Calculate the transfer function between input R(s) and output Y(s) for the Block diagram shown below. R(s) (3) G, G, Σ) H G, Y(s) _ G; + GG, +G; (H, +1) (a) R(s) Y (s) _ G; +GG, +GG; (H, +H,) 1+ G (H, +1) (b) R(s) 1+ G (H, +н,) Y (s) _ G; + GG, + G,G; (H, +1) (c) R(s) Y (s) _ G; + GG, + G; (H¡ +H,) 1+G (H, +1) (d) R(s) 1+ G (H, +H,)
Calculate the transfer function between input R(s) and output Y(s) for the Block diagram shown below. R(s) (3) G, G, Σ) H G, Y(s) _ G; + GG, +G; (H, +1) (a) R(s) Y (s) _ G; +GG, +GG; (H, +H,) 1+ G (H, +1) (b) R(s) 1+ G (H, +н,) Y (s) _ G; + GG, + G,G; (H, +1) (c) R(s) Y (s) _ G; + GG, + G; (H¡ +H,) 1+G (H, +1) (d) R(s) 1+ G (H, +H,)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Calculate the transfer function between input R(s) and output Y(s) for the Block
diagram shown below.
R(s)
(3)
G,
G,
Σ)
H
G,
Y(s) _ G; + GG, +G; (H, +1)
(a)
R(s)
Y (s) _ G; +GG, +GG; (H, +H,)
1+ G (H, +1)
(b)
R(s)
1+ G (H, +н,)
Y (s) _ G; + GG, + G,G; (H, +1)
(c)
R(s)
Y (s) _ G; + GG, + G; (H¡ +H,)
1+G (H, +1)
(d)
R(s)
1+ G (H, +H,)
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