EBK PRINCIPLES OF ELECTRIC CIRCUITS
10th Edition
ISBN: 9780134879499
Author: Buchla
Publisher: YUZU
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Textbook Question
Chapter 2, Problem 9TFQ
A volt can be defined in terms of energy per charge.
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Prelab Information
Laboratory Preliminary Discussion
Second-order RLC Circuit Analysis
The second-order RLC circuit shown in figure 1 below represents all voltages and impedances as functions of the complex
variable, s. Note, of course, that the impedances associated with R, RL, and Rs are constant independent of frequency, so the 's'
notation is omitted. Again, one of the advantages of s-domain analysis is that we can apply all of the circuit analysis techniques
learned for AC and DC circuits.
ZI(s)
Zc(s)
Rs
w
RL
ww
+
+
VRS(S)
VRL(S)
VL(s)
Vc(s)
VR(S)
R
Vs(s)
Figure 1: A second-order RLC circuit represented in the s-domain.
To generate the s-domain expression for the output voltage, Vout(s) = VR(S), for the circuit shown in figure 1, we can apply voltage
division in the s-domain as shown in equation 1 below. For equation 1 we define the following circuit parameters.
RT=RS + RL + R where: R₁ = Total series resistance
Rs Signal generator output resistance (fixed)
Inductor internal…
5.137
The BJT in the circuit of Fig. 5.137 has ẞ = 100.
(a) Find the de collector current and the de
voltage at the collector.
(b) Replacing the transistor by its T model,
draw the small-signal equivalent circuit of the
amplifier. Analyze the resulting circuit to
determine the voltage gain vo/vi.
V
ww
0.3 mA
300 ΚΩ
=
250 Ω
Va
30 ΚΩ
www||
Fig. 5.137
Chapter 2 Solutions
EBK PRINCIPLES OF ELECTRIC CIRCUITS
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