B) Consider the system in Figure 1.1. x(t) is sampled with a periodic impulse train, and a reconstructed signal x, (t) is obtained from the samples by lowpass filtering. The sampling period T = 1 ms, and x (t) is a sinusoidal signal of the form x(t) = cos (2nfot + 0). Xp (1) THE p(t) = S(t-nT) x(1) H(M) Figure 1.1 For each of the following choices of fo and 0, determine x, (t). 1) fo = 250 Hz, 0 = π/4 2) fo = 750 Hz, 0 = π/2 -x,(1)
B) Consider the system in Figure 1.1. x(t) is sampled with a periodic impulse train, and a reconstructed signal x, (t) is obtained from the samples by lowpass filtering. The sampling period T = 1 ms, and x (t) is a sinusoidal signal of the form x(t) = cos (2nfot + 0). Xp (1) THE p(t) = S(t-nT) x(1) H(M) Figure 1.1 For each of the following choices of fo and 0, determine x, (t). 1) fo = 250 Hz, 0 = π/4 2) fo = 750 Hz, 0 = π/2 -x,(1)
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:B) Consider the system in Figure 1.1. x(t) is sampled with a periodic impulse train, and a
reconstructed signal x, (t) is obtained from the samples by lowpass filtering. The sampling
period T = 1 ms, and x (t) is a sinusoidal signal of the form x(t) = cos (2nfot + 0).
x(t)
Xp (1)
p(t) = Σ 6(t – nT)
-7
H(M)
Figure 1.1
For each of the following choices of fo and 0, determine x, (t).
1) fo = 250 Hz, 0 = π/4
2) fo = 750 Hz, 0 = π/2
x₂ (1)
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