xc (t) Xp (t) 7.29. Figure P7.29(a) shows the overall system for filtering a continuous-time signal using a discrete-time filter. If Xc(jw) and H(ejw) are as shown in Figure P7.29(b), with 1/T = 20 kHz, sketch Xp(jw), X(ejw), Y(ejw), Yp(jw), and Y.(jw). +00 p(t) = Σ8(t-nT) 8118 Conversion x[n] = xc (nT) h[n] y[n] yc (nT) Conversion to a sequence to an H(e) impulse train Xc(jw) 1 -π X104 TTX104 (a) w (b) Figure P7.29 1 H(el) H(jw) Yp (t) Yc (t) 1/11- πT/T w
xc (t) Xp (t) 7.29. Figure P7.29(a) shows the overall system for filtering a continuous-time signal using a discrete-time filter. If Xc(jw) and H(ejw) are as shown in Figure P7.29(b), with 1/T = 20 kHz, sketch Xp(jw), X(ejw), Y(ejw), Yp(jw), and Y.(jw). +00 p(t) = Σ8(t-nT) 8118 Conversion x[n] = xc (nT) h[n] y[n] yc (nT) Conversion to a sequence to an H(e) impulse train Xc(jw) 1 -π X104 TTX104 (a) w (b) Figure P7.29 1 H(el) H(jw) Yp (t) Yc (t) 1/11- πT/T w
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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Question
![xc (t)
Xp (t)
7.29. Figure P7.29(a) shows the overall system for filtering a continuous-time signal using
a discrete-time filter. If Xc(jw) and H(ejw) are as shown in Figure P7.29(b), with
1/T = 20 kHz, sketch Xp(jw), X(ejw), Y(ejw), Yp(jw), and Y.(jw).
+00
p(t) = Σ8(t-nT)
8118
Conversion x[n] = xc (nT)
h[n]
y[n] yc (nT) Conversion
to a
sequence
to an
H(e)
impulse train
Xc(jw)
1
-π X104
TTX104
(a)
w
(b)
Figure P7.29
1
H(el)
H(jw)
Yp (t)
Yc (t)
1/11-
πT/T
w](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F601e211d-1f5d-499e-9f53-ce143c892c4b%2F5c0cc2d6-70f5-442e-b0d3-9f8af7022eeb%2Fpob1w6b_processed.jpeg&w=3840&q=75)
Transcribed Image Text:xc (t)
Xp (t)
7.29. Figure P7.29(a) shows the overall system for filtering a continuous-time signal using
a discrete-time filter. If Xc(jw) and H(ejw) are as shown in Figure P7.29(b), with
1/T = 20 kHz, sketch Xp(jw), X(ejw), Y(ejw), Yp(jw), and Y.(jw).
+00
p(t) = Σ8(t-nT)
8118
Conversion x[n] = xc (nT)
h[n]
y[n] yc (nT) Conversion
to a
sequence
to an
H(e)
impulse train
Xc(jw)
1
-π X104
TTX104
(a)
w
(b)
Figure P7.29
1
H(el)
H(jw)
Yp (t)
Yc (t)
1/11-
πT/T
w
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