If you start measuring 'L' (the open stub length) from the OC point, which is considered the 'load', you'd rotate towards the A point, so towards the 'generator' - whereas if you start measuring 'L' from the A point, which is considered the 'generator' you'd move towards the OC point, so towards the 'load'.
First of all I want to thank you on the series of videos you made on smith-chart it has been very helpful but i am at a cross-road between what you teach and what my lecturer is teaching. From my lecturer's perspective when determining the length of a single stub with a parallel open network, he rotates towards the generator while in your case you rotate towards the load. I am confused in which direction should i lean, yours or his. I look forward to hearing from you soonest
To anyone who in the future is in this same situation - follow this tutorial and not your lecturer. I thought I was going mad trying to make a matchign circuit in this way following what my lecturer said and no matter what I tried I could not get the right results. Followed this tutorial and it worked straight away in my simulations using AWR microwave office
Hi, should the first part where you calculate 'd' be using impedance Z to rotate TWG instead of admittance Y? because the length 'd' is in series with the load? the point when impedance Z transforms to admittance Y should happen after you have determined length 'd', such that you begin to calculate the length of the parallel stub. I am confused.
If you start measuring 'L' (the open stub length) from the OC point, which is considered the 'load', you'd rotate towards the A point, so towards the 'generator' - whereas if you start measuring 'L' from the A point, which is considered the 'generator' you'd move towards the OC point, so towards the 'load'.
Little mistake @ 4:42: It is 0.5-0.16, not 0.5-0.14.
What a great job you have done ! Many thanks for your efforts.
How did you know where to make the point for Ya?
The position at L as said as 0.14, should it not be ~0.16, on my smith chart 0.14 is near -j1.2 ? and L is at -j1.6
yes you're right at L should it be 0.162
First of all I want to thank you on the series of videos you made on smith-chart it has been very helpful but i am at a cross-road between what you teach and what my lecturer is teaching.
From my lecturer's perspective when determining the length of a single stub with a parallel open network, he rotates towards the generator while in your case you rotate towards the load.
I am confused in which direction should i lean, yours or his.
I look forward to hearing from you soonest
merci
6 years later.. still nothing wth
To anyone who in the future is in this same situation - follow this tutorial and not your lecturer. I thought I was going mad trying to make a matchign circuit in this way following what my lecturer said and no matter what I tried I could not get the right results. Followed this tutorial and it worked straight away in my simulations using AWR microwave office
Hi, should the first part where you calculate 'd' be using impedance Z to rotate TWG instead of admittance Y? because the length 'd' is in series with the load? the point when impedance Z transforms to admittance Y should happen after you have determined length 'd', such that you begin to calculate the length of the parallel stub. I am confused.
i ove u
Same question. Do you have answer? :)
Thanks for this excellent explanation.
Thanks a lot that was amazing
Thanks a lot of, I needed it for my homework!!
I guess I am kinda randomly asking but does anyone know of a good place to watch newly released movies online ?
Thanks a lot for your explanation!!!!!
thank you very much
very good! thanks
thanks
Great videos, however I believe that when in admittance the bottom half is considered positive and top negative. Therefore, it would be +j0.16
Lu students be like :0