Question 2 Answer the following questions about a common emitter amplifier. Vee (a) Draw the circuit diagram of a common emitter amplifier using an n-p-n transistor. In +10V, R₁ = 20kn, R₂ = 3.6kn, R = 1.2K, R = 5000, R 1000, RL 30kn, C=100μF, C=10μF, t = 10μF, v=0.01sinot, and B the circuit, 100. = (b) Calculate the DC bias values and AC emitter resistance, re (c) Draw the Box Model and determine all the amplifier parameters including input resistance R, output resistance Ro, and voltage gain A. (d) Let vs = 0.01 Vp (sine wave with a peak amplitude of 0.01 V). What is the AC peak voltage seen at the load resistor, R₁? (e) If you want the circuit to produce a voltage gain A of -100, can you change the value of Rg to achieve?
Question 2 Answer the following questions about a common emitter amplifier. Vee (a) Draw the circuit diagram of a common emitter amplifier using an n-p-n transistor. In +10V, R₁ = 20kn, R₂ = 3.6kn, R = 1.2K, R = 5000, R 1000, RL 30kn, C=100μF, C=10μF, t = 10μF, v=0.01sinot, and B the circuit, 100. = (b) Calculate the DC bias values and AC emitter resistance, re (c) Draw the Box Model and determine all the amplifier parameters including input resistance R, output resistance Ro, and voltage gain A. (d) Let vs = 0.01 Vp (sine wave with a peak amplitude of 0.01 V). What is the AC peak voltage seen at the load resistor, R₁? (e) If you want the circuit to produce a voltage gain A of -100, can you change the value of Rg to achieve?
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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help to solve this
![Question 2
Answer the following questions about a common emitter amplifier.
Vee
(a) Draw the circuit diagram of a common emitter amplifier using an n-p-n transistor. In
+10V, R₁ = 20kn, R₂ = 3.6kn, R = 1.2K, R = 5000, R
1000, RL 30kn, C=100μF, C=10μF, t = 10μF, v=0.01sinot, and B
the circuit,
100.
=
(b) Calculate the DC bias values and AC emitter resistance, re
(c) Draw the Box Model and determine all the amplifier parameters including input
resistance R, output resistance Ro, and voltage gain A.
(d) Let vs = 0.01 Vp (sine wave with a peak amplitude of 0.01 V). What is the AC peak
voltage seen at the load resistor, R₁?
(e) If you want the circuit to produce a voltage gain A of -100, can you change the value
of Rg to achieve?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F03e3cc09-2468-4890-a995-1bc5bc4999fb%2F56e1c2f1-492d-4fa3-a1e5-1e32c9213ba5%2Fred77k_processed.png&w=3840&q=75)
Transcribed Image Text:Question 2
Answer the following questions about a common emitter amplifier.
Vee
(a) Draw the circuit diagram of a common emitter amplifier using an n-p-n transistor. In
+10V, R₁ = 20kn, R₂ = 3.6kn, R = 1.2K, R = 5000, R
1000, RL 30kn, C=100μF, C=10μF, t = 10μF, v=0.01sinot, and B
the circuit,
100.
=
(b) Calculate the DC bias values and AC emitter resistance, re
(c) Draw the Box Model and determine all the amplifier parameters including input
resistance R, output resistance Ro, and voltage gain A.
(d) Let vs = 0.01 Vp (sine wave with a peak amplitude of 0.01 V). What is the AC peak
voltage seen at the load resistor, R₁?
(e) If you want the circuit to produce a voltage gain A of -100, can you change the value
of Rg to achieve?
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