17. If the pole zeros plot of Zin(o) is shown in Fig.5, then transfer function of Zin (G) is. 10 Zn(o) M -25-20 -12.3 Fig. 5 100²+37.50+312.5 a+20 none of them b) 100²+375 +3125 ²+20+200 c) 10²-37-30-312.50 مجموعة من

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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17. If the pole zeros plot of Zin(o) is shown in Fig.5, then transfer function of
Zin() is.
Zn(0)
-12.3
Fig. 5
100²+37.50+312.5
+20
none of them
25 mH
b) 100 +37.50 +312.5
+20+200
18. The poles and zeros configuration of Zin (0)| shown in Fig.) represents the
input impedance of the circuit shown in Fig. 6(b). The poles P₁, P2 are:
Z(0)
Fig. 6
a) 0, -2Np/s
b)-1, -3Np/s
19. The zeros of Zin (ju) shown in Fig.7 are:
20 mH
40 uF
Zin
A
c) 109²-37-36-312.50
-0.5, -15 Np/s
ê
مجموعة من طلبة الهندسة - الجامعة الأردنية
60
w
1H
3H
d) 0.5, 1.5 N/s
6+3
6
Fig. (7)
a)-750, 750 rad/s b) -500, 500 rad/s (e))-1000, 1000 rad/s d) 1500, -1500 rd/s
20. The poles of Zin (jw) shown in Fig.7 are:
a) -750, 750 (5-1500, 0, 1500 rad/s c)-500, 500 rad/s d) 1000, -1000 rad/s
a
6
35
S
Transcribed Image Text:17. If the pole zeros plot of Zin(o) is shown in Fig.5, then transfer function of Zin() is. Zn(0) -12.3 Fig. 5 100²+37.50+312.5 +20 none of them 25 mH b) 100 +37.50 +312.5 +20+200 18. The poles and zeros configuration of Zin (0)| shown in Fig.) represents the input impedance of the circuit shown in Fig. 6(b). The poles P₁, P2 are: Z(0) Fig. 6 a) 0, -2Np/s b)-1, -3Np/s 19. The zeros of Zin (ju) shown in Fig.7 are: 20 mH 40 uF Zin A c) 109²-37-36-312.50 -0.5, -15 Np/s ê مجموعة من طلبة الهندسة - الجامعة الأردنية 60 w 1H 3H d) 0.5, 1.5 N/s 6+3 6 Fig. (7) a)-750, 750 rad/s b) -500, 500 rad/s (e))-1000, 1000 rad/s d) 1500, -1500 rd/s 20. The poles of Zin (jw) shown in Fig.7 are: a) -750, 750 (5-1500, 0, 1500 rad/s c)-500, 500 rad/s d) 1000, -1000 rad/s a 6 35 S
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