B. If the signal xa(t)=2.5 sin 400zt is sampled by a sampling frequency F =600 samples per second, determine the resultant discrete-time signal x [n] .What is the reconstructed analogue signal xa(t), if x [n] is converted back into continuous-time by considering ideal D/A sampling frequency of 1500 samples per second.
B. If the signal xa(t)=2.5 sin 400zt is sampled by a sampling frequency F =600 samples per second, determine the resultant discrete-time signal x [n] .What is the reconstructed analogue signal xa(t), if x [n] is converted back into continuous-time by considering ideal D/A sampling frequency of 1500 samples per second.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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.Digital signal processing
![E [k ]x [n = k] = Z x [k ]h[n = k] •
k =0
k=-
B. If the signal xa(t)= 2.5 sin 400zt is sampled by a sampling
frequency F =600 samples per second, determine the resultant
%3D
discrete-time signal x [n] .What is the reconstructed analogue signal
fa(t), if x[n] is converted back into continuous-time by
considering ideal D/A sampling frequency of 1500 samples per
second.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1dbe6248-769a-4c06-9f7b-0bde4b2824f2%2Fa16c6b5e-96f0-45ab-8aeb-73a40f2edab5%2Fflzdc6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:E [k ]x [n = k] = Z x [k ]h[n = k] •
k =0
k=-
B. If the signal xa(t)= 2.5 sin 400zt is sampled by a sampling
frequency F =600 samples per second, determine the resultant
%3D
discrete-time signal x [n] .What is the reconstructed analogue signal
fa(t), if x[n] is converted back into continuous-time by
considering ideal D/A sampling frequency of 1500 samples per
second.
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