iven: • VDD = 29 V • R; =14 kohms • R2 = 3 kohms • Rp = 651 ohms • Rs = 0 kohms • RL = 12 kohms • ID(on) = 17 mA at VGs(on) = 8 V • Vasth) = 3 V * 8m = 27 ms olve: Answers should be expressed using 2 decimal places 1. k (transfer constant) = Blank 1 mA/V2 2. Ip = Blank 2 mA 3. VG = Blank 3 V 4. Vs = Blank 4 V 5. VGs = Blank 5 V 6. Vps = Blank 6 V 7. Rintop) = Blank 7 kohms 8. Voltage gain, A, = Blank 8
iven: • VDD = 29 V • R; =14 kohms • R2 = 3 kohms • Rp = 651 ohms • Rs = 0 kohms • RL = 12 kohms • ID(on) = 17 mA at VGs(on) = 8 V • Vasth) = 3 V * 8m = 27 ms olve: Answers should be expressed using 2 decimal places 1. k (transfer constant) = Blank 1 mA/V2 2. Ip = Blank 2 mA 3. VG = Blank 3 V 4. Vs = Blank 4 V 5. VGs = Blank 5 V 6. Vps = Blank 6 V 7. Rintop) = Blank 7 kohms 8. Voltage gain, A, = Blank 8
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:......
Given:
• VDD = 29 V
• R; =14 kohms
• R2 = 3 kohms
• Rp = 651 ohms
• Rg = 0 kohms
• RL = 12 kohms
• ID(on) = 17 mA at Vas(on) = 8 V
• Vasth) = 3 V
* 8m = 27 ms
Solve: Answers should be expressed using 2 decimal places
%.
1. k (transfer constant) = Blank 1 mA/V2
2. Ip = Blank 2 mA
3. VG = Blank 3 V
4. Vs = Blank 4 V
5. VGs = Blank 5 V
6. Vps = Blank 6 V
7. Rinſtot) = Blank 7 kohms
8. Voltage gain, A, = Blank 8
%3D
%3D
%3D
Transcribed Image Text:+Vpp
Rp
C3
Vout
R1
RL
Vin
R2
Rs
두
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