1. In the system in Figure E.1, x,(t) = sinc(t), fc = 10 and the cutoff frequency of the lowpass filter is 1 Hz. Graph the signals x, (t), y,(t), ya(t) and yf(t) and the magnitudes and phases of their CTFTS. y,(1) = x,(1) Ya(t) x,(1) LPF cos(2f1) cos(21ft)
1. In the system in Figure E.1, x,(t) = sinc(t), fc = 10 and the cutoff frequency of the lowpass filter is 1 Hz. Graph the signals x, (t), y,(t), ya(t) and yf(t) and the magnitudes and phases of their CTFTS. y,(1) = x,(1) Ya(t) x,(1) LPF cos(2f1) cos(21ft)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Signals and systems
Please solve for problem. 7 only
Based on the problem 1.
Transcribed Image Text:1. In the system in Figure E.1, x,(t) = sinc(t), fe
the lowpass filter is 1 Hz. Graph the signals x, (t), y,(t), ya(t) and yƒ(t) and the
magnitudes and phases of their CTFTS.
= 10 and the cutoff frequency of
y,(1) = x,(1)
Ya(1)
x,(1)
- y,(1)
LPF
cos(2nfct)
cos(2tft)
Figure E.1
Transcribed Image Text:Chapter 12 Communication System Analysis
EXERCISES WITHOUT ANSWERS
Amplitude Modulation
7. Repeat Exercise 1 but with the second cos(2Tfet) replaced by sin(2ifct).
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Step 1
Given the system a shown below:
xt(t)=sinc(t), fc=10 and the cut-off frequency of the low-pass filter is 1 Hz. We need to plot the signals xt(t) , yt(t), yd(t) and yf(t) and the magnitudes and phases of their CTFT's.
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