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Unformatted text preview: ECE329 Spring 2009 Homework 13 — Solution April 30, 2009 Due: Tuesday, April 28, 2009 1. Let us analyze the following transmission line circuit where the propagation velocity is v p = 2 3 c = 2 × 10 8 m / s , the characteristic impedance is Z o = 50Ω , and the length of the transmission line is l . In addition, the current source frequency is ω = π × 10 8 rad / s. ECE 329 Homework 13 Due date: see below 1. Due date: Tue, Apr 28, 2009, 5PM: The solution of the following problem can be found in our web site — see solution handout for Exam 3, Fall 08. We ask you to first attempt the problem without looking at the solution. After your initial work you are allowed to compare your results with the posted solution and making any adjustments that you like before handing in the assignment by 5 PM on Tue. Consider a transmission line segment of propagation velocity v p = 2 3 c = 2 × 10 8 m/s, characteristic impedance Z o = 50 Ω , and length l . As shown in figure (a) below, the segment is connected in parallel with a 50 Ω resistor and an ideal current source i ( t ) = Re { Ie jωt } , where I = 2 ∠ A is the source current phasor and ω = π × 10 8 rad/s; figure (b) depicts an equivalent circuit in terms of input impedance of the transmission line at d = l , namely Z ( l ) ≡ V ( l ) I ( l ) ....
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This note was uploaded on 09/16/2011 for the course ECE 329 taught by Professor Kim during the Fall '08 term at University of Illinois, Urbana Champaign.
 Fall '08
 Kim
 Electromagnet

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