432 CHAPTER 7: Sampling Theory
FIGURE 7.5
Sampling of two sinusoids of
frequencies 0 = 1 and
0 +s= 8 withTs= 2 π/s.
The higher-frequency signal is
undersampled, causing aliasing,
which makes the two sampled
signals coincide.0 1 2 3 4 5 6− 1−0.500.51tx^1(t
),x^2(t
),x^1(nT)sx 1 (t)
x 2 (t)
x 1 (nTs)FIGURE 7.6
(a) Spectra of sinusoidsx 1 (t)andx 2 (t).
(b) The spectra of the sampled signalsx 1 s(t)
andx 2 s(t)look exactly the same due to the
undersampling ofx 2 (t). (a) (b)18 61 61− 188X 1 (Ω) X 1 s(Ω)X 2 (Ω) X 2 s(Ω)ΩΩΩΩ
− 8 − 8 − 6 − 1− 8 − 6· · ·· · ·· · ·· · ·
− 17.2.4 Signal Reconstruction from Sinc Interpolation..............................
The analog signal reconstruction from the samples can be shown to be an interpolation using sinc
signals. First, the ideal low-pass filterHlp(s)in Equation (7.14) has as impulse responsehlp(t)=Ts
2 π∫s/ 2−s/ 2ejtd=sin(πt/Ts)
πt/Ts(7.15)
which is a sinc function that has an infinite time support and decays symmetrically with respect to the
origint=0. The reconstructed signalxr(t)is the convolution of the sampled signalxs(t)andhlp(t),
which is found to bexr(t)=[xs∗hlp](t)=∫∞
−∞xs(τ)hlp(t−τ)dτ