I have never used one of these because I just could not understand them. An expression comes to mind, "When you're ready to learn, a teacher appears." It took me over 60 years to get ready and it was worth the wait. I'm looking forward to digesting the rest of your well-versed series. Outstanding. AD6AE
And this is THE ONE video that brings everything together, been studying this for a month or so but only now start to understand the matter. Thank you very much! PA1RAM.
I have been learning a lot from your videos. Working as an engineer in semiconductor org sometimes we forget the theory since we know practical stuff. But your videos are a bridge between the engineering theories and practical knowledge. Thanks a lot sir :) Please keep posting more and more videos.
Best explanation of the Smith Chart I've ever been exposed to. Just the right amount of explanation. Not too much so that it's confusing. Not too little so that it lacks meat.
Dynamite presentation on SCT (Smith Charting Tricks)! Useful, terse, and crisply structured. Had even two people just like you been my colleagues at my first employer (3M Company) I would not have resigned in 1972 and gone off to medical school. But I did and the rest is history. Thanks for putting out this video. de NK7B
And this is why i like this channel. I like how you are covering the electronics course bit by bit for students with “hands on”technique. I like very descriptive and precise videos of this channel.
Very nice demonstration Alan. Half a year ago I gave a lesson on smith charts and network analyzers in my company so I will share your video with my departement. Thank you.
The best lesson on Smith Charts, that I've seen.! That's one subject that I've always found difficult. Impedance matching network design would be a great follow up.
I've just bought a Nano VNA and was wondering how the Smith Chart worked so this was very useful... and being a video, I can watch it several times so that my old brain can absorb the information!
I did this stuff at university 40 years ago, but I have struggled and struggled to get my head back around it. Then I stumbled on this video. Absolutely brilliant!
It pays to have the correct tools for the job ! And the VNA has become accessible to most ! Very interesting, and nicely done ! Appreciate your calm demeanor ! You don't know how many of these I've walked by at a Hamfest, and figured they were merely toss aways from a Cell site ! Now I will pay more attention ! Too, I'm guessing these particular Duplexers are Low power ? And since they are essentially passive, does it matter which port is designated TX or RX ? As long as you understand how you choose to designate them ? Meaning how you assign the Low or High ports ?
Thank you for the explanation of Smith Charts. I’ve seen them before, but never knew how to use them, or how the worked. Your video offers a clear explanation for even a beginner like me.
FANTASTIC! Best explanation I saw around, very pedagogic. Eager to see followup videos since I would like to characterize/tune Sub-GHz (800-900Mhz) antennas myself with SDR :)
I’m excited about what is coming next. How to use the Smith chart to solve complex impedance problems and design matching networks. Thanks so much.
3 года назад+2
Very good practical demonstration of Smith chart !! I can " really see " what are effects of each component of complex impedance and how they are interact one with other. Thank you for sharing and construct this practical "geared elements demonstration circuit" - if it could be thereby named. :) Thanks a lot !
I am so excited about this!!!! Your explanations are the BEST. Alan, if you were stranded on Gilligan's Island - they would have been saved before the second episode aired.
Great video: Simple to understand, I had to learn all that complicated mathematics and explanations in Electrical Engineering books written in a very hard engineering jarjon when I was studying, this VIDEO explains it so easy to understand. Smith Chart makes it easy to use by Engineering Microwave Technicians or a Hobbyist.
I took RF and wireless communication lectures during my EE studies in university, but nowadays we don‘t learn this anymore. I still always wanted to learn this properly, so thank you for this video! :)
- Eth that's interesting! I'm in Germany, here I didn't stumble over Smith Charts anywhere in my daily work, but their use in classic analog circuitry is still there, at least for manually solving. But were you ever required to actually use it in your daily work after the interviews?
A++++! As an EE student, I haven't taken any classes that discuss smith charts yet, but Circuits 2 was just enough background that all this makes sense! Very well done! Please make more smith chart videos!! 73, KC9DZT
This is the BEST demo explaining a Smith chart I have ever seen. Everything is easy when you know how. Best 73 es Happy New Year de KT1R Lou in (figid) Maine
Can't thank you enough, Alan. This video is a perfect complement to all the other info out there. Seeing the immediate effects on the VNA is invaluable. Appreciate your efforts in putting together the L/C network. A very nice introduction. Would be interested to see an "L" or pi network solution to a complex load like an antenna on the VNA, if you would be interested in doing something like that. WK2W
Great video! Looking forward to your videos about SWR! Tried to take a peek into RF world but the maths are too hard to be visualised, your channel helps a lot, thanks!
Thanks again, Alan. Another really well made informative video. I don't ever use anything radio based, and I think I'm glad of that after watching videos like this. I do audio (music equipment - pedals, synths), and a lot of your videos have a good use in this community. I refer people to your videos a lot. Happy new Year!
Oh my god that is awesome. I just completed a EM waves course at school where we learned transmission line theory. It is very cool to see this on a VNA and your setup to model this.
Great demonstration! Best wishes for 2018 and thanks for all the video's you've created over the years. I have learned so much from you, you have no idea! You have a gift for clarifying subjects that have always seemed complicated.
Thanks for taking the time to make the excellent videos that you do. You show theoretical principles in a practical real world light. I guess that's what I'd like to see with future Smith chart videos, is practical examples of matching problems. I'm sure you could come up with some real world examples I wouldn't dream of. Happy New Year!
Such a fantastic demonstration. I have never actually used a Smith chart since I did my 3rd level RF Engineering course. I’ve decided to challenge myself and put the theory to good use and try to compare it with some experiments done using a series of L matching combinations to Z match an antenna at different frequencies. I don’t have access to an analyser so I guess some ingenuity might be called for ....I need to build a decent directional coupler so I guess it’s a case of a big learning curve coming up. Thanks again.
Do you have a Guide to "Which NanoVNA do I need" question? ham wanting to examine and Tweak my antennas. Thanks. All I have now is MFJ 259B. FA-VA5 too complex for this old Ham.
Excellent video made essential viewing by the cheapness of the NanoVNA. Reminds me of being at college 25 years ago when I programmed a scientific calculator to calculate and plot complex impedances but when the programme ran I just got a spiral graph. Anyway, I never figured out what was wrong with the programme but never forgot the spiral plot. Well, wasn't I chuffed when I saw that same spiral graph on the NanoVNA making me realise the programme was correct after all Yay. 😁
Many thanks for the great Introduction for the Smith Chart. Looking forward for more videos on its applications like reflection and impedance matching. I guess that it possible to estimate typical loss of signal energy from the chart as well?
This is one of those videos I will have to watch 5-6 times and do a little diagramming to actually wrap my head around lol. Thanks for the awesome video Alan!! Happy new year my friend! 73deN0BPS
Excellent video. Looking forward to explanations of using the smith chart. Not to be pedantic, but the circles in a smith chart are not concentric. They are called "internally touching circles"
Great video. Just one remark around 7:15: you write G=1/R, the R in that formule is _not_ the R you used previously when talking about the impedance, as using that R, the relationship between the two is: G=R/(R^2+X^2). It is also more common to write Y=G+jB , i.e. B is the susceptance and Y the admittance. (maybe that was a typo in your video?)
Nicely demonstrated with practical.still some words are difficult to understand but it would take time till we solve the real problem.i think if we have a homebrew antenna not matched or tuned ,and connected with nano vna and with computer application, we can find coordinated and final value of L and C ,we can match the antenna impedance.two or three real example solving ,teach us this things better
Where did you get the inductor you used for the demonstration? Or did you make it yourself? I like the idea of it being infinitely variable compared to the tapped coils I’ve seen others build and use.
I have never used one of these because I just could not understand them. An expression comes to mind, "When you're ready to learn, a teacher appears." It took me over 60 years to get ready and it was worth the wait. I'm looking forward to digesting the rest of your well-versed series. Outstanding. AD6AE
This is the best explanation of Smith charts I have ever seen. Thanks for sharing.
And this is THE ONE video that brings everything together, been studying this for a month or so but only now start to understand the matter. Thank you very much! PA1RAM.
Thank-you for a level of clarity that can only be achieved by someone who has a deep understanding of the topic. Two thumbs up!
Thanks to this video, I will never forget!
I have been learning a lot from your videos. Working as an engineer in semiconductor org sometimes we forget the theory since we know practical stuff. But your videos are a bridge between the engineering theories and practical knowledge. Thanks a lot sir :) Please keep posting more and more videos.
Thanks! I am still doing them as I find time.
Best explanation of the Smith Chart I've ever been exposed to. Just the right amount of explanation. Not too much so that it's confusing. Not too little so that it lacks meat.
Exactly!
Dynamite presentation on SCT (Smith Charting Tricks)! Useful, terse, and crisply structured. Had even two people just like you been my colleagues at my first employer (3M Company) I would not have resigned in 1972 and gone off to medical school. But I did and the rest is history. Thanks for putting out this video. de NK7B
I've just been thinking I need to learn Smith Charts, and here is one from one of my favorite channels.
And this is why i like this channel.
I like how you are covering the electronics course bit by bit for students with “hands on”technique.
I like very descriptive and precise videos of this channel.
Very nice demonstration Alan. Half a year ago I gave a lesson on smith charts and network analyzers in my company so I will share your video with my departement. Thank you.
The best, clearest explanation of Smith charts I have seen. A bookmarked video for reference this will be (as Yoda would say).
Very helpful refresher. Thank you!
The best lesson on Smith Charts, that I've seen.! That's one subject that I've always found difficult. Impedance matching network design would be a great follow up.
I certainly plan on that....
I've just bought a Nano VNA and was wondering how the Smith Chart worked so this was very useful... and being a video, I can watch it several times so that my old brain can absorb the information!
I did this stuff at university 40 years ago, but I have struggled and struggled to get my head back around it. Then I stumbled on this video. Absolutely brilliant!
Excellent explanation (as usual), Alan - thank you. Hearing it explained always makes it clearer than simply reading about it.
That's the clearest explanation I've seen yet, I liked the demos on the VNA.
It pays to have the correct tools for the job !
And the VNA has become accessible to most !
Very interesting, and nicely done !
Appreciate your calm demeanor !
You don't know how many of these I've walked by at a Hamfest, and figured they were merely toss aways from a Cell site !
Now I will pay more attention !
Too, I'm guessing these particular Duplexers are Low power ?
And since they are essentially passive,
does it matter which port is designated TX or RX ?
As long as you understand how you choose to designate them ?
Meaning how you assign the Low or High ports ?
Yes, these passive filters can often be used for TX/RX as needed.
This is the best explanation of Smith charts and great demonstration. Thank you.
Forget the new year's eve TV marathons...Im watching this one over and over! Happy and Healthy New Year! 73 Tony KD2HYA
Your videos always help me understand a new subject in a short video.
Best explanation of smith charts I've seen well done w2aew
As an introduction to what's going on in a Smith Chart, that is just a bit mind-blowing. How cool is *that*?
Many thanks!
Thank you for the explanation of Smith Charts. I’ve seen them before, but never knew how to use them, or how the worked. Your video offers a clear explanation for even a beginner like me.
Alan... Thank you for this video. I never understood the Smith chart until now. You make it all very clear. Thanks Ron
Clearest smith chart tutorial I have seen by at least an order of magnitude. But I can't plot that on a smith chart . .. yet.
Another great instructional video... Thank you W2AEW and the late and great Phil Smith.
Very informative and interesting. As someone with no formal education in this topic I really enjoyed seeing it for the first time.
FANTASTIC! Best explanation I saw around, very pedagogic. Eager to see followup videos since I would like to characterize/tune Sub-GHz (800-900Mhz) antennas myself with SDR :)
I’m excited about what is coming next. How to use the Smith chart to solve complex impedance problems and design matching networks. Thanks so much.
Very good practical demonstration of Smith chart !! I can " really see " what are effects of each component of complex impedance and how they are interact one with other. Thank you for sharing and construct this practical "geared elements demonstration circuit" - if it could be thereby named. :) Thanks a lot !
Great video. I just received a Peak-Atlas LCR impedance meter. It does the maths for you; but seeing a graphical chart is so much more satisfaction.
I am so excited about this!!!! Your explanations are the BEST.
Alan, if you were stranded on Gilligan's Island - they would have been saved before the second episode aired.
I think the professor could've saved them many times, but he secretly liked being stranded on a deserted island with Maryann and Ginger.
Great video: Simple to understand, I had to learn all that complicated mathematics and explanations in Electrical Engineering books written in a very hard engineering jarjon when I was studying, this VIDEO explains it so easy to understand. Smith Chart makes it easy to use by Engineering Microwave Technicians or a Hobbyist.
Very informative. I look forward to your subsequent videos on matching networks - a real problem for many.
I took RF and wireless communication lectures during my EE studies in university, but nowadays we don‘t learn this anymore. I still always wanted to learn this properly, so thank you for this video! :)
- Eth that's interesting! I'm in Germany, here I didn't stumble over Smith Charts anywhere in my daily work, but their use in classic analog circuitry is still there, at least for manually solving.
But were you ever required to actually use it in your daily work after the interviews?
You're an excellent teacher, and I find this complex behaviour of RF systems very interesting!
Thank you for going over this! I wish I had this a year ago, but now I can point my friends to it before they get to Smith charts.
Thank you so much. This is the best explanation about the Smith chart I have ever seen.
A++++! As an EE student, I haven't taken any classes that discuss smith charts yet, but Circuits 2 was just enough background that all this makes sense! Very well done! Please make more smith chart videos!! 73, KC9DZT
You've found the other ones I've done already, right?
Yes! Since writing that comment, I found them! :) Thank you!
This is the BEST demo explaining a Smith chart I have ever seen. Everything is easy when you know how. Best 73 es Happy New Year de KT1R Lou in (figid) Maine
What a perfect video to end the year !!!
The live demo is very helpful. Thank you!
This is a very welcome video. I look forward to the sequels!
I've got several ideas for sequels...
Awesome explanation Alan! You make the difficult stuff sound so easy WOW. Thank you for your videos and greetings from Poland!
Very good demo and explanation Alan. more on the Smith chart please.
Can't thank you enough, Alan. This video is a perfect complement to all the other info out there. Seeing the immediate effects on the VNA is invaluable. Appreciate your efforts in putting together the L/C network. A very nice introduction. Would be interested to see an "L" or pi network solution to a complex load like an antenna on the VNA, if you would be interested in doing something like that. WK2W
Yes, I certainly plan on showing how to design a matching network using the Smith chart, as well as a few other things... Stay tuned!
Great video! Really liked the Theoretical part combined with the practical demonstration with the VNA Anders/SM0IHR
Great video! Looking forward to your videos about SWR! Tried to take a peek into RF world but the maths are too hard to be visualised, your channel helps a lot, thanks!
You hit it out of the park! First smith chart explanation I fully understood.
Great job... love the juxtaposition of the clipboard & VNA. Your videos are the best!
I saw this and thought black hole..Caught my attention. Anyway I learned something new to end the 2017 year. Happy New Year!
Thanks again, Alan. Another really well made informative video. I don't ever use anything radio based, and I think I'm glad of that after watching videos like this. I do audio (music equipment - pedals, synths), and a lot of your videos have a good use in this community. I refer people to your videos a lot.
Happy new Year!
Thanks a million for this one Alan !!! Cannt wait for the remaining videos in this series !!! Please keep them coming ! 73 de VU3EMX
Oh my god that is awesome. I just completed a EM waves course at school where we learned transmission line theory. It is very cool to see this on a VNA and your setup to model this.
Thank you very much Alan!! You've made things very simple to undersand.
Great demonstration! Best wishes for 2018 and thanks for all the video's you've created over the years. I have learned so much from you, you have no idea! You have a gift for clarifying subjects that have always seemed complicated.
Thanks for taking the time to make the excellent videos that you do. You show theoretical principles in a practical real world light. I guess that's what I'd like to see with future Smith chart videos, is practical examples of matching problems. I'm sure you could come up with some real world examples I wouldn't dream of. Happy New Year!
VERY clear and concrete. Beautiful job. Thanks!
Astounding video! At my job I've been doing SAR testing and rely on Smith chart for calibration.
Such a fantastic demonstration. I have never actually used a Smith chart since I did my 3rd level RF Engineering course. I’ve decided to challenge myself and put the theory to good use and try to compare it with some experiments done using a series of L matching combinations to Z match an antenna at different frequencies. I don’t have access to an analyser so I guess some ingenuity might be called for ....I need to build a decent directional coupler so I guess it’s a case of a big learning curve coming up. Thanks again.
You can do it with a simple resistive bridge, see video: ruclips.net/video/eYN7dhdt1Dw/видео.html
A very clear representations on subject. I'm sure the demo helped a lot beginners on the subject.
Awesome! The best basic workings of a Smith chart i've heard! They always had me confused! Happy New Year! 73 Stuart MM6LZR
This is a jewel of a video. Thank you Sir.
Hi Alan,
WOW! Now I see, said the blind man. Best explanation yet. Happy New Year to you and the family. 73 WB3BJU
Now I get it! Thanks for the very clear but thorough explanation.
Thanks, Alan. And a very happy and prosperous New Year to you and your family.
Very well explained, Thumbs up and keep making excellent educational videos... EI5JS John
As always a brilliant explanation. Ive always wondered what these carts are all about, now I have a much better idea :)
Thank you for great video I will learn a lot more now than have in the past on impedance resonance &XL Xc etc. 🆒👍😃🔬📐📚
Thanks, Alan. I'm glad that I have a Peak Atlas LCR45 for that. Merry Christmas and Happy New Year!
Best, Best, Best Smith Chart visualization
Do you have a Guide to "Which NanoVNA do I need" question? ham wanting to examine and Tweak my antennas. Thanks. All I have now is MFJ 259B. FA-VA5 too complex for this old Ham.
Excellent video made essential viewing by the cheapness of the NanoVNA. Reminds me of being at college 25 years ago when I programmed a scientific calculator to calculate and plot complex impedances but when the programme ran I just got a spiral graph. Anyway, I never figured out what was wrong with the programme but never forgot the spiral plot. Well, wasn't I chuffed when I saw that same spiral graph on the NanoVNA making me realise the programme was correct after all Yay. 😁
You are such a good teacher!
Been waiting for this one! Happy New Year Alan! 73 - Dino KL0S
Great video! Really looking forward to the future RF fundamental topics.
Thanks Alen, much better understanding now. "I think" Dave.
Thanks, looking forward to the follow-up videos on this one!
Very exciting demonstration Alan. I loved it. Thanks for sharing and wish you a very Happy New Year.
Happy New Year ! Thanks for all the great videos.
Always interesting. Many thanks. Can you please make a follow up video on impedance matching using Smith chart with demo on VNA.
Happy New Year.
Yet another great video. Thanks' for sharing knowledge and happey new year and best wishes.
Great Smith chart video series! You are my RF University!😍
Thanks Alan, happy new year!
Good job! A clear and concise description.
Happy New year.. thanks ... while i knew how the chart works, sure is nice to actually "see" it in action persay.
im going to pass electromagnetics because of you!
Love your nick name
@@ahmetyusufsalim thanks!
Many thanks for the great Introduction for the Smith Chart. Looking forward for more videos on its applications like reflection and impedance matching. I guess that it possible to estimate typical loss of signal energy from the chart as well?
This is one of those videos I will have to watch 5-6 times and do a little diagramming to actually wrap my head around lol.
Thanks for the awesome video Alan!! Happy new year my friend! 73deN0BPS
Excellent presentation...thank you.
Excellent video. Looking forward to explanations of using the smith chart.
Not to be pedantic, but the circles in a smith chart are not concentric. They are called "internally touching circles"
Yes, I mis-spoke regarding the description of the tangent circles.
Great video. Just one remark around 7:15: you write G=1/R, the R in that formule is _not_ the R you used previously when talking about the impedance, as using that R, the relationship between the two is: G=R/(R^2+X^2). It is also more common to write Y=G+jB , i.e. B is the susceptance and Y the admittance. (maybe that was a typo in your video?)
You did a wonderful job, as usual.
Nicely demonstrated with practical.still some words are difficult to understand but it would take time till we solve the real problem.i think if we have a homebrew antenna not matched or tuned ,and connected with nano vna and with computer application, we can find coordinated and final value of L and C ,we can match the antenna impedance.two or three real example solving ,teach us this things better
Where did you get the inductor you used for the demonstration? Or did you make it yourself? I like the idea of it being infinitely variable compared to the tapped coils I’ve seen others build and use.
It is a commercially made "roller inductor".
You just removed the complex part off the Smith Chart ;-)
Happy and Well Matched New Year!!!
Very good video! Looking forward for the other parts of the series.
PS: Was it an HP screwdriver you were using as a pointer?? mmmm...
You are the best, thank you for your lessons.
Christmas gift came a little late :-) and very welcome, Thanks!