b) Draw the block diagram for the complex impedance system. [Hint: In our textbook, the block diagram of the RC circuit is drawn after studying the individual elements of the resistor and the capacitor as ww (a) As Eis En Eis) FIGURE 0.1. (a) RC circuit; (b) block diagram representing Equation (2-6); (c) block diagram representing Equation (2–7); (d) block diagram of the RC circuit. (Fig. 2-12 of Ogata, 5th Ed.) You may follow the similar steps for the complex impedance system as writing the RC circuit with complex impedances yields the same circuit ei with Z1 = R and Z2 = ; c) Find the transfer function E, (s) /E; (s). [Hint: Either use the block diagram you found in part (b) or use directly the Kirchhoffs laws.] d) Show that the transfer function of the system can be written in the form R1 + R2) s+ ) E:(). E. ( R28 +

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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2-) Consider the electrical system below:
R1
ww
R2
This circuit can be represented by using the complex impedances as shown in the Figure below:
ww
Transcribed Image Text:2-) Consider the electrical system below: R1 ww R2 This circuit can be represented by using the complex impedances as shown in the Figure below: ww
b) Draw the block diagram for the complex impedance system. [Hint: In our textbook,
the block diagram of the RC circuit is drawn after studying the individual elements of the resistor
and the capacitor as
ww
(a)
As
Eis
En
Eis)
FIGURE 0.1. (a) RC circuit; (b) block diagram representing Equation (2-6); (c)
block diagram representing Equation (2–7); (d) block diagram of the RC circuit.
(Fig. 2-12 of Ogata, 5th Ed.)
You may follow the similar steps for the complex impedance system as writing the RC circuit
with complex impedances yields the same circuit
ei
with Z1 = R and Z2 = ;
c) Find the transfer function E, (s) /E; (s). [Hint: Either use the block diagram you found
in part (b) or use directly the Kirchhoffs laws.]
d) Show that the transfer function of the system can be written in the form
(R + R2) s+
) E, (2).
E.(
R2s +
Transcribed Image Text:b) Draw the block diagram for the complex impedance system. [Hint: In our textbook, the block diagram of the RC circuit is drawn after studying the individual elements of the resistor and the capacitor as ww (a) As Eis En Eis) FIGURE 0.1. (a) RC circuit; (b) block diagram representing Equation (2-6); (c) block diagram representing Equation (2–7); (d) block diagram of the RC circuit. (Fig. 2-12 of Ogata, 5th Ed.) You may follow the similar steps for the complex impedance system as writing the RC circuit with complex impedances yields the same circuit ei with Z1 = R and Z2 = ; c) Find the transfer function E, (s) /E; (s). [Hint: Either use the block diagram you found in part (b) or use directly the Kirchhoffs laws.] d) Show that the transfer function of the system can be written in the form (R + R2) s+ ) E, (2). E.( R2s +
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