A) A timing circuit is shown in Figure 2A. For both transistors, KREcn = 0.7V, KCEen = 0.2V and Be is large. The transistor Q1 has been OFF for a long time, while Q2 is saturated. At t = 0 a step input of 5V is applied to the base of Q1, which causes Q1 to saturate and turns Q2 OFF. i. Find the voltage at the base of Q2 just after the step input is applied, V8:(0*). How long does it take before Q2 turns back on? 11.
A) A timing circuit is shown in Figure 2A. For both transistors, KREcn = 0.7V, KCEen = 0.2V and Be is large. The transistor Q1 has been OFF for a long time, while Q2 is saturated. At t = 0 a step input of 5V is applied to the base of Q1, which causes Q1 to saturate and turns Q2 OFF. i. Find the voltage at the base of Q2 just after the step input is applied, V8:(0*). How long does it take before Q2 turns back on? 11.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:A) A timing circuit is shown in Figure 2A. For both transistors, KREn = 0.7V, KCERR = 0.2V and
Br is large. The transistor Q1 has been OFF for a long time, while Q2 is saturated. At t = 0 a
step input of 5V is applied to the base of Q1, which causes Q1 to saturate and turns Q2 OFF.
i.
Find the voltage at the base of Q2 just after the step input is applied, V32(0*).
How long does it take before Q2 turns back on?
ii.
I VCC = 6V
VA = 3V
2kN
2kΩ
50kΩ
Vo
0.01 uF
Q1
Q2
50kn
VB2
Vstep
Figure 2A
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