Recent content by dimpep
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Meaning of the FFT of a Poynting Vector integral, reflection coefficient
A simple change in either x on y direction (or both) I took an idea and for sure I have to look at Markuvitz book!- dimpep
- Post #9
- Forum: Electrical Engineering
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Meaning of the FFT of a Poynting Vector integral, reflection coefficient
Thank you for the answer. I'm trying to calculate the reflection and transmission coefficient in a rectangular waveguide when somewhere in the waveguide there is a discontinuity along z-axis. Waveguide is excited with a specific TE or TM mode and I was thinking how can I use the power at z=0 and...- dimpep
- Post #7
- Forum: Electrical Engineering
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Meaning of the FFT of a Poynting Vector integral, reflection coefficient
What If I look the system as a two-port network?- dimpep
- Post #5
- Forum: Electrical Engineering
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Meaning of the FFT of a Poynting Vector integral, reflection coefficient
It is not ideal as I would have also reflections from an obstacle. My question is how Pout(w)/Pin(w) could be related with reflection coefficient?- dimpep
- Post #3
- Forum: Electrical Engineering
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Meaning of the FFT of a Poynting Vector integral, reflection coefficient
Hello, For calculating the mean power at a specific cross section of a waveguide, one can calculate the mean value of the temporal function of Poynting Vector, P(t), where P(t) is the ExHy-EyHx. Note that I am not talking about phasors or a sinusoidal state. If I integrate over the waveguide...- dimpep
- Thread
- Coefficient Fft Integral Poynting vector Reflection Reflection coefficient Vector
- Replies: 8
- Forum: Electrical Engineering