P6.8. Time-domain analysis of a transmission-line system using the bounce-diagram technique. In the system shown in Fig. 6.67, the switch S is closed at t = 0. As- sume V(t) to be a direct voltage of 90 V and draw the voltage and current bounce diagrams. From these bounce diagrams, sketch: (a) the line voltage and line current versus t (up to t = 7.25 μs) at z = 0, z = 1, and z = 1/2; and (b) the line voltage and line current versus z for t = 1.2 μs and t = 3.5 µs. FIGURE 6.67 For Problem P6.8. 90 Ω V₂(t) t=0 z=0 Ζο = 60 Ω T = 1 μs 180 Ω z=1 www
P6.8. Time-domain analysis of a transmission-line system using the bounce-diagram technique. In the system shown in Fig. 6.67, the switch S is closed at t = 0. As- sume V(t) to be a direct voltage of 90 V and draw the voltage and current bounce diagrams. From these bounce diagrams, sketch: (a) the line voltage and line current versus t (up to t = 7.25 μs) at z = 0, z = 1, and z = 1/2; and (b) the line voltage and line current versus z for t = 1.2 μs and t = 3.5 µs. FIGURE 6.67 For Problem P6.8. 90 Ω V₂(t) t=0 z=0 Ζο = 60 Ω T = 1 μs 180 Ω z=1 www
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Question
![P6.8. Time-domain analysis of a transmission-line system using the bounce-diagram
technique. In the system shown in Fig. 6.67, the switch S is closed at t = 0. As-
sume V(t) to be a direct voltage of 90 V and draw the voltage and current
bounce diagrams. From these bounce diagrams, sketch: (a) the line voltage and
line current versus t (up to t = 7.25 μs) at z = 0, z = 1, and z = 1/2; and (b) the
line voltage and line current versus z for t = 1.2 μs and t = 3.5 µs.
FIGURE 6.67
For Problem P6.8.
90 Ω
V₂(t)
t=0
z=0
Ζο = 60 Ω
T = 1 μs
180 Ω
z=1
www](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe55cfba9-7bce-45cb-a868-b9c474dd1b77%2F97447802-1ff9-442f-8947-8a9f4191ec8e%2Fd89fd9j_processed.jpeg&w=3840&q=75)
Transcribed Image Text:P6.8. Time-domain analysis of a transmission-line system using the bounce-diagram
technique. In the system shown in Fig. 6.67, the switch S is closed at t = 0. As-
sume V(t) to be a direct voltage of 90 V and draw the voltage and current
bounce diagrams. From these bounce diagrams, sketch: (a) the line voltage and
line current versus t (up to t = 7.25 μs) at z = 0, z = 1, and z = 1/2; and (b) the
line voltage and line current versus z for t = 1.2 μs and t = 3.5 µs.
FIGURE 6.67
For Problem P6.8.
90 Ω
V₂(t)
t=0
z=0
Ζο = 60 Ω
T = 1 μs
180 Ω
z=1
www
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