For the circuit in Figure 3, the transistor parameters are ß = 120, VBE (on) = 0.7 V, and VA = 50 V. Let R7H = 0.1(1 + B)Rg. %3D (a) Design a bias-stable circuit such that Igo = 1.5 mA (b) Using the results of part (a), find the small-signal mid-band voltage gain (c) Determine the output resistance R. (d) What is the lower 3 dB corner frequency?
For the circuit in Figure 3, the transistor parameters are ß = 120, VBE (on) = 0.7 V, and VA = 50 V. Let R7H = 0.1(1 + B)Rg. %3D (a) Design a bias-stable circuit such that Igo = 1.5 mA (b) Using the results of part (a), find the small-signal mid-band voltage gain (c) Determine the output resistance R. (d) What is the lower 3 dB corner frequency?
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:3. For the circuit in Figure 3, the transistor parameters are B =
120, VBE (on) =
0.7 V, and VA = 50 V. Let RTH = 0.1(1 + B)RE.
(a) Design a bias-stable circuit such that Igo
= 1.5 mA
(b) Using the results of part (a), find the small-signal mid-band voltage gain
(c) Determine the output resistance R.
(d) What is the lower 3 dB corner frequency?
Vcc = 12 V
R1
CCI → 00
Cc2 = 2 µF
RE =
4 k2
RL =D
4 k2
Figure 3
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ww
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