How SMPS works | What Components We Need? Switched Mode Power Supply

Рет қаралды 398,077

Күн бұрын

$2/5pcs 2Layer & $2/5pcs 4Layer PCBs: jlcpcb.com
🔥Learn how the switched mode power supply works, the parts we have and what will each part do in the circuit. Protection and EMC filter, full bridge rectifier, primary filter, power MOSFET, transformer and secondary filter.
ELECTRONOOBS.io: electronoobs.io
Help my projects on Patreon : / electronoobs
my Q&A page: electronoobs.io/forum/index.php
Facebook page: / electronoobs
Canal en Español: / electronoobs en español
🔀LINKS
-------------------------------------
SPWM Tutorial: electronoobs.io/tutorial/196#1
Part list: not yet...
Schematic: not yet...
🔬PRINTERS FDM
-------------------------------------
All printers: bit.ly/2lPkaS7
Artillery Sidewinderr X1 (333€): bit.ly/3fRcLbX
→ Coupon (324€) "D4FF9E1BE8227001"
Artillery GENIUS (245€): bit.ly/3hz9GNY
→ Coupon (241€) "H4FF9DA22F227000"
Creality3D Ender 3 (178€): bit.ly/2WOzQEw
→ Coupon (157€) "F4FE9A937B5EB000"
Creality Ender 3 Pro (220€): bit.ly/32QIjuH
→ Coupon (157€) "J4FE99F73D5EB001"
Alfawise U30 (181€): bit.ly/2BqrZ8O
Alfawise U20 (260€): bit.ly/3jxUG4V
Alfawise U50 (190€): bit.ly/2Br215b
Crealitu CR10 (345€): www.banggood.com/custlink/mvK...
Creality CR20 (363€): www.banggood.com/custlink/KvD...
TEVO Tarantula Pro (192€): bit.ly/3jErZn8
Anycubic MEGA- S (307€): bit.ly/30CP3tA
🔅PRINTERS RESIN
-------------------------------------
Anycubic Photon SLA (309€): www.banggood.com/custlink/mKD...
Alfawise W10 SLA (184€): bit.ly/30ABjPS
Longer Orange 10 (166€): bit.ly/2mkgCaN
Elegoo Mars SLA (210€): bit.ly/3hvk0GT
Like share and subscribe to motivate me. Thank you
#SMPS
#supply
#tutorial

Пікірлер: 578

@ELECTRONOOBS 3 жыл бұрын

Sign up at ELECTRONOOBS.io: electronoobs.io/ Follow me on FACEBOOK for more: facebook.com/Electronoobs help me on Patreon: www.patreon.com/ELECTRONOOBS

@thearchetype9829 3 жыл бұрын

Hey electronoobs you can CREATE SHADES USING SIERPINSKI'S TRIANGLE AND YOU SMART PHONE kzfaq.info/get/bejne/erOJocJh2rq6cmw.html same as I have done

@ugetridofit 3 жыл бұрын

Something is strange here. At time 8:30 in the video its showing 2, 560uf @ 200V. After the bridge the DC voltage will be way higher than the input of 230vac, so how can those caps be so underrated?

@ELECTRONOOBS 3 жыл бұрын

@@ugetridofit there are 2 capacitors in series so 400V

@chanchukumar3562 3 жыл бұрын

Can you give me its circuit diagram

@shashankshekharverma6151 3 жыл бұрын

Bro why did we use high frequency transformer,cant we just take output from mosfet and connect it to secondary filter?

@saikittang7450 3 жыл бұрын

I honestly can’t imagine how much time and effort must have gone into making these videos man. Appreciate it!

@shailendrarajput9533 3 жыл бұрын

Time does not matter when you doing something interesting 👌👌👌😍😍😍

@learningcorner4597 2 жыл бұрын

Now imagine how much efforts it would take to produce an smps

@bashaaksema94 3 жыл бұрын

The EMC filter is also really important to make sure the power supply doesnt make interference on the line

@pssh23 3 жыл бұрын

also know as line filter, if your speaking of filter at the input side.

@Samuel-km5yf 3 жыл бұрын

Dark Angel - Electronoobs is wrong here and you are right. The EMI/EMC filter is primarily for filtering out the conducted emissions *back* into the source supply.

@bashaaksema94 3 жыл бұрын

@@Samuel-km5yf thanks are you an expert on it btw?

@Samuel-km5yf 3 жыл бұрын

Dark Angel - I’ve designed, built and tested satellites for over 15 years and have SMPS designs currently in orbit above Earth... so, yes? You are obviously well educated yourself because many EEs I’ve worked with would not be able to tell me what the input filter of a SMPS is primarily for 😉

@bashaaksema94 3 жыл бұрын

@@Samuel-km5yf well in that case. Im working on my own smps right now maybe we can have a chat?

@zsigmondsinventions5201 3 жыл бұрын

I am an electrical engineering student, and learn more from your videos than from university :((

@ELECTRONOOBS 3 жыл бұрын

Well I'm happy that you learn from.my videos :)))

@felixwurm1467 3 жыл бұрын

Well then you have a Problem. The video ist good but also very very Basic. I would recommend the KZfaq Channel Diode gone wild cause He also goes Info the math an Transformer Design, an some different Typs OS SMPS (flyback ....)

@alejandroperez5368 3 жыл бұрын

@@felixwurm1467 he doesn't have any problems. This is more electronics engineering than electrical engineering stuff. And even in Electronics engineering they won't give you these clear explanations as shown here. They will teach you what a buck and boost converters are at and advanced level but will not teach you what a SMPS is.

@coloradowilderness3139 3 жыл бұрын

Zsigmond's , Bcz you never attend class lectures !

@makkanelectronics 3 жыл бұрын

Good job bro ✌️

@Boffin2002 3 жыл бұрын

I've been in the business for quite a while and can honestly say this is a very well presented explanation. Not too technical but accurate enough and to the point. I'd have no hesitation recommending your material to anyone that wanted to learn. Well done

@gonzalomeabe5256 3 жыл бұрын

Great video! Just a little thing I want to mention, at 15:34. The control circuit is on the low voltage side, but the power transistors are still on the high voltage side, so you need a way to controll them withouth loosing your insulation. That's the purpose of that smaller transformer. I'm pretty sure that it is used to control the power mosfets from the low voltage side. I asume that the main transformer have 4 pins on the left, two pins for the main HV winding, and two for an auxiliary winding, used to power up the control circuitry (and in some other desings, an auxiliary winding is used as a voltage feedback instead of using an optocoupler, as its voltage should be more or less, proportional to the output winding voltage). If you watch close, near the small transformer, there are two small transistors used to drive the primary side, and on the other side, there is a bunch of capacitors, resistors and diodes used to drive the gates of the power mosfets; those are needed to reduce the time they take to turn off, and therefore, to reduce the power loss. And two diodes to form a snubber network, to protect the transistors against reverse high voltage spikes, due to commutation. You can tell where is the division between high voltage and low voltage side, by looking at the bigger gap that separates the copper traces from one side to the other.

@RoadRunnerMeep 3 жыл бұрын

Probably one of the most indepth videos I've seen for SMPS that simplifies it :)

@dawsonrichards6363 3 жыл бұрын

This channel is amazing and underrated. Somehow you manage to read my mind and teach me exactly the things I need and want to know. Please keep up the amazing content!

@BobWa43 3 жыл бұрын

Best explanation of how switched mode power supplies work I have seen anywhere. Clear, concise and explained in terms that a layman can understand. Thank you, just what I had been looking for.

@jeremiahchamberlin4499 4 ай бұрын

This is my third video today on switch mode power supplies. It was most informative. As an English (American) speaker, I had no problem with the verbal instruction, I understood you very well. As a student, I deeply appreciated the waveform transformations across sections. Of the power supply. A lot of repair videos assume the viewer is familiar with how a SMPS works; I was not (and wondering for years): you explained it very well. You focused on the main components without getting distracted by how individual capacitors, zener diodes, and resistors could affect performance. If I were to repair an item, I would need that information, but BEFORE I need to make the repair, I need the information you present. Thank you very much.

@zeitgeist909 3 жыл бұрын

Great video - I have watched quite a few videos on SMPS, this is the first where I feel like I am getting an actual grasp on them from the ground up.

@cecilandrews1875 3 жыл бұрын

This has to be the best description of power supplies design I have ever seen you have a new follower

@Xlife018 Жыл бұрын

The most comprehensive yet easy to understand SMPS video I have seen. Well done!

@ninadtaralekar 3 жыл бұрын

The video is very detailed and have niche explanation of each block step by step... That's amazingly made and appreciate your peculiar points for the each block from application perspective

@kwhp1507 3 жыл бұрын

Best smps explanation I’ve found to date. You described things nobody else has. Thank you

@jarrod0987 2 жыл бұрын

Been learning about SMPS for years. Watched a lot of video's on them. This one is the best I have seen so far Thank You.

@beauhanson3318 Жыл бұрын

This was such an amazing video, so many people have tried explaining this, but your animations and examples were so effective. Thanks!

@jagdeepsekhon9006 2 жыл бұрын

The effort you put in and the amount of time you have spent on making the video is really commendable. You are doing a really amazing job!!

@big-boss-404 6 ай бұрын

Great video bro, you spent much effort on this. You're better than my lecturers. Anyway, I think the DC output voltage of the output LC filter should be controllable by changing the pulse width of the signal. So, the DC output should change due to the change of duty cycle of the signal. You might mean it, but you misrepresented it in your video. Great job anyway bro 🔥

@lucast3006 Жыл бұрын

Your channel as well as Learn Electronics Repair are my absolute favorites. Everything is always so clear!

@grahamhall2662 Жыл бұрын

Excellent, I am learning all the time and your explanation is aimed at just the right level for me. Gives me a stepping stone from which to learn more. Thank you.

@AD34534 3 жыл бұрын

That recap/summary at the end was amazing. Great video man.

@sanjalon 2 жыл бұрын

Amazing job in laying out the material so clearly and logically that it is simple to follow and even fun. Thank you!

@yopdiesel80 3 жыл бұрын

Thank you so much for this video! Please don't stop creating such content, humanity needs it.

@Amirzackyproduction 3 жыл бұрын

Am now becoming expert since i started watching your vedios Waiting for more sir You pretty motivate me since am an EE student

@anthonyvolkman2338 2 жыл бұрын

Very well done! On the bigger PCB that little transformer is a Gate Drive Transformer, it used to have isolation from the main FETs in case they short (example, from gate to drain sending tail voltage straight into the gate drive network). However the transformer allows galvanic isolation between which allows the pwm controller and gate drive network to (generally) be preserved during a fault. Those transformers are generally gate drive only and those little transistors near it are for driving the GDT. Coilers use GDTs (same as I) for Tesla Coil gate drivers with dedicated gate drivers such as the UCC3722 or TC4420 gate drivers.

@zikermu 2 жыл бұрын

Thank you very much for this excellent video which allows, with average knowledge in electronics, to approach the SMPS without using abstruse terms like forward, buck, etc... (this terminology is obviously not to be denied but is not needed to understand how it works). Your course is very educational and icing on the cake, it is excellently illustrated with videos with ad hoc comments.

@taylorboultinghouse8296 Жыл бұрын

What an amazing video! Thank you for putting in all the work to make this video so clean and concise. Take care!

@Richie_ 2 жыл бұрын

Explaining the use of each component is brilliant. It's how I like to learn and it's how I look at circuits. Thanks. 👌

@habtamusium8646 Жыл бұрын

I could cleared out my confusion on how potentio-opto-ic work together for attaining a constant output voltage . many thanks for well explanatory vid .

@mdaraphiri6767 2 жыл бұрын

You are really a genius. I usually don't comment. But today I feel the need to leave 2 or three words. As I am watching, I am sitting with my 4n charger open trying to figure out why there are so much components. You nailed it.

@aussieboy77 3 жыл бұрын

This is the best explanation of SMPS I've seen anywhere.

@0MrENigma0 Жыл бұрын

Thank you for this video! It will make more sense in time, as I get a better grasp of the components, and re-watch this video over time, but this is so appreciated to be able to have even a basic understanding now.

@Delali 3 жыл бұрын

this is a very informative video. i love the style of delivery and the step by step approach. I try to do that on my channel too. Keep up the great work.

@tomallen6073 Жыл бұрын

Awesome! Great explanation. I have a few I’d now like to try to troubleshoot. Videos like this really help move the world forward.

@mikevultaggio9589 3 жыл бұрын

One of the best electronic learning tutorials I have ever seen!!!!!!!!!!! thank you..

@matthewrampersad8185 3 жыл бұрын

This Video was so helpful especially during this time of online learning where I'm unable to get any hands on experience with these stuff but your video really helped thank you!

@Engbic 3 жыл бұрын

This is really amazing. Your video is the best about SMPS in YT.

@harivignesh 3 жыл бұрын

This is the kind of videos we want. very Informative with very good graphical explanation

@ameristanbouli5063 3 жыл бұрын

i was waiting for someone to explain why high frequency transformers are smaller but can handle the same power as the low fequency one with iron core thank you 💙💙

@techview6933 3 жыл бұрын

Great !!! Your explanation method is A to Z , You explain all steps and working principle of all components !!! Thanx!!!

@milindkhurd 2 жыл бұрын

Thank you for the section by section details with animation, excellent video!

@Vinaykumar-bf8hj 3 жыл бұрын

Brilliantly Explained with seriously impressive animations🧡 i loved it

@conradh7659 3 жыл бұрын

Great detailed explanation of how a SMPS is designed and works! Excellent video!

@ELECTRONOOBS 3 жыл бұрын

Thank you :)

@peddersoldchap 2 жыл бұрын

Best video on power supplies on this site, for sure! Well done and thank you!

@jorgeramalho8386 3 жыл бұрын

Very good video. Excelent to remember a few concepts. It was surely a lot of work so congratulations for it!

@tonign80 3 жыл бұрын

Magnifico vídeo explicativo!!!... la info gráfica del las distintas etapas, funcionamiento y el recorrido de cómo actúa es didácticamente perfecto!!!... menudo trabajo!!!... gracias por compartir conocimientos

@nadavnatan2320 3 жыл бұрын

perfect tutorial. very clear. i show your demonstrations in my classes

@miguelangelmartinezcasado8935 3 жыл бұрын

Super great video, just the thing that I always wanted to learn but never had a chance. Thanks!

@user-bi2lx7ou7i 7 ай бұрын

Excellent video tutorial. Thank you and appreciate for the hard work and effort you have put.

@farabielec 2 жыл бұрын

Thank you dear. The best video I have seen explaining SMPS 👍👍

@Adhithya2003 8 ай бұрын

extremely good video. Love it great combination of theory and practical knowledge. Chef's kiss.

@gouraviki 3 жыл бұрын

Best ever explanation of SMPS...really a great job...keep it up

@VideoStefan17 3 жыл бұрын

this was awesome explained!! all questions in my understandig answered!! THANKS!

@adhossain Жыл бұрын

Really apprechiate. I had no idea how SMPS works and now I fully understand it

@ahmadmaaz2566 3 жыл бұрын

As always, the best video.... Man keep up the good work... I always get excited for your video

@666aron 3 жыл бұрын

Thank you for another anazing, informative video. On the topic of SMPS, it would be nice to see a tutorial on building the transformer for feed-back, feed-forward, push-pull. I remember that in university we've learnt the control of SMPS, but but the design.

@rickpontificates3406 2 жыл бұрын

A couple things… the 230AC input is obviously for Europe, but since you didn’t mention a PFC stage, then the power supply will typically have a 110/220 switch, which is not needed in a power supply with a PFC. The secondary stage (PWM} is powered by a DC voltage (typically 250-400VDC) which is the output of the PFC if it has one, and which is higher than the VAC RMS of the bridge rectifier (VIN x 1.414). The secondary pulse transformers operate at about 100khz and the output is usually rectified back to DC with a DIAC which powers the output load.

@jimnoonan7511 3 жыл бұрын

Really helpful thanks. Best explanation I've found for smps. Thanks for taking the time.

@recenttechnology2952 3 жыл бұрын

Good job, once again a great video! Sometimes a power factor correction (pfc) is applied to avoid harmonics.This would certainly be an exciting topic for another video ;)

@ibrahimethemdere5518 3 жыл бұрын

Thanks for your short and explanatory narrative🙏✋

@shawncalderon4950 9 ай бұрын

The best instructional video on the topic. Universities should pay you to make their electrical engineering videos:)

@ravikumarkalamraju5044 3 жыл бұрын

Excellent information with in-depth details, made understanding easy. thank you

@jkj1459 3 жыл бұрын

VERY NICE THE STYLE OF LANGUAGE .. EASY TO UNDERSTAND EACH AND EVERY WORD .

@sahilyadav998 3 жыл бұрын

Finally your videos started showing up on my suggestion page. :-)

@Elikaee Жыл бұрын

Hello man, this video was very useful for me. Everything had been clearly explained. WAY TO GO

@you-dont-know-me 3 жыл бұрын

This explained a lot to me, thanks for high quality video.

@rusty1187 3 жыл бұрын

FINALLY!!!! Someone who could explain these to me in a way i could understand!

@frankreiserm.s.8039 2 жыл бұрын

This was a very good review. I think that you got me ready for my job interview. Frank

@MaciejMiklas 7 ай бұрын

This is really a GREAT explenation - thank you!

@hoyschelsilversteinberg4521 4 ай бұрын

I'm 9 minutes in and you've just solved so many mysteries for me. I've read up on so much, so many tutorials out there are just plain SHIT. Talking about lemons powering LEDs to absolutely incomprehensible jargon laden nonsense. You just created here something so incredibly easy to follow and understand. Your breaking down of the sections in a PSU is so logical and well thought out. You must have been in the same position as myself at some stage in your journey to have created such an easy to follow video. Thank you so much! subscribed and liked.

@DiscoverRajivVlogs 3 жыл бұрын

Man this video is so easy to understand... Good job...

@peterlethbridge7859 Жыл бұрын

At last, someone who has explained an SMPS in such detail that it's easy to understand. I thank you sir. A wonderful job. I have a couple of questions as a noob: 1) on the EMC filter, I thought coils (chokes) blocked A/C voltage? 2) Why is only a half bridge rectifier used on the second stage instead of a full bridge. Isn't there a loss in efficiency by throwing away the negative component? Many thanks again for your superb explanation.

@peterlethbridge7859 8 ай бұрын

@@Adhithya2003 thank you so much for spend time answering my questions. It’s greatly appreciated.

@d614gakadoug9 8 ай бұрын

The inductor used in the EMC filter is called a "common mode inductor" or "common mode choke" ("choke" is a rather old term for an inductor, but it is still used). A common mode choke is designed with two windings. The windings are arranged such that the low-frequency current in one winding is equal to and opposite in polarity to that in the other winding at any instant. The magnetic fields of the two windings cancel each other and there is very little inductance for that "differential mode" current. However, if there is high frequency noise that is the same ("in phase") on both of the windings, there is no cancellation and you get high inductance to this "common mode" noise. In the filter you use capacitors across the AC line connections on both sides of the inductor. This more or less makes a short circuit for high frequency noise between the two sides and makes sure the high frequency noise is common mode. In the circuit in the video there _is_ no AC at the output of the transformer. His description is simply wrong. This is almost certainly a forward converter so the voltage at the secondary side is unipolar pulses. The diode doesn't really act as a rectifier in the usual sense, but rather as a way of preventing the output filter components from discharging through the secondary winding of the transformer. If there really were symmetrical AC at the secondary you certainly would use a full wave rectifier. Half-bridge, full-bridge and push-pull converters do produce symmetrical true AC on the secondary and you do use full-wave rectification. Usually you use a centre tapped secondary so full-wave rectification requires only two diodes, but sometimes you use a simple untapped winding and a full-wave bridge rectifier. These types of converter are more complex but you make much better use of the transformer because of the true AC excitation and you can get nearly double the amount of power for the same size transformer. There is some chance that I am wrong and the circuit is actually a half-bridge converter, but I doubt it.

@dicksonkimanzi6453 3 жыл бұрын

That's was fantastic explanation ,am fully satisfied .thanks very much

@mertgurdogan119 2 жыл бұрын

I fresh discovered your channel, your videos so helpful. Thank you for all

@AhmedEssam-zm9bz 7 ай бұрын

A very respectable work, thank you for the excellent Demonstration.

@anmolkumar6704 3 жыл бұрын

Thanks for this video man I was just building a tl494 based SMPS 😃

@HmEMusicRemixSongsHmE 4 ай бұрын

That was a great video you us by simplifing and that was pretty understandable video Thank you 👍🏻

@nasim3269 3 жыл бұрын

Awesome video Electronoobs!

@kamaljoshi9102 2 жыл бұрын

You are talented and hard working person. Thank you for making so informative videos

@user-cs6ly5qe1x 10 ай бұрын

thank you for teaching i honestly learned a lot from this video.

@powerupsuri355 2 жыл бұрын

Man you explained it reall really ver simple.....i m really ver happy to learn & get it quickly

@sergiofranco3365 3 жыл бұрын

Excelente explicación. Tal vez la mejor que encontré. Please keep the good work.

@h.matiin 3 жыл бұрын

Wanna evaluate the quality? check if you feel the time passing or not. Thanks for this beautiful and comprehensive video

@gvlacxmaiah 3 жыл бұрын

Wonderful explanation, you are sure a great teacher. Thank you so much.

@030H 2 жыл бұрын

Thank you! That is definitely the best video on SMPS! 👍

@chandrab373 2 жыл бұрын

on a whole it was an extraordinary video , cuz it was useful at the right time , (based on viewer situation) , it helped me a lot , very informative. looking forward to seeing more videos in electrical involving control systems techniques of circuit designing.

@ashkananisi5181 3 жыл бұрын

Beautifully explained Love it!

@usertogo 3 жыл бұрын

pretty good- the real pleasure is too look into a high performance telecom rectifier where multi phase intermediary transformers are used to achieve 90+ percent efficiencies!

@daleepGC 3 жыл бұрын

Superbly Explained, keep up the good work👍

@utube4greenfuture 3 жыл бұрын

Your videos are always awesome

@internetvideoenjoyer 3 ай бұрын

Really clear and helpful explanation

@uwezimmermann5427 3 жыл бұрын

Nice video and good explanations, however, some comments: Noise on the ac input voltage is not so important, since the ac will be rectified and charges up the primary high-voltage capacitors. At least as important is the filtering of noise which is generated within the power supply so that it is not emitted out onto the ac grid. Also the voltage on the high-voltage primary capacitors is not 240 Vdc but sqrt(2)*240 V or about 300 Vdc since the capacitors charge to more or less the peak voltage of the ac grid.

@cheeseschrist2303 3 жыл бұрын

That is why these capacitors are usually 400V.

@uwezimmermann5427 3 жыл бұрын

@@cheeseschrist2303 and they make a lot of noise when discharged through a well insulated pair of pliers 😈

@charlesslagal3353 2 жыл бұрын

He states the output voltage at the large caps after the rectifier is around 320V.

@tonymai124 5 ай бұрын

very ...very good explaintaion to people who not really good in electronic field like me, big thanks Bro !

@tushar8133a 3 жыл бұрын

Super explanation. Thanks for sharing this hard work!

@hamradio3716 3 жыл бұрын

Very well done. Excellent graphics as well.

@saxhorn1508 3 жыл бұрын

Excellent explanation and graphics. Thanks.

@blueunicorn807 3 жыл бұрын

*Sir, please make the world's simplest but powerful SMPS and of course without any chips. We need to learn this. As often we need a power supply. You are a great teacher, Love you from India.*