency modulated by a modulating signal of 4 kHz with a modulation index of 2. The FM wave is transmitted through a 50 Ω antenna. With the aid of Bessel Function Table, determine the: number of sets of significant sidebands, frequency deviation, carrier swing, minimum and maximum frequency of the FM signal, bandwidth using Bessel Function Table, frequencies of all the significant sidebands, total power of the FM signal. Hence, sketch and...

Specify the frequency response characteristics of a VSB filter that passes the lower sideband and the...

Specify the frequency response characteristics of a VSB filter that passes the lower sideband and the first frequency component of the upper sideband of a DSB modulated signal with the message signal given by m(t)=10cos(3000(pi)t)+20cos(6000(pi)t) . The carrier signal has an amplitude of 20 and a frequency of 250 kHz. a. Write the expression for the DSB signal. b. Write the expression for the single sided spectrum of the DSB signal c. Sketch the spectrum d. Give the specifications for...

Consider a signal x(t) = 20 sinc(10t) is to be represented by samples using ideal (impulses)...

Consider a signal x(t) = 20 sinc(10t) is to be represented by samples using ideal (impulses) sampling. a) Sketch the signal spectral density X(f). b) Find the minimum sampling frequency that allows reconstruction of x(t) from its samples. c) Sketch the sampled spectrum Xs(f) in the range [-55, 55] with sampling frequency fs = 25 Hz.

Consider speech signal x(t), which has the magnitude spectrum X(f)= rect(f/100). Sketch the magnitude spectrum of...

Consider speech signal x(t), which has the magnitude spectrum X(f)= rect(f/100). Sketch the magnitude spectrum of the sampled x(t) resulted by conducting natural sampling with the sampling freq 180Hz. Comment on your result. Discuss how to perform digital to analog conversion to recover x(t). Is it possible to fully recover x(t) without distortion? Justify your answer.

Write Matlab script to plot the spectrum (-? to ? radians) of DTMF signal for keys...

Write Matlab script to plot the spectrum (-? to ? radians) of DTMF signal for keys 1, A and B. Choose an appropriate sampling frequency. The DTMF frequencies are indicated in table 1.     Critically analyze the design specification.                                           Row/column 1209HZ 1336Hz 1477HZ 1633HZ 697 1 2 3 A 770 4 5 6 B 852 7 8 9 C 941 * 0 # D     Write Matlab script to plot the spectrum (-? to ? radians) of DTMF signal for...