For the design problems in Figure (a) and Figure (b), choose any resistor values within the range of 1 kQ to 12 kN and use as fewest components as possible. 1. Referring to Figure (a), design Circuit A such that Vy = 0.8 Vx, where Vx and Vy are the input and output voltages respectively. 2. Referring to Figure (b), design Circuit B such that Vz = 0.25 Vy, where Vy and Vz are the input and output voltages respectively. 3. Cascade the designed Circuit A in series with the designed Circuit B as shown in Figure (c) and then, determine the output voltage, Vz in terms of the input voltage, Vx.

For the design problems in Figure (a) and Figure (b), choose any resistor values within the range of 1 kQ to 12 kN and use as fewest components as possible. 1. Referring to Figure (a), design Circuit A such that Vy = 0.8 Vx, where Vx and Vy are the input and output voltages respectively. 2. Referring to Figure (b), design Circuit B such that Vz = 0.25 Vy, where Vy and Vz are the input and output voltages respectively. 3. Cascade the designed Circuit A in series with the designed Circuit B as shown in Figure (c) and then, determine the output voltage, Vz in terms of the input voltage, Vx.

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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Question

For the design problems in Figure (a) and Figure (b), choose any resistor values within the
range of 1 k2 to 12 k2 and use as fewest components as possible.
1. Referring to Figure (a), design Circuit A such that Vy = 0.8 Vx, where Vx and Vy are
the input and output voltages respectively.
2. Referring to Figure (b), design Circuit B such that Vz = 0.25 Vy, where Vy and Vz are
the input and output voltages respectively.
3. Cascade the designed Circuit A in series with the designed Circuit B as shown in
Figure (c) and then, determine the output voltage, Vz in terms of the input voltage,
Vx.
4. Is Vz = 0.25x0.8×VX? Why? Explain your reasoning in detail.
5. If you answer 'No' in Part 4, redesign Circuit A and Circuit B such that Vy = 0.8 Vx,
Vz = 0.25 Vy, and Vz = 0.25x0.8×V× using any resistor values within the range of
100 2 to 400 kN.
Circuit A
Circuit B
(b)
Circuit A Vy
Circuit B
(c)

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