I just come across this awesome tutorial, great video, thumbs up. That's true, we cannot measure the characteristic impedance with an OhmMeter, but we can measure the capacitance by unit length C' of a piece of transmission line and its inductance per unit length L' and use the formula Z°=SQRT(L'/C').
hi dear can we calculate the absorbed power by absorber from only the reflection coefficient? for example calculate the absorbed power by absorber when the reflection coefficient is -20dB
Can you please comment on what will happen, if I use the transmission one and feed in a square waveform? On the other side of the transmission line, it is just a pure capacitor.
I have a question In the example that id focussed on the calculation of the parameters (wavelength, frequency, phase constant) (time in the video: 13m:06 sec), why only forward wave is considered?
Thank you very much. Interesting to see how this 45 min refresher helped me bring out the memory I learned 30 years ago....
An excellent covering of transmission line theory. Clear and concise - keep up the good work.
I just come across this awesome tutorial, great video, thumbs up. That's true, we cannot measure the characteristic impedance with an OhmMeter, but we can measure the capacitance by unit length C' of a piece of transmission line and its inductance per unit length L' and use the formula Z°=SQRT(L'/C').
There's an error at 44:01. The reflection coefficient at the load is 0.34 at 140 degrees and at the input is 0.34 at -75 degrees.
I would actually be very interested in the recommended literature :-)
What if it's not rational angles of pi and the period only exists in certain circumstances?
thank you sir, brilliant, cheers
Thank you so much for this nutshell course!
hi dear
can we calculate the absorbed power by absorber from only the reflection coefficient?
for example calculate the absorbed power by absorber when the reflection coefficient is -20dB
Can you please comment on what will happen, if I use the transmission one and feed in a square waveform? On the other side of the transmission line, it is just a pure capacitor.
I have a question
In the example that id focussed on the calculation of the parameters (wavelength, frequency, phase constant) (time in the video: 13m:06 sec), why only forward wave is considered?
Right, that and why you don't focus on alpha in the gamma equation.
EXCELLENT.
Espetacular...
Awesome lectures! Thank you very much!
I'm not clear on why you assume that your gamma only represents beta, and not alpha. Any context on why you just assume that?
Assumes a lossless line
Thank you so much it helped a lot DANKE
thanks
WHERE ARE NOTES ??
No idea
but i need them
asap
Ausgezeichnet!
45 min is not a nutshell haha
I was thinking the same!
this would take a whole semester to learn, not including the pre requisites
so yeah, it is a nutshell
Keep your tongue off your palate when you talk to reduce banana mouth.
Sorry I couldn't listen to your lesson.