Exercise 2-7: Find the current-through each-resistor and the voltage at each node of the voltage- controlled current source in Fig. 2-11. What is the transconductance of the source? [Answer: V= 3.75 V, V= 7.5 V, Vc=3.75 V, L=2.5 mA, k=1.5625 mA, 2=0.9375 mA, I=0.9375 mA, I-0.9375 mA, gm-0.25 nS] %3D R-4D R-4k0 R = 4 k0 Y- + 10 Vo- R 1.5 ka
Exercise 2-7: Find the current-through each-resistor and the voltage at each node of the voltage- controlled current source in Fig. 2-11. What is the transconductance of the source? [Answer: V= 3.75 V, V= 7.5 V, Vc=3.75 V, L=2.5 mA, k=1.5625 mA, 2=0.9375 mA, I=0.9375 mA, I-0.9375 mA, gm-0.25 nS] %3D R-4D R-4k0 R = 4 k0 Y- + 10 Vo- R 1.5 ka
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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![Fig. 2-10
Exercise 2-7:
Find the current through each resister and the voltage at each node of the voltage-
controlled current source in Fig. 2-11. What is the transconductance of the source?
[Answer: V= 3.75 V, V=7.5 V, Vc=3.75 V, h=2.5 mA, I =1.5625 mA,
h= 0.9375 mA, I=0.9375 mA, I=0.9375 mA, gm=0.25 nS]
R3 -4 LD
R- 4 ka
R = 4 k0
Vin - + 10 Vo-W
R2 - 4 ka
RL = 1.5 ka3
Fig. 2-11](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa037b801-f52d-4b92-bb82-91bf231e0771%2F43cbf25e-0d38-4312-8151-56074832795a%2Fr8ynqlc_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Fig. 2-10
Exercise 2-7:
Find the current through each resister and the voltage at each node of the voltage-
controlled current source in Fig. 2-11. What is the transconductance of the source?
[Answer: V= 3.75 V, V=7.5 V, Vc=3.75 V, h=2.5 mA, I =1.5625 mA,
h= 0.9375 mA, I=0.9375 mA, I=0.9375 mA, gm=0.25 nS]
R3 -4 LD
R- 4 ka
R = 4 k0
Vin - + 10 Vo-W
R2 - 4 ka
RL = 1.5 ka3
Fig. 2-11
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