II.3 use this system: y(n) = x(n)-x(n-2) + 0.8 y(n-1)-0.64 y(n-2) a) Draw its block diagram b) b.1 - Obtain its transfer function H(z) b.2- Calculate and PLOT | H(e je), for 0 = 0, π/4. π/2, 3π/4, and T. c) Obtain and plot its poles and zeros, in the z-plane
II.3 use this system: y(n) = x(n)-x(n-2) + 0.8 y(n-1)-0.64 y(n-2) a) Draw its block diagram b) b.1 - Obtain its transfer function H(z) b.2- Calculate and PLOT | H(e je), for 0 = 0, π/4. π/2, 3π/4, and T. c) Obtain and plot its poles and zeros, in the z-plane
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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II. 3 use this system: \[ y(n)=x(n)-x(n-2)+0.8 y(n-1)-0.64 y(n-2) \]
a) Draw its block diagram
b) b. 1 - Obtain its transfer functionH(z)
b. 2 - Calculate and PLOT∣H(ejθ)∣, forθ=0,π/4.π/2,3π/4, andπ.
c) Obtain and plot its poles and zeros, in the z-plane
Transcribed Image Text:11.3 use this system:
y(n) = x(n)-x(n-2) + 0.8 y(n-1)-0.64 y(n-2)
a) Draw its block diagram
b) b.1 - Obtain its transfer function H(z)
b.2- Calculate and PLOT | H(e je), for 0 = 0, π/4. π/2, 3π/4, and T.
c) Obtain and plot its poles and zeros, in the z-plane
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