Got it backwards @ 2:10 "goes from zero to infinity, from right to left". Probably just misspoke, because the graphics show it correctly. Thank you for such an awesome resource!
Good video. I like the rules of thumb you present; it took me a bit of time to distill those on my own from other videos and material I read on Smith Charts. I should have found this video sooner. One slight misstatement at 12:13 in the video you say resistance goes from 0 to infinity from right to left. That should be from left to right. Also, transmission lines will follow circles of constant VSWR, right now they are following circles of constant conductance. (I posted that same comment on rfmentor).
@8:45 Could you explain how this is? At very high frequencies lead inductance and skin effect become noticeable. There is still parasitic reactance associated with resistors.
Nice software ,.its nice.i just add or to suggest whether it could be used with vna connected.or are you plsnning to code anorher software for vna that it can shows these calculated parameter on the screen of vna rarher entering the value in this software.two alternate i suggest with request (if its not incioerated in this software,as i have not gone through deep coinecting the vna.
@2:11 "just like a Cartesian plot, it goes from 0 to infinity from right to left" however you drew an arrow from left to right. A short being on the left, and an open being on the right, I believe the arrow you drew is correct and you simply misspoke.
The Smith chart program reminds me of the old EEZmatch program I got from Les at Besser Assoc a very long time ago. I loved that program, but it won't work anymore, of course. Eagleware also had that nifty WinSmith 2.0 but it will not work on Win7/10 either. Anyway, nice presentation!
When you create a matching network with transmission lines, the line length is displayed in the table of components for the currently active frequency. Line length is for an air dielectric.
wow when dealing with solar-cell power AC inverters it is a challenge to for a good Power Factor of 1. I wonder if the Smith chart could show power factor? 😎 Thanks.
Why you left while frequency on 550 saying as it's difficult to find matching circuit.if this would be the real case ,we would have to find the matching Circuit
If you want to account for real component parasitics you will need to transfer your basic design into an RF simulator, add the parasitic information and then optimize the design from there.
Wow, this is a very useful software for learning and it's also free!! We need more people like these.. Thank You.
Got it backwards @ 2:10 "goes from zero to infinity, from right to left". Probably just misspoke, because the graphics show it correctly. Thank you for such an awesome resource!
Not the doctor nor the whole internet helped as your software did and of course your simple rules
Thank you sir
Good video. I like the rules of thumb you present; it took me a bit of time to distill those on my own from other videos and material I read on Smith Charts. I should have found this video sooner. One slight misstatement at 12:13 in the video you say resistance goes from 0 to infinity from right to left. That should be from left to right. Also, transmission lines will follow circles of constant VSWR, right now they are following circles of constant conductance. (I posted that same comment on rfmentor).
very smooth simple and useful software thank you!!! subscribed
On repeat, like a good record. Thank you.
This software is absolutely beautiful. Great job and great explanation. Oh. And thanks.
Outstanding! Thank you for this.
@8:45 Could you explain how this is? At very high frequencies lead inductance and skin effect become noticeable. There is still parasitic reactance associated with resistors.
Nice software ,.its nice.i just add or to suggest whether it could be used with vna connected.or are you plsnning to code anorher software for vna that it can shows these calculated parameter on the screen of vna rarher entering the value in this software.two alternate i suggest with request (if its not incioerated in this software,as i have not gone through deep coinecting the vna.
where can i download this software?
Amazing software..... thank you
@2:11 "just like a Cartesian plot, it goes from 0 to infinity from right to left" however you drew an arrow from left to right. A short being on the left, and an open being on the right, I believe the arrow you drew is correct and you simply misspoke.
The Smith chart program reminds me of the old EEZmatch program I got from Les at Besser Assoc a very long time ago. I loved that program, but it won't work anymore, of course. Eagleware also had that nifty WinSmith 2.0 but it will not work on Win7/10 either.
Anyway, nice presentation!
Thank you for the nice GUI. Could you explain how to load match (without capacitor and inductor) using the Smith chart?
You would use the transmission line elements instead. Maybe I'll have to make another video?
name of software??
Can I calculate physical length for transmission line or stub line in this software?
When you create a matching network with transmission lines, the line length is displayed in the table of components for the currently active frequency. Line length is for an air dielectric.
wow when dealing with solar-cell power AC inverters it is a challenge to for a good Power Factor of 1. I wonder if the Smith chart could show power factor? 😎 Thanks.
2:58 "shunt components move along the green curves..." Could you please let me know where the green curve is?
Ok, I got it by continuing watching. It is a very helpful video.
Why you left while frequency on 550 saying as it's difficult to find matching circuit.if this would be the real case ,we would have to find the matching Circuit
for a real discrete passive components, how to predict the movement?
If you want to account for real component parasitics you will need to transfer your basic design into an RF simulator, add the parasitic information and then optimize the design from there.
I would like to ask one question, if matching cannot exactly at 50 ohm -is it better to put in inductive region or capacitive region in terms of heat
You know, this may have inspired me to become attracted to manual antenna tuners.
Is this the guy from the old Khan Academy vids???
overall not a very good explanation, mainly lacking the visuals
Always "ACCESS DENIED"!!!!!!!!!!!!!!!!!??????????????????