Q3: For the circuit shown in Figure 2, find the following: 1. Describe the function of the circuit in terms of simple of semiconductor behavior. 2. Evaluate the output voltage Vo, assuming vs is 10 Sine (200t) mV, Re1 =100 N, and Re2 =900 N. The bypass capacitor (CE) is in parallel with Re2. 3. Simulate the circuit and verify your answers; you should show the input voltage. and output voltage on the same graph. 4. You should explain the characteristics of amplifier.
Q3: For the circuit shown in Figure 2, find the following: 1. Describe the function of the circuit in terms of simple of semiconductor behavior. 2. Evaluate the output voltage Vo, assuming vs is 10 Sine (200t) mV, Re1 =100 N, and Re2 =900 N. The bypass capacitor (CE) is in parallel with Re2. 3. Simulate the circuit and verify your answers; you should show the input voltage. and output voltage on the same graph. 4. You should explain the characteristics of amplifier.
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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KVL and KCL
KVL stands for Kirchhoff voltage law. KVL states that the total voltage drops around the loop in any closed electric circuit is equal to the sum of total voltage drop in the same closed loop.
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Transcribed Image Text:Q3: For the circuit shown in Figure 2, find the following:
1. Describe the function of the circuit in terms of simple of semiconductor behavior.
2. Evaluate the output voltage Vo, assuming vs is 10 Sine (200t) mV, Re1 =100 N,
and Re2 =900 N. The bypass capacitor (Ce) is in parallel with Re2.
3. Simulate the circuit and verify your answers; you should show the input voltage.
and output voltage on the same graph.
4. You should explain the characteristics of amplifier.
You should critically evaluate the performance of the circuit and suggesting appropriate applications.
+15 V
B=100
Rc
R10 kQ
1 k2
VBE =0.7 V
R,
500 2
RL
REI
-2 kΩ
Vin R2
I5 kQ
Figure 2: Electronic Circuit for Q3.
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