really i prefer the way you explain here this deduction compared to the one in pozar book, using the scattering matrix definition and not just giving the voltage sources in ports 2 and 3 random values.
Hello! It is a really great video thanks for sharing but I want to ask you about S23 and S32 these values are equal to each other and its value is 0. I saw this in another channel and I got confused about it. If these are equal with by mines only? 14:43
Sir I have a doubt, if signal is travelling from port 1 to port 2,port 3 and it is -3db . If signal travel from port 2 and 3 then it should add the signal and it should be 0 db
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I really have to thank you for this video. This video really does a great job explaining carefully each step.
Amazing explanation and you could tell you truly were passionate about the material. Thank you!
Thank you for this vedio this vedio was very helpful for me.From Egypt
Thank you from Canada!🇨🇦
really i prefer the way you explain here this deduction compared to the one in pozar book, using the scattering matrix definition and not just giving the voltage sources in ports 2 and 3 random values.
Thank you so much for all of your contents! It's water clear now :D!
Merci for your video from France
Hello! It is a really great video thanks for sharing but I want to ask you about S23 and S32 these values are equal to each other and its value is 0. I saw this in another channel and I got confused about it. If these are equal with by mines only? 14:43
thank you for your video. from korea
Sir I have a doubt,
if signal is travelling from port 1 to port 2,port 3 and it is -3db . If signal travel from port 2 and 3 then it should add the signal and it should be 0 db
For V3-, shouldn't it be equal to V2+ S32, not V2+ S23? In either even or odd mode, when you do out the s matrix, it's impossible to get S23.
Nice.
Engaging comment.