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Finally got this topic. I am really satisfied here, My professor has started this topic but he didn't explained these things, this lecture has provided the great information regarding why should we learn transmission line theory.🙏🏻☺️☺️
Discuss low loss radio frequency and UHF transmission lines. Also deduce resistance and reactance of the terminating impedance of a UHF transmission line.
Sir if there is skin depth concept , that electic field reduces by a factor,inside a conductor..then why also do we say that electric field is zero inside a conductor...Do the answer is that former is electrodynamics and latter is electrostatics.
@19:42 there is a mistake in the lecture. Since freq. f is constant, as phase velocity increases the wavelength should increase. f = Up/(wavelength). If Up increases and wavelength decreases then frequency f will increase which is not correct.
Awesome Lecture series with a good explanation of fundamental concepts in a very intuitive way. Less mathematical derivation and a more intuitive approach helps beginners like me to understand the concepts easily.
Prof. Roy, you explained it so well and systematically that even though I did not need to watch this, I watched the complete video. Keep up the good work!
You are required to match a load with an impedance of ZL = 70 - j80ꭥ at a centre frequency of 450 MHz to a 50ꭥ transmission line with phase velocity v =2.1 x 10^8, connected to a generator with a 50 ꭥ internal impedance. The choice you have is to use either single or double stub matching. Determine the matching technique which gives the greatest VSWR <2 bandwidth and provide quantitative information to support your answer. sir, please solve this problem
