@@rusticagenerica I think it might be a reference to Spinal Tap, where you turn it up to "11", which is beyond the normal scaling for volume of 10 - louder than anything else. But it was a joke, since it's just a rescaling. Colloquially it means beyond/better than the normal limit for what it is applied to. Alternatively, perhaps you were making a joke of the "acting dumb" variety?
I'm not a ham radio guy. I'm not an EE. I don't have an upcoming exam. But this presentation is mind-blowingly engaging and fascinating. Smith Charts are brilliant analog computers.
I have listened to many lectures and presentation during my career (now retired). None have ever made a subject more interesting, informative, educational and downright easy to understand than the ones you do! Absolutely brilliant. Thank you. GW6UWW. Mike.
Great absolute to the point crash refresher course for former RF engineer ( 30 yers ago at Nokia ) who has forgotten everything and is now setting up ham station and antenna tuning lab. Thanks alot! 73 Jyrki OH1XYZ
Bravo! This is the best and most simple explanation I have seen so far. As a novice/hobbiest who didn’t know what a smith chart was a week ago, I understand it now thanks to you.
OMG! I learned that exactly 40 years ago at Engineering graduation and I had forgot all as I never return to it. I have a nice plastic Smith Chart with movable scales. Thanks to bring back that to me at the eve of my retirement!
30 years in electronics,always avoided smith charts as too complicated to get a handle on...now I have seen the light, even if my mobile app does it all for me......great lecture
Wow! This deserves 12 stars out of 10! What a great video and comprehensive explanation! I just dig into Smith Charts and this is really the best and most practical teaching i could ever find about Smith Charts! Really great help, altough i probably have to repeat this lessons a few times until fully understanding 🙂 I think i need to buy a NanoVNA now... Thank you so much!
Thanks, that was a great explanation for this elderly Radio Amateur. It always looked so complicated previously but now I'm really starting to understand.
This has to be the most useful and easily understood explanation I've ever come across. The practical examples make everything so much clearer than other videos I've watched.
For those of you learning the smith chart and want to understand why Inductive/Capacitive components move you around the smith chart the way they do, consider the following: A series inductor appears more like an open circuit to a given RF frequency with increasing inductance (RF choke). Hence it moves the impedance clockwise on a given resistance circle towards the open circuit point. A series capacitor looks more like a short circuit to a given RF frequency as it’s capacitance increases (think of a DC block, a capacitor which allows AC through) hence it moves the impedance along the constant resistance circle towards the short circuit point. For the shunt cases, imagine you are measuring the signal after a shunted branch to ground. Because of the shunt, there is a conductance to ground, and not all of the RF signal goes through the circuit to be measured. If you put a shunt inductor to ground, with increasing inductance, this branch will appear more like an open circuit to the RF energy, causing all of the signal to go through the circuit instead. This has the effect of moving the impedance along the constant conductance circles towards the short circuit point, because now it appears that there is a short circuit through to your measurement device instead of a branch to ground. In the case of a capacitive shunt to ground, as the capacitance increases, the branch to ground appears more like a short circuit than the path to your measurement device. Thus, the RF signal will conduct to ground instead of through the branch to your measurement device. From the measurement device’s point of view, it appears as if there is an open circuit between it and the source. This is why a shunt capacitor will move the impedance along the constant conductance circles towards the open circuit point on the smith chart. I hope this helps you understand the movements instead of just memorizing them!
Not precisely saying. Eg, A series capacitor is not moving "towards the short circuit point." think if it's below the X axis. It is also moving towards the open-circuit point. I would suggest we think it as "coordination-transform" . Resistance-Circle is actually Y axis of a plain A+iB coordinate; (change L/C will move it up or down, bendedily) Reactance-Circle is X axis. change R will move it up or down, bendedily)
Was it just me that when I first encountered a smith chart, I instinctively looked away due to the sheer amount of info in that piece of paper? Awesome presentation, sir. You helped me conquer my fear of this beautiful monstrosity.
I'm Purdy dumb...... But after rewinding a few times i was able to take away the major points of your lecture(no ill intent). Thanks again for your time and energy put into helping people. 👍👍
Philip H. Smith's wonderful invention is indeed an amazing graphical aid. Sadly, unless you use it VERY regularly, you can spend an awfully long time re-learning or remembering, exactly how to do things. To be honest, I mostly reach for my spreadsheet that I have previously programmed with all the complex math that the Chart can do. But sometimes I do still go to the chart to get an overview of possible matching solutions.
Great timing! We've just learned how to use this this week at uni, but I didn't exactly understood it with one example, so you heleped me a lot! Thanks!
Best Smith chart lecture ever! I hated this subject during my BSEE undergrad, I only wish I had this explanation during the struggle! Thank you very much.
It's great to see that hams are still producing tools like this. The ones I began using [...way back when I was way less forgetful than I am now...], haven't been updated for use with later version operating systems (like windblows 10), and some others still require some sort of MS/PC DOS simulator, but fail due to deprecated I/O functions... I know there are online smith chart 'calculators' available at various sites. But this one appears a bit more robust. At the very least, it's cross-platform (something I really like). Well done!
I was just watching one of your older "basic" videos when the notification for this video showed up. This video is a little too advanced for me, I need to learn a bit more to get to this level. I'll be back later. 👍🏻
Hi aging Alan,The video I was looking for was #110. It took a lot of hunting but I found it! I have really enjoyed your videos. I do some teaching from time to time, your videos have become a great resource in helping some of the people I teach really understand concepts that can be hard for them to understand. Keep up the great work! A/
For those, who came here 1 hour before exam, you are in the right place
it is actually 3 hours 😂😂😂😂😂
@@PedramNG All the best bro
20 mins before the exam😁
4 hours, seems like I got all the time in the world over here!
ok
On an educational genius scale of 1-10:
This presentation of the Smith Chart = 11
Do you mean there is a mistake? 11 is superior to the limit of the scale O.o.
@@rusticagenerica I think it might be a reference to Spinal Tap, where you turn it up to "11", which is beyond the normal scaling for volume of 10 - louder than anything else. But it was a joke, since it's just a rescaling. Colloquially it means beyond/better than the normal limit for what it is applied to. Alternatively, perhaps you were making a joke of the "acting dumb" variety?
I really wish this was available 60 years ago. It would have made my studies much easier
Holy molly!!! much better than the university lectures!!! great explanation. You make it look very simple!
He's a great speaker for sure .. makes it sound easy.
I couldn't agree more! This is a much thorough and better prepared explanation of many things my professor spent a week confusing us all on.
Molly*
I'm not a ham radio guy. I'm not an EE. I don't have an upcoming exam. But this presentation is mind-blowingly engaging and fascinating. Smith Charts are brilliant analog computers.
I have listened to many lectures and presentation during my career (now retired). None have ever made a subject more interesting, informative, educational and downright easy to understand than the ones you do! Absolutely brilliant. Thank you. GW6UWW. Mike.
Great absolute to the point crash refresher course for former RF engineer ( 30 yers ago at Nokia ) who has forgotten everything and is now setting up ham station and antenna tuning lab. Thanks alot! 73 Jyrki OH1XYZ
Bravo! This is the best and most simple explanation I have seen so far. As a novice/hobbiest who didn’t know what a smith chart was a week ago, I understand it now thanks to you.
OMG! I learned that exactly 40 years ago at Engineering graduation and I had forgot all as I never return to it. I have a nice plastic Smith Chart with movable scales.
Thanks to bring back that to me at the eve of my retirement!
30 years in electronics,always avoided smith charts as too complicated to get a handle on...now I have seen the light, even if my mobile app does it all for me......great lecture
I haven't used a Smith chart in decades. Excellent refresher.
For such a complex process you make it look very much simpler. Thank you.
Wow! This deserves 12 stars out of 10! What a great video and comprehensive explanation! I just dig into Smith Charts and this is really the best and most practical teaching i could ever find about Smith Charts! Really great help, altough i probably have to repeat this lessons a few times until fully understanding 🙂 I think i need to buy a NanoVNA now... Thank you so much!
Thank you - I'm glad you found the video so useful!
Excellent presentation. Understanding this process is required for when your VNA battery goes dead or you step on it.
Intro to RF Circuits has been a series of elevations and crashes, but this video has made it better. Thanks!
ABSOLUTELY EXCELLENTISSIMO! ALL tech courses should be taught like this. This video will serve as my new standard on how to teach tech subjects.
Thanks, that was a great explanation for this elderly Radio Amateur. It always looked so complicated previously but now I'm really starting to understand.
Life long learners rule! ♥️
I was looking for a simple Smith chart tutorial for a long time ago.
Thanks a lot 😊
Impressive , I revised whole topic in 25 min.
For those who scared with smith chart. Explaination is 10 times better than a class lecture.
The very best clear and concise explanation on this subject I have ever heard. Thank you very much.
非常非常非常非常有用的视频,讲得通透且富有逻辑性,课上没听懂的在这里听懂了,感谢啊啊啊啊!!!
Thanks for posting this video. You've covered a lot of territory in a short period of time. Thanks for the references you have provided.
Really great presentation and walked us through all the basic concepts with great examples.
There you go again! You managed to simplify things so that even a near caveman can understand! Bravo! KC2RDU 73's
73's = best regards's (incorrect) 73 = best regards (correct)
😂 I'm definitely one of the cavemen watching this video.
This has to be the most useful and easily understood explanation I've ever come across. The practical examples make everything so much clearer than other videos I've watched.
For those of you learning the smith chart and want to understand why Inductive/Capacitive components move you around the smith chart the way they do, consider the following:
A series inductor appears more like an open circuit to a given RF frequency with increasing inductance (RF choke). Hence it moves the impedance clockwise on a given resistance circle towards the open circuit point.
A series capacitor looks more like a short circuit to a given RF frequency as it’s capacitance increases (think of a DC block, a capacitor which allows AC through) hence it moves the impedance along the constant resistance circle towards the short circuit point.
For the shunt cases, imagine you are measuring the signal after a shunted branch to ground.
Because of the shunt, there is a conductance to ground, and not all of the RF signal goes through the circuit to be measured. If you put a shunt inductor to ground, with increasing inductance, this branch will appear more like an open circuit to the RF energy, causing all of the signal to go through the circuit instead. This has the effect of moving the impedance along the constant conductance circles towards the short circuit point, because now it appears that there is a short circuit through to your measurement device instead of a branch to ground.
In the case of a capacitive shunt to ground, as the capacitance increases, the branch to ground appears more like a short circuit than the path to your measurement device. Thus, the RF signal will conduct to ground instead of through the branch to your measurement device. From the measurement device’s point of view, it appears as if there is an open circuit between it and the source. This is why a shunt capacitor will move the impedance along the constant conductance circles towards the open circuit point on the smith chart.
I hope this helps you understand the movements instead of just memorizing them!
Not precisely saying. Eg, A series capacitor is not moving "towards the short circuit point." think if it's below the X axis. It is also moving towards the open-circuit point.
I would suggest we think it as "coordination-transform" . Resistance-Circle is actually Y axis of a plain A+iB coordinate; (change L/C will move it up or down, bendedily) Reactance-Circle is X axis. change R will move it up or down, bendedily)
Hello, I am a radio engineer and get my diploma 12 years ago and only now I knew what is Smith Chart and how it works!) Thank you!
Thank you for sharing! Excellent explanations, I am also an amateur radio operator. Never too late to find your channel, thanks again.👍👍👍
Great clarity with a misunderstood and underused concept. +10!
Thanks, great video, you're really talented at explaining engineering concepts 🙂
One AWESOME Video! Thanks for taking time to put this together. I plan to use this video in my Telecommunications Class.
Great presentation, making use of smith chart looks easy. Thanks.
Was it just me that when I first encountered a smith chart, I instinctively looked away due to the sheer amount of info in that piece of paper? Awesome presentation, sir. You helped me conquer my fear of this beautiful monstrosity.
Thanks a lot!!!! This video helps me understand Smith Chart within an hour. I wonder if you do an LNA design example step-by-step.
I'm Purdy dumb...... But after rewinding a few times i was able to take away the major points of your lecture(no ill intent). Thanks again for your time and energy put into helping people. 👍👍
Superbly Explained !! All important concepts in one video. Thank You !!
The smith chart is imtimdating at first glance. But after understanding just part of the smith chart, you'll find it extremely useful..
Perfect explanation~!
I studied smith chart about 25 years old. At that time, I cannot understood that. But I understand entirely.
Thanks lot~!
Beautiful job of explaining the Smith chart. This was the main thing keeping me from going Extra -- I'm starting to get the hang of it, thanks to you.
Thanks to your clear and concise tutoring, I'm beginning to get the hang of this Smith Chart biz! Thank-you.
Philip H. Smith's wonderful invention is indeed an amazing graphical aid. Sadly, unless you use it VERY regularly, you can spend an awfully long time re-learning or remembering, exactly how to do things. To be honest, I mostly reach for my spreadsheet that I have previously programmed with all the complex math that the Chart can do. But sometimes I do still go to the chart to get an overview of possible matching solutions.
Thanks for your great explanation: it is bliss !
The really best course about Smith Chart i have never had !! Thanks a lot for your work
This is the best Smith Chart explanation I have ever seen‼️ 👍🏼👍🏼
🤥👉👀🖤💤👌
Great timing! We've just learned how to use this this week at uni, but I didn't exactly understood it with one example, so you heleped me a lot! Thanks!
Cool - be sure to check out the other smith chart videos I have (linked in the video description).
excellent tutorial! I learned so much
Great Video and Presentation! A true Teacher. Hope this helps in my PE Test.
Best Smith chart lecture ever! I hated this subject during my BSEE undergrad, I only wish I had this explanation during the struggle! Thank you very much.
It's great to see that hams are still producing tools like this. The ones I began using [...way back when I was way less forgetful than I am now...], haven't been updated for use with later version operating systems (like windblows 10), and some others still require some sort of MS/PC DOS simulator, but fail due to deprecated I/O functions... I know there are online smith chart 'calculators' available at various sites. But this one appears a bit more robust. At the very least, it's cross-platform (something I really like). Well done!
Thank you. You made it so simple to understand.
TNX Alan, you always make complex topics (pun intended) much more understandable. 73 - Dino KL0S
Ok, that blew my mind then. No one told me there was a MAP! Guess my tutors were not radio amateurs. Thanks again for excellent content.
Amazing simple and practical lesson on a very complex topic. Thanks for sharing your knowledge and talent.
Nice explanation
I was just watching one of your older "basic" videos when the notification for this video showed up. This video is a little too advanced for me, I need to learn a bit more to get to this level. I'll be back later. 👍🏻
Mr. Smith was a genius.
Wow only one person in denial that's pretty good.
Thanks for the great video!
Thanks again Alan, great video! I'm gonna have to make a play list of all your Smith Chart videos.👍
Most of them are included in the video notes.
Very useful and very well articulated and explained. Thank you, Alan.
Impresionante explicacion de lo valioso significado de las cartas de smith, gracias profesor. Saludos desde Lima, Peru.
wonderful, as always. A joy. Wish I had had it a year ago
Wonderful explanation! I never could make sense of these before now.
Thank you for this excellent explanation .
Hi aging Alan,The video I was looking for was #110. It took a lot of hunting but I found it! I have really enjoyed your videos. I do some teaching from time to time, your videos have become a great resource in helping some of the people I teach really understand concepts that can be hard for them to understand. Keep up the great work! A/
Very easy to understand. Thank you so much for the lecture.
I have a midterm tomorrow and this video is a life saver!
Very good video on Smith chart
Thank you so much for this vid!! You made it so easy that I now understand what is going with this smith chart bit!! Seriously, amazing!!!!
⚡🤥👀🖤👌💤
🤫
This was fantastic! Thank you!
You have done a great job . Thanks for posting this great video.
Excellent presentation and explanation. Well done!
EXCELLENT! I always wondered what all those lines were fer!
that was so nice clear explanation... thanks grateful
Another Great video Alan! Shared on my Facebook page ..
Absolutely great presentation! Thanks for the upload, looking forward to checking out your other videos
One of the best tutorials I ever watched. Thank you for sharing. 73 de sv1onk
Thank you! Great explanation.
Thank you for making these videos
Very detailed for newbies like me. Thanks a lot
Very interesting, thanks for the explanation.
Outstanding analysis!! Thank you!!
Thank you for such awesome explanation....!
Excellent Tutorial...Thank You! Finally...I can put to good use the data from my analyzers!
good work,,,this is excellent, you just made it look so simple
Excellent teacher
Absolutely brilliant tutorial ... thank you very much
I want a wallpaper in my room with your slides. GREAT!
TNX !!!
Excellent video - thanks!
amazing course, thank you so much !
Such a great lecture! Thank you 👍🏻
I still have to get this in my brain x.x but thanks a lot! Going to be licenced in a few months, QTH is vienna, AT! 73!
This is truly amazing, thank you!
Super useful as always!
Seriously amazed, I should give you my tuition money instead LOL
That really gives us a shortcut. Thanks! 73!
Thx Alan, this Will help me in my study!
Awesome video! Thanks again!
Thank you so much, sir.
Excellent explanation! Thanks a lot!
Most excellent! Good job.