Hello.
This question is taken from the course 'Microwaves and transmission lines'.
It was said there that Vc(t=∞) = 2Vin, and that is since at t=∞ the capacitor behaves as a cut-off, and therefore the reflection coefficient at the load (load=capacitor) equals 1, which means that V(LOAD) = (V+) + (V-) = 2Vin.
It doesnt get along with what we learned in earlier courses which was that Vc(t=∞) = Vin.
Could you please explain that?
Thank you.
This question is taken from the course 'Microwaves and transmission lines'.
It was said there that Vc(t=∞) = 2Vin, and that is since at t=∞ the capacitor behaves as a cut-off, and therefore the reflection coefficient at the load (load=capacitor) equals 1, which means that V(LOAD) = (V+) + (V-) = 2Vin.
It doesnt get along with what we learned in earlier courses which was that Vc(t=∞) = Vin.
Could you please explain that?
Thank you.