To see subtitles in other languages: Click on the gear symbol under the video, then click on "subtitles." Then select the language (You may need to scroll up and down to see all the languages available). --To change subtitle appearance: Scroll to the top of the language selection window and click "options." In the options window you can, for example, choose a different font color and background color, and set the "background opacity" to 100% to help make the subtitles more readable. --To turn the subtitles "on" or "off" altogether: Click the "CC" button under the video. --If you believe that the translation in the subtitles can be improved, please send me an email.
I learned this stuff in the late 70s but these visuals are so clear & easy to grasp the actions one can’t see... I’ve been recommending them to all my friends who have kids... thanks for all your efforts
I feel that if mechanical engineers understood electricity in mechanical terms (in the way your videos demonstrate) they could create some very interesting circuits. This is an example of that. It is basically a magnification mechanism in electric form.
incredible imaginative, and outstanding explanation. Your videos open up a new horizon of understanding the underlying symbols and equations. Just excellent.
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link: ruclips.net/user/timedtext_video?ref=share&v=DI8Yt1AQrH8 You will then be able to add translations for all the subtitles. You will also be able to provide a translation for the title of the video. Please remember to hit the submit button for both the title and for the subtitles, as they are submitted separately. Details about adding translations is available at support.google.com/youtube/answer/6054623?hl=en Thanks.
I recently created a Patreon account for people who want to help support my channel. The link is on my RUclips home page. Also, in case, you have not already seen them, I uploaded several other videos recently. As always, for each video that you like, you can help more people find it in their RUclips search engine by clicking the like button, and writing a comment. Lots more videos are coming very soon. Thanks.
This is literally the best visual explanation of a voltage multiplier's function on the internet right now! Hands down, a real gem we all can appreciate. Thank you so much for creating this excellent lesson.
Great, thanks for the effort on the video, maybe in the description and for the next video audio you can clarify the direction of current you describe for the diode is conventional and not electron. This is extremely important for someone learning about current.
I ran across this by chance. That has the be the most elegant way to illustrate voltage multiplication by rectification through capacitance I have ever seen. Very well done. Subbed!
Genius! I've built a few of these before and I wanted a quick refresher to remind myself of how the voltages gradually stepped up. Perfect explanation.
What wonderful video! It's non easy to understand how a voltage doubler really works, because there are many factors acting together (alternate current, capacitor charging and discharging and so on). Therefore it's difficult to understand what it's really happening , just figuring it out by mind. A beatiful demonstration of an image which is worth a 1000 words.
indeed I'm involved with electronics design industry since almost 20 years, and we consider copy/paste as the most very fast solution, even we do such paperwork calculations that match pasted circuits together, but your way to explain matters have turned me into deeper understanding, thank you
I LOVE YOU SO MUCH!!! You explain everything so clearly and what could otherwise leave some of us with questions gets easily clarified with the visuals you create. .. I LOVE ALL THE VIDEOS BY YOU I HAVE SEEN I am a huge fan ^_^
Your videos are of extreme quality and I keep rediscovering scientific fields/applications. Thank you so much for all the work you put in. At first, I watched your videos about electricity and current flow to complete my knowledge for a college class, and I now find myself developing a strong interest in quantum physics and subatomic particles. It's all so facinating !! Thank you again, I hope you can keep going for long. B.B., from France
best channel i ever found! very easy to understand with calm background music. thx for making great videos. i hope this channel will grow bigger n bigger.
Very good video. Had to watch a few times to fully appreciate it. There are lots of confusing videos on youtube about voltage doublers. Makes me wonder how many people really understand whats going on.
This is a genius method for generating extremely high voltages! As always, I enjoyed the step-by-step explanation, and I look forward to watching the next set of videos. :)
@@protoborg Well, that hurts... 😢 (After such an intuitive explanation, _this_ is what I wake up to? I'm not sure if the reply above is completely factual, but the feeling still stings...)
Thanks! Very clear and interesting. One question: you assume that the diodes operate at 0V forward voltage? otherwise, no current will flow through D2 when its cathod voltage is greater than its anode voltage
Eugene could you explain Quantum Fourier Transform? This is the only thing that I don't understand in Shor's algorithm. Thanks for all the knowledge you gave me so far :-)
I have my High Voltage Engineering Exam tomorrow, at this is by far the best explanation ever. 🔥🔥 Wish my professors had shown this instead of wasting time.
Great video, explained well the concept of voltage multiplier. thank you for sharing it! can you specify the specs of both diodes and capacitors (and how many of them) to generate lets say over 800 kV DC output from a 220 V AC or lower. can such device made at home? if yes, how much does it cost ($)? and is there cheaper alternative to generate over 800 kV DC (don't mind how low the current is, as it required for generating static filed for an experiment)?
I just have a few questions. What is the ratio between the capacitors and diodes values in terms of stepping up the voltage? Does the amount of input AC voltage determine the size of the capacitors and diodes? Finally what's a good size to work with for DIY projects?
+Timothy Mwansa, thanks for the compliment on the video. The voltage ratings of the diodes and capacitors doesn't have to be high, as each diode and each capacitor only sees the voltage difference of a single stage of the circuit. A bigger concern, as the voltage gets extremely high, is that you will have arcs through the air. Also, these arcs will generate lots of X-rays, which are bad for people's health.
+Physics Videos by Eugene Khutoryansky what would be economically the best spec of the each diodes and capacitors, if you wanna generate 800 KV DC? wanna build one!
There is electron current flow, then some go by hole current flow. A diode has anode /plate/collector that receives the current flow from the cathode/emitter. When the anode is more positive then the cathode, the current flows from the emitter to the anode/collector, not the other way around. Current flows against the arrow head not with it.
+walt3223, I am using the convention for current which shows the direction that positive particles would flow in, so as to be consistent with the convention that is used in education and in industry. But you are correct that it is actually the negatively charged electrons that are actually flowing, and these flow in the opposite direction. I cover this in my video titled, "Electric Potential: Visualizing Voltage"
We learned the basics, and then applied them to stuff like this, break it down to the simplest first. DC series, parallel, RC time constant, ohms law, voltage drops, kirchoffs laws..etc, then AC, power factor, transformers, impedance, capacitors and inductors in series parallel and how frequency affects each circuit, digital logic, semiconductors, fets, diodes, transistors, op amps. throw in some thevinins, and other fun stuff. I took the electronics course, with some AC power distribution basics, and computers added on. They made it very basic at first then built on it.
amazing! one quick question. shouldn't the capacitor on the output charge up to its maximum charging capacity and not just double the peak input voltage?
it doubles because of the polarity changing on source. It's source went down. So now it is twice as high relative to its original source voltage because current cannot flow through the first diode through the capacitor and thereby discharging it. It's a voltage spike.
+Youness Fouqani, yes and no. Charges don't flow "through" a capacitor, but charges will flow in at one end, and flow out of the other end. I will be coming out with a video dedicated to capacitors in the near future. And thanks for the compliment about my video.
Poor C1 seems to be getting a workout today : ( and I'm starting to think C2 is made out of a hot air balloon and not some sort of metal! Thank you for the videos!
Need a different animation for the caps. Voltage flowing through the cap? Maybe one side should swell with negative charge and the other side shrink with reduced negative charge?
thank you for these wonderful videos. Didactically well done to facilitate the understanding of complicated things! well done. I love, I subscibe and I multiple share.👌🏼👍
Thank you for this great video. You explain everything so well. I have watched all of your videos and they are amazing. Can you please make a video on diode, BJT and MOSFET. Thank you.
To see subtitles in other languages: Click on the gear symbol under the video, then click on "subtitles." Then select the language (You may need to scroll up and down to see all the languages available).
--To change subtitle appearance: Scroll to the top of the language selection window and click "options." In the options window you can, for example, choose a different font color and background color, and set the "background opacity" to 100% to help make the subtitles more readable.
--To turn the subtitles "on" or "off" altogether: Click the "CC" button under the video.
--If you believe that the translation in the subtitles can be improved, please send me an email.
I love how you use the height difference to visually represent the electrical potential. Beautifully presented!
Thanks for the compliment.
I learned this stuff in the late 70s but these visuals are so clear & easy to grasp the actions one can’t see... I’ve been recommending them to all my friends who have kids... thanks for all your efforts
Thanks for recommending my videos to your friends.
I feel that if mechanical engineers understood electricity in mechanical terms (in the way your videos demonstrate) they could create some very interesting circuits. This is an example of that. It is basically a magnification mechanism in electric form.
I've commented on a few of your videos now, but your animations have revolutionised the way I visualise voltage and current. Thank you.
Glad to hear that my videos have been helpful. Thanks.
incredible imaginative, and outstanding explanation. Your videos open up a new horizon of understanding the underlying symbols and equations. Just excellent.
I agree. A lot time goes into this as well.
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link:
ruclips.net/user/timedtext_video?ref=share&v=DI8Yt1AQrH8
You will then be able to add translations for all the subtitles. You will also be able to provide a translation for the title of the video. Please remember to hit the submit button for both the title and for the subtitles, as they are submitted separately.
Details about adding translations is available at
support.google.com/youtube/answer/6054623?hl=en
Thanks.
Quantum field theory please
I recently created a Patreon account for people who want to help support my channel. The link is on my RUclips home page. Also, in case, you have not already seen them, I uploaded several other videos recently. As always, for each video that you like, you can help more people find it in their RUclips search engine by clicking the like button, and writing a comment. Lots more videos are coming very soon. Thanks.
gd job man but for what can it be used?
I built one for a xenon flash once.
Bug zapper
This sort of demonstration is a revoluationize of studing electronic. Hat off!
Physics Videos by Eugene Khutoryansky
This is literally the best visual explanation of a voltage multiplier's function on the internet right now! Hands down, a real gem we all can appreciate. Thank you so much for creating this excellent lesson.
Thanks for the compliment.
I think this channel would really be able to create a very clear understanding about the basic concepts of Physics
Great, thanks for the effort on the video, maybe in the description and for the next video audio you can clarify the direction of current you describe for the diode is conventional and not electron. This is extremely important for someone learning about current.
Always a pleasure to watch your videos !
+TheSamsanca, thanks.
while everyone is thanking Eugene for his great animation work I'd like to say thanks to Kira Vincent for her voiceover and dialogue editing work.
I ran across this by chance. That has the be the most elegant way to illustrate voltage multiplication by rectification through capacitance I have ever seen. Very well done. Subbed!
Thanks for the compliment and glad to have you as a subscriber.
Out of the dozen or so videos on this circuit I've seen, this one has helped me visualize and therefore understand it, the most.
Thanks. I am glad my video was helpful.
Genius! I've built a few of these before and I wanted a quick refresher to remind myself of how the voltages gradually stepped up. Perfect explanation.
Glad you liked my explanation. Thanks.
Very neat way of visualizing voltage using vertical height. It makes it very intuitive like a head of water in a dam producing pressure.
Awesome video I'm subbed! Just graduated with an EE degree. Will be visiting your channel often to keep my knowledge fresh! :)
I am in love with these videos. Great job guys.
Thanks for existing!
+Julio Becker , thanks.
I love animated learning videos about the nuances of electronic components and their interaction.
your 3d works are wonderful, thanks a lot. keep making more videos.
Why is yours so easy to grasp, and others is so damn difficult! Jeeze, thank you
Thanks.
This is an incredibly awesome device with all of its potential! Thanx
What wonderful video! It's non easy to understand how a voltage doubler really works, because there are many factors acting together (alternate current, capacitor charging and discharging and so on). Therefore it's difficult to understand what it's really happening , just figuring it out by mind. A beatiful demonstration of an image which is worth a 1000 words.
Thanks for the compliment about my video.
indeed I'm involved with electronics design industry since almost 20 years, and we consider copy/paste as the most very fast solution, even we do such paperwork calculations that match pasted circuits together, but your way to explain matters have turned me into deeper understanding, thank you
Glad my video was helpful. Thanks.
I LOVE YOU SO MUCH!!! You explain everything so clearly and what could otherwise leave some of us with questions gets easily clarified with the visuals you create. .. I LOVE ALL THE VIDEOS BY YOU I HAVE SEEN I am a huge fan ^_^
Thanks for the compliment. I am glad you like my videos.
Great video, I would love you to include the most common uses for that technology as well
SwagOnEm tasers
thank you very much for making this so easy to understand. Very well done.
Thanks. I am glad you liked my video.
Beautiful!!!
I can visualize current flows on the circuit and finally understand the principle of operation, thanks!!!
Thanks. I am glad you liked my video.
Incredibly simple and great videos!!
Your videos are of extreme quality and I keep rediscovering scientific fields/applications. Thank you so much for all the work you put in.
At first, I watched your videos about electricity and current flow to complete my knowledge for a college class, and I now find myself developing a strong interest in quantum physics and subatomic particles. It's all so facinating !!
Thank you again, I hope you can keep going for long.
B.B., from France
Thanks for the compliment. I am glad you like my videos. Many more videos are on their way.
This is brilliant!, thanks for sharing such knowledge, it sure will come to handy soon.
Hats off to person who created this complex video !!! Really stunned.
Thanks. Glad you liked my video.
best channel i ever found! very easy to understand with calm background music. thx for making great videos. i hope this channel will grow bigger n bigger.
Thanks for that really great compliment.
Very good video. Had to watch a few times to fully appreciate it. There are lots of confusing videos on youtube about voltage doublers. Makes me wonder how many people really understand whats going on.
Thanks.
Your videos are so helpful! Love them!
Thanks. Glad to hear that.
Great visual aid! Thank you :)
Wonderful, wonderful descriptions.
Thanks for the compliment.
very very good! Compliments Eugene!
Thanks.
Your videos have been a blessing for me, I managed to survive my physics classes because of this channel.
I am glad my videos have been helpful. Thanks.
Your videos about electricity are the best I have ever seen
Thanks for the compliment.
This should be used in universities in some countries. Job WELL DONE !
This is a genius method for generating extremely high voltages! As always, I enjoyed the step-by-step explanation, and I look forward to watching the next set of videos. :)
Thanks for the compliments.
@@protoborg Well, that hurts... 😢 (After such an intuitive explanation, _this_ is what I wake up to? I'm not sure if the reply above is completely factual, but the feeling still stings...)
@@VlanimationTales Looks like the borg has left the building. Don't feed the trolls : )
@@BariumCobaltNitrog3n Yeah, I knew not to feed the trolls, but I wanted to reply anyway. :(
@@VlanimationTales Curious what did they say?
Thank you. I work with equipment that generates up to 20kV and this has helped me understand the process better.
thank you for all the knowledge you gave me
thanks. one of my fave engineering channels
Glad to hear that. Thanks.
Your work is commendable, Thank you so much for your efforts. Beautifully Explained!
Thanks for the compliment.
Thanks! Very clear and interesting. One question: you assume that the diodes operate at 0V forward voltage? otherwise, no current will flow through D2 when its cathod voltage is greater than its anode voltage
excellent visuals, thanks for posting
+brian menendez, glad you liked it. Thanks.
Fine animation explained.
extremely well presented and explained.
Thanks for the compliments.
Thanks Eugene.Can you please explain what clamping circuits are ?
great video as always. cheers from India!
+Gopala Dhar, glad you liked it. Thanks.
Very impressive. Thanks for this video.
Thanks for the compliment.
Well explained with animation.
Thanks. I am glad you liked my explanation.
My dog does not understand this video, but she does understand what happens when she runs into a certain cattle fence.
I'm as dumb as dog shit, yet even I understood after I urinated on such a fence!
Thank you very much for your educational videos. Greetings from Spain :)
Glad you like my videos. Thanks.
Eugene could you explain Quantum Fourier Transform? This is the only thing that I don't understand in Shor's algorithm. Thanks for all the knowledge you gave me so far :-)
Great visual! Thanks!
the best intro shot of these
what a phenomenal explanation. thank you so much.
Glad you liked my explanation. Thanks.
Videos which popularize science and explain it very clearly. Of public interest ! Thanks !
Thanks.
Great video! Hope you are planning to cover more topics about electrical components.
+Magnus Nilsen, thanks. I am glad you liked my video, and yes, I plan to cover more topics about electric components. Thanks.
Please upload frequently so that we can learn.
BTW Thanks for Helping in simple way .
More videos are on their way. Thanks.
Great video as always!! I loved!!
+Theenerd ジェームズ, Thanks. I am glad that you liked this one too.
I have my High Voltage Engineering Exam tomorrow, at this is by far the best explanation ever. 🔥🔥
Wish my professors had shown this instead of wasting time.
Good luck with your exam. Thanks for the compliment about my explanation.
WELL DONE!
Amazing explanation!
Always tried to imagine how circuits work visually...
And you sir, just did that exactly :D
i love your videos thank you so much XD ,, greetings from iraq :)
Wow! Such an effort that went into this video presentation amazing. People don't understand electronics will understand it.
Thanks.
Griiiiiiiiiiiiiindingly slow but educational, thanks.
use bookmarklets
Some people might be thinking abut more than one thing; at the same time.
Disagree, I like the speed very much
Speed it up, you can do that on the video settings.
@@GRBtutorials that comment was two years ago my dude
just beautiful.
Thanks.
Super clear tutorial
Great video, explained well the concept of voltage multiplier. thank you for sharing it!
can you specify the specs of both diodes and capacitors (and how many of them) to generate lets say over 800 kV DC output from a 220 V AC or lower. can such device made at home? if yes, how much does it cost ($)? and is there cheaper alternative to generate over 800 kV DC (don't mind how low the current is, as it required for generating static filed for an experiment)?
I just have a few questions. What is the ratio between the capacitors and diodes values in terms of stepping up the voltage? Does the amount of input AC voltage determine the size of the capacitors and diodes? Finally what's a good size to work with for DIY projects?
Great video, it really explains the multiplier well. What ar the specs for the diodes and capacitors.
+Timothy Mwansa, thanks for the compliment on the video. The voltage ratings of the diodes and capacitors doesn't have to be high, as each diode and each capacitor only sees the voltage difference of a single stage of the circuit. A bigger concern, as the voltage gets extremely high, is that you will have arcs through the air. Also, these arcs will generate lots of X-rays, which are bad for people's health.
+Physics Videos by Eugene Khutoryansky what would be economically the best spec of the each diodes and capacitors, if you wanna generate 800 KV DC? wanna build one!
The music is very inspirational, almost had me in tears. Too bad I'm not looking to be inspired
very nice simple video
Love the graphics!
Thanks.
There is electron current flow, then some go by hole current flow. A diode has anode /plate/collector that receives the current flow from the cathode/emitter. When the anode is more positive then the cathode, the current flows from the emitter to the anode/collector, not the other way around. Current flows against the arrow head not with it.
+walt3223, I am using the convention for current which shows the direction that positive particles would flow in, so as to be consistent with the convention that is used in education and in industry. But you are correct that it is actually the negatively charged electrons that are actually flowing, and these flow in the opposite direction. I cover this in my video titled, "Electric Potential: Visualizing Voltage"
your videos are outstanding
Thanks for the compliment.
We learned the basics, and then applied them to stuff like this, break it down to the simplest first. DC series, parallel, RC time constant, ohms law, voltage drops, kirchoffs laws..etc, then AC, power factor, transformers, impedance, capacitors and inductors in series parallel and how frequency affects each circuit, digital logic, semiconductors, fets, diodes, transistors, op amps. throw in some thevinins, and other fun stuff. I took the electronics course, with some AC power distribution basics, and computers added on. They made it very basic at first then built on it.
amazing! one quick question. shouldn't the capacitor on the output charge up to its maximum charging capacity and not just double the peak input voltage?
it doubles because of the polarity changing on source. It's source went down. So now it is twice as high relative to its original source voltage because current cannot flow through the first diode through the capacitor and thereby discharging it. It's a voltage spike.
Great video as usual Eugene !
However pay attention that no charges flow into a capacitor.
Also love the way you conceptualize the potentials :)
+Youness Fouqani, yes and no. Charges don't flow "through" a capacitor, but charges will flow in at one end, and flow out of the other end. I will be coming out with a video dedicated to capacitors in the near future. And thanks for the compliment about my video.
this makes it interesting and clear
Thank you,amazing explanation... 😍
Thanks.
thank you for you time and pasion , i love all you video and job....really nice i appreciate it,,,
This is mind blowing
Me also would like to say thanks for your video.
I love this channel
Thanks.
Poor C1 seems to be getting a workout today : ( and I'm starting to think C2 is made out of a hot air balloon and not some sort of metal!
Thank you for the videos!
+MrEstrax Glad you like my videos. Thanks.
yea but nobody even seems to notice C5
This is amazing
At 6:11 "Now we have a Situation..." from Jersey Shore... ha-ha cracked me up... nice video though.
Need a different animation for the caps. Voltage flowing through the cap? Maybe one side should swell with negative charge and the other side shrink with reduced negative charge?
Thanks for the video!
Thanks.
thank you for these wonderful videos. Didactically well done to facilitate the understanding of complicated things! well done. I love, I subscibe and I multiple share.👌🏼👍
Thanks for the compliments and I am glad to have you as a subscriber.
Nice music. I've always liked Grieg.
The diode conducting ( forward biased) will have the same voltage on both sides minus .7v ...each diode usually has a 7/10 of 1 volt drop.
Thank you for this great video. You explain everything so well. I have watched all of your videos and they are amazing. Can you please make a video on diode, BJT and MOSFET. Thank you.
First indian comment. ..👏
just amazing! Eugene Khutoryansky