II. PROBLEM SOLVING. Derive the equations and solve for Z₁, Zo, and Av.Write the complete solution in separate piece/s of long bond paper/s. DO NOT use the back part of the bond paper/s. Final answer should be enclosed in a BOX. ( Where :Vo = output voltage directly connected to 1μF of drain terminal la = output current flowing in 10k li = input current flowing in Vi Use: VTH = 3.5V; k = 0.3x10-3; Yos = 20μS → M 120 mV/60 Hz/0 Deg 22 MG 10 ko 1 KG 1 uF ( 20 V
II. PROBLEM SOLVING. Derive the equations and solve for Z₁, Zo, and Av.Write the complete solution in separate piece/s of long bond paper/s. DO NOT use the back part of the bond paper/s. Final answer should be enclosed in a BOX. ( Where :Vo = output voltage directly connected to 1μF of drain terminal la = output current flowing in 10k li = input current flowing in Vi Use: VTH = 3.5V; k = 0.3x10-3; Yos = 20μS → M 120 mV/60 Hz/0 Deg 22 MG 10 ko 1 KG 1 uF ( 20 V
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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Transcribed Image Text:II. PROBLEM SOLVING. Derive the equations and solve for Z₁, Zo, and Av.Write the
complete solution in separate piece/s of long bond paper/s. DO NOT use the back part of
the bond paper/s. Final answer should be enclosed in a BOX. (
Where :Vo = output voltage directly connected to 1 μF of drain terminal
la = output current flowing in 10k
li = input current flowing in Vi
Use: VTh= 3.5V; k= 0.3x10-³; Yos = 20μS
1 µF
→
M
120 mV/60 Hz/0 Deg
22 MG
10 k
1 uF
#6
20 V
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