The signal x(t)=sinc2(100t) is sampled with frequency fs=150sample/sec 1. Determine the spectral representation of the sampled...

A signal described by y(t) = .25*sin(6000*t) + cos(3500*t) was sampled with fs = 1 kHz....

A signal described by y(t) = .25*sin(6000*t) + cos(3500*t) was sampled with fs = 1 kHz. Determined: a) Whether this signal was aliased. Provide the spectral plot (magnitude versus frequency) b) If the signal proved to be aliased, find the right sampling rate c) Provide the spectral plot indicating the right frequencies of the signal

SUB-DSP given the following function and sample rate: 1) x(t)=sin(200pi't')+2sin(900pi't') and Fs=600HZ find a)the nyquist rate...

SUB-DSP given the following function and sample rate: 1) x(t)=sin(200pi't')+2sin(900pi't') and Fs=600HZ find a)the nyquist rate b)sampled signal,x(n) (taking into account aliasing if present) c)Reconstructed signal,y(t)

Question : Design the low and high pass filter for the signal, x(t) = 10 sin...

Question : Design the low and high pass filter for the signal, x(t) = 10 sin (10 t) + 1 sin (1000 t) by MATLAB Is below answer right? at ?High pass , 5row shouldn't this change from sin(100*t) ? sin(1000*t) x = 10*sin(10*t) + 1*sin(100*t); ?   x = 10*sin(10*t) + 1*sin(1000*t); ??? ..................................................................................................................................................... ?Low pass clc; rng default Fs=2000; t=linspace(0,1,Fs); x=10*sin(10*t)+sin(1000*t)%given signal n=0.5*randn(size(t));%noise x1=x+n; fc=150; Wn=(2/Fs)*fc; b=fir1(20,Wn,'low',kaiser(21,3)); %fvtool(b,1,’Fs’,Fs) y=filter(b,1,x1); plot(t,x1,t,y) xlim([0 0.1]) xlabel('Time (s) ') ylabel('Amplitude') legend('Original Signal','Filtered Data')...

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.

Given signal x(t) = sinc(t): 1. Find out the Fourier transform of x(t), find X(f), sketch...

Given signal x(t) = sinc(t): 1. Find out the Fourier transform of x(t), find X(f), sketch them. 2. Find out the Nyquist sampling frequency of x(t). 3. Given sampling rate fs, write down the expression of the Fourier transform of xs(t), Xs(f) in terms of X(f). 4. Let sampling frequency fs = 1Hz. Sketch the sampled signal xs(t) = x(kTs) and the Fourier transform of xs(t), Xs(f). 5. Let sampling frequency fs = 2Hz. Repeat 4. 6. Let sampling frequency...

A signal x(t)=2 sin⁡(62.8 t)*u(t) is sampled at a rate of 5 Hz, and then filtered...

A signal x(t)=2 sin⁡(62.8 t)*u(t) is sampled at a rate of 5 Hz, and then filtered by a low-pass filter with a cutoff frequency of 12 Hz. Determine and sketch the output of the filter.

Assuming a continuous is given as x(t)=10cos(2pi.5,500t)+5sin(2pi.7,500t),for t>0(greater than or equal to zero) sampled at a...

Assuming a continuous is given as x(t)=10cos(2pi.5,500t)+5sin(2pi.7,500t),for t>0(greater than or equal to zero) sampled at a rate upyo 8,000Hz, a.sketch a spectrum of the sampled signal upto 20KHz; b.sketch tge recovered analog signal spctrum if an ideal filter with a cutoff frequency of 4KHz is used to sampled signal if order to recover the original signal; c.determine the frequency /frequencies of aliasing noise

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...

The signal x(t)=2a/(t^2+a^2) , - infinity < t < infinity is passing through a band-limiting low-pass...

The signal x(t)=2a/(t^2+a^2) , - infinity < t < infinity is passing through a band-limiting low-pass filter with bandwidth B Hz. Determine the minimum value of B in terms of a so that the output of the filter has 99% of the energy of the input signal.

The experimental analog signal f(t)=5.5sin(2000πt) Volts required to be converted into a digital representation. You are...

The experimental analog signal f(t)=5.5sin(2000πt) Volts required to be converted into a digital representation. You are required to use an 8-bit analog to the digital conversion process. The conversion process uses an input range of 6 Volts to convert from analog to equivalent digital values. The analog to digital conversion uses a sampling frequency of 3 kHz... 7(Assuming the input signal was f(t)=5.5sin(3500πt). Would you expect aliasing to occur in the process? 8) Suggest an anti-aliasing filter cut off frequency...