Q1. For the circuit shown in fig.Q1, VBE(active)=0.75, VBE(sat)=0.8, VBC(sat)=0.6 V and B=50 atT=25 °C 1. Determine the value of R2 such that VR= -1.3V 2. For VR= -1.3 V, determine Vo at Vin= -2V, -0.5V, -0.2V and 0.5V. 3. Determine VoH for a fan-out of 300.

Q1. For the circuit shown in fig.Q1, VBE(active)=0.75, VBE(sat)=0.8, VBC(sat)=0.6 V and B=50 atT=25 °C 1. Determine the value of R2 such that VR= -1.3V 2. For VR= -1.3 V, determine Vo at Vin= -2V, -0.5V, -0.2V and 0.5V. 3. Determine VoH for a fan-out of 300.

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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Question

R4=1.5K

R1
300
RC2
300
RC1
290
Q3
Q4
Q5
Vin
Q1
Q2
VR=
Vo
-1.3V,
D1
R4
R3
1.5k
D2
1.5}
1.18K Re
2 k
R2
VEE -5.2V
Fig.Q1

Q1. For the circuit shown in fig.Q1, VBE(active)=0.75, VBE(sat)=0.8, VBC(sat)=0.6 V
and B=50 atT=25 °C
1. Determine the value of R2 such that VR=-1.3V
2. For VR= -1.3 V, determine Vo at Vin=-2V, -0.5V, -0.2V and 0.5V.
3. Determine VOH for a fan-out of 300.

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