{284} RCD SNUBBER Circuit | What is Snubber Circuit in SMPS and How to Calculate
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- čas přidán 30. 10. 2020
- in this video i explained What is RCD snubber circuit, why it is used in smps switch mode power supply circuit & how it works in high frequency transformer in switch mode power supply. circuit is explained in english language. Educational tutorials on power electronics RCD (resistor capacitor diode SNUBBER Circuit | What is Snubber Circuit and How to Calculate | Explained in Urdu. during switching the high frequency transformer the voltage stress on collector of the mosfet or transistor is double to the vdc and Leakage inductance spikes are also increase, these can be minimized by addition of a snubber circuit (a capacitor, resistor, and diode combination) connected to the transistor collector to positive supply line. it damps the oscillation effect in the off time period of the switching cycle. in this way the the reverse voltage generated in off time are diverted to this RCD snubber circuit so the voltage stress is minimized and the huge power loss in fall time is reduced to a negligible value.
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You know why your channel is so underrated? Its because you explain so complicated topics that most of the people are not able to understand it, but in reality your channel is really real gold!
please accept my best regards and special thanks for your golden words
actually my most of the videos are questions from my viewers
I take care for their questions
I have still thousands of pending questions so far which are to be addressed
and their answer is still not available at Google or CZcams. if there is something that is not satisfactory
@@HaseebElectronics your work is really awesome and ur educating to person in need. So kindly carry on your work and u will get the credit for ur work in future.
Gold it is. Great.
Kindly share your contact number
Super diy video Haseeb.
best regards and special thanks
Good tiching karte hai 👌👍👍👍👌👌👌👍👍
thanks a lot
Assalamualikum boss, Alhamdulillah for present a verry useful lesson.
Sir,many many thanks. You are great .
جزاك الله خيرا وزادك علما وعافية
Resp Sir! Dhanyavaadh Sir. -- ChinnaRao Paderu Andhrapradesh
The info you offered i was searching for them so many years, thank you for sharing your knowledge, really appreciate
Thanks a lot for your valuable words 💞
Thank you for information. Greetings from Turkey. 😊👋
best regards
Beravo 3elik akhi mowaf9
Thanks for explanaition. Perfekt
best regards
I wish u were my teacher at the university.
AWSOME, thank you.
best regards
Keep up the veeery good work man! I learned everything i know about smps from you!!!
U are an experienced professional teacher. What u are doing is a legacy. Pls, kp it up.Thank u, sir.
it is my pleasure. i am just sharing my experience, so that it may be helpful for someone
please accept my best regards for your valuable feedback
Very good
thanks a lot
You have explained the snubber circuit very well and also shows how to calculate the snubber cap and resistor. You can improve the rating by reducing many repetitions👍👍👍👍. This will make it lot more watchable.
I am an EEE student. If understand any thing about electronics, that from you Sir. I only study for good result for exam but take real knowledge about electronics from you Sir. ❤❤❤❤❤❤❤❤❤❤❤❤❤
Very clear explanation, thank you
Lk 174 😊😊👍👍👍
Ad one of 2 full watched
Without skipping 😊👍👍
Very good information sir thanks
Nice information video
Awesome video thank you very much
شرح ممتاز واضح جدا
Your method is Amazing.
best regards
👍🙏 god bless u
thanks a lot
stay blessed
Great Explanation Sir. Such kind of video is very very helpful for me.
This is probably the best explanation of snubber circuit!
Thank You!
thanks a lot
Thanks you sir, a good video.
You are welcome
Very nice and informative sharing 👍
Good work sir
14 like
Good job
Great update
Super
👍👍👍👍👍👍👍👍👍✋👌
I would dare to say this is the best explanation about this topic i've ever studied.
The best explination on the Internet. Super helpful.
best regards
May Almighty ALLAH reward you thanks
Asalm aliykum bro
I always learn something new from your videos.
Thanks Haseeb!
👍
great! thanks
You're welcome!
MashaAllah very nice uploading👍
Stay blessed stay cnnctd🤝👍
A very interesting explanation.
Apke k es hard work k liye
Apke har video k liye thank you so much sir
Ma sha Allah thanks for giving this valuable knowledge
Still watching 👍
Jana'meal
Thanks for the video and especially the effort you put to share your knowledge
It's a very informative video, thanks for sharing it
Best video on snubber s.
Thanks for your efforts.
Keep up the good work.
special thanks dear Manjit.
best regards
This class will be my study material . thank my brother.
Groovy vibes all the way! Big 👍🏻 up my friend. See you aroud
Nice explanation as usual, I always learnt something new from your videos hence watching repeatedly and each time get something new.
Very well explained and beautiful presentation with details shown. Thanks for sharing bro. Keep it up.
Спасибо, за прекрасный урок и понятное объяснение!
добро пожаловать и особая благодарность за ваши ценные слова. оставайся благословенным
If I understood correctly, in flyback, instead of a doubled input voltage at the time of closing the transistor, there will be a reflected voltage + a self-induction voltage of the dissipation inductance?
Great upload 👍
Chokran 🇩🇿👍
Nice explanation, thank you🙏💕
i am thankful
Very good sir
You're great sir, thanks.
Very useful topics. Thank you for the clear explanation..
You are welcome
Great work sir.
Thank you my teacher for this more information I'm happy because this class helped me very much.
Simply to the point ! I liked it very much dear friend ! It helped me a lot. Thank you !
Assalamualaikum dear brother.MashaAllah very useful and knowleadgeble Upload.Thanks for sharing your valuable knowledge.Allah bless you.
Thank you sir this video it very useful
Excellent explanation, respect from Romania.
Many thanks! and best regards
شكراً جزيلاً على الشرح الرائع
thanks a lot. stay blessed
Thanks for a very clear explanation which was easy to understand.
You are welcome!
Good explanation!
Great explanation sir... Keep it up.. Thanks🙏
Thanks and welcome
Nice video sir, I was in confusion about snubber ckt.but now my total ideas r cleared.you are having proper knowledge of electronics.you studied hard for this.God bless you.
best regards and special thanks
it is my pleasure that my efforts are helpful for my viewers
السلام عليكم ورحمه الله وبركاته أخي الكريم احلى بصمه بتوفق ونجاح دائما
Good morning bhai . very useful and informative video
Thank you very much again. I've found empirically that we just divide by 6 the value of power disipated without snubber circuit to know the amount of power dissipated using it.
Thanks for posting this video.
You're welcome
Long time my friend, you are the best and your channel is doing so well, thank you for visited back, will continue to support each other. Please stay safe
Very beautiful, artist👏👈👍
Assalamualikum. Excellent. Thank you very much for making people understanding very easily. Also Thanks again for your hardworking on behalf of making the video from start to published
You are most welcome
best regards and special thanks
اكثر من رائع...شكرا لك استاذ جزاك الله خيرا على اسهاماتكم....
thanks a lot dear brother
Think you so much great dear brother...
Like very nice so beautiful good wake 👌👌👌😍😍❤️❤️
Good Morning & All The Best My Dear Brother
awesome your my idol
@@HaseebElectronics ty sir i want to know about smps pls i will keep sharing your vids
I am also from electronics field but this type of explanations still not found any books thanks for very useful information 👍👍👍😁
Great video my friend! What am I saying. Another Great video!
thanks, master
1st like
NYC tutorial my friend 👍🏻👍🏻👍🏻👍🏻👍🏻
Hai sir,
It was awesome explanation and I have four questions.
1.for peak current calculation formula where 3.13 value is come from?
2.is (tf) value is given in datasheet r how we knw DAT (tf)value.
3.last formula for transistor wattage where 6T is came from?
4.In which way the resistor will discharge the charges at transistor "ON Time"
These are my question please give sir to these question to complete this topic sir...
Same I am also not understand this values please guide
Tf is the delay in fall time which is from datasheet and watch once again video to know how does the capacitor discharges during transistor ON time.
But I still did not get answers for 1st question and 3rd question. Here I have added another question.
5. In the formula R1 = Ton_min / (3*C1), What is 3? Are 3.13, 6T and 3 assumption? If yes, what is the base for these assumptions?
Only Haseeb can answer these questions
Thank you so much sir your video helped me understand this snubber network concept very easily, the only calculation part whr i stuck was the last formula where you calculated the pd with rcd snubber which came to be 1.38 Watts, i just wanted to know why we multiplied the T by 6 or to be more precise where the number 6 came from in formula.
Thank you for the fantastic video, it was very informative and well presented and now I understand what a snubber circuit dose and how and where to use one 👍
Do you have videos explaining any types of circuitry other then Smps?
Perfect 👌
thanks a lot. stay blessed
123👍
Impressive teaching regarding modern technology
thank u sir
thanks a lot
36 great uploading bhai 🙏
Hi Haseeb,
Are you still checking the comments? If yes, Could you answer the following questions? . Answers to these questions will help so many of your channel followers like me.
1. How did you consider 3.13 in the Ipeak calculation?
2. How did you consider 3 in the R1 calculation?
3. How did you consider 6 while calculating transistor power dissipation after adding snubber circuit?
The explanation of the circuit and calculations are awesome
Reply about the 2, the voltage in capacitor is reduced almost to zero after three times time constant (3RC), because U*e^(-3) and the energy of capacitor in RCD is expected to release over during T_on.
Reply about the 1, 3.13 should be related to topology of the circuit, only if you can calculate the I_pk and take some margin into account in your applications, the reason about the value, 3.13, can be ignored.
Reply about 3, the value, 6, may be empirical resulted from various experiments in their company.
You're professor!! You should teach in University. Very clear and understanding the concept well..
please accept my best regards and special thanks
Explendid and clever explanation .Very practical as well . Congratulations ! Since my application is based on a 200v , H bridge IRF740 at very low frequency( 0,3 to 1,5 Hz) following your steps I've got 1,23 uF and 0,54 ohms for 3,13 A Ipk .(Hope it is correct ...) but how the RCD should be wired to the two lower mosfets ?
plss sir make a vids about those capacitor on primary ground and secondary ground /hot and cold
Yes i would also like to watch a video about the coupling capacitor which links the hot and cold ground
Thanks for the explanation.
In an atx power supply, I found the mosfet short and diode blown. I guess it's the diode from the snubber circuit.
For replacing the diode is there a special requirement like fast recovery, amp rating otherwise they get shorted again?
Why did the diode go short in the first place?
Very nice explanation ! How do you select the diode type in this case ? Based on I peek = 0.85 A and diode response time ?
Hello Sir, I am grateful for your explanations, Please can you do a video about the capacitor (ground decoupling capacitor). precisely, the purpose of that capacitor which links cold and hot grounds and how we can troubleshoot its failure
@@HaseebElectronics Thanks Sir in advance, precisely the capacitor connecting the auxiliary winding ground(hot) to the cold ground
Sir do a video for ac line filter calculation for smps design
Extremely very good explanation about this topic. in fact, the best one I've ever studied. Can I ask your opinion, since I've seen simulations where when using 12 Vdc of power source voltage, they have measured up to 2500Vdc of spikes, can a such low power source produce such a High voltgae spikes in a coli? I'd appreciate your suggestions. Thank you.
best regards and special thanks
yes
if snubber circuit is not used, these spikes might reach at this amplitude due to winding ratio, reverse emf, switching topology, load, leakage, core permeability
so the voltage stress spikes may reach at this level
@@HaseebElectronics Thank you for taking your time to help and respond. God Bless you.
Hi sir
Please can you make video on bridge rectifier smoothing capacitor capacitance value and also smps output capacitor capacitance value calculations
Thanks a Lot ! Hard to find such a nice explanation! I have assembled a full bridge excited by one TL594 IC at 12,5 kHZ .conected to two IR21844 IC for Mosfet drive . RCD is 2,2uf / 15 ohms and fast diode UF4007 .Mosfets are ok but resistors become extremely hot . What is wrong ? Can you help me ?
welcome and special thanks for appreciating my work
in resistor heating up issue, did you selected the correct wattage. 15 Ohms looks very low value, please check it again
Asalam Aalaikum
It has been so long, I was following you silently, be blessed for your initiative you made of teaching us, you are amazing teacher bcz most of every thing I know about flyback converter it is bcz of you, thx for this, but I want to ask you a favor of clarifying fall time (Tf) you said in this tutorial (284) RCD snubber circuit, you said that MOSFET used in that example has 0,3us of fall time(Tf) after I tried to read more than ten datasheet then I realized that there is no MOSFET with fall time of that range, I saw instead delay fall time(Tdf) may probably be in that range.
So, I want to ask if you may give us again some other clarification if that 0,3us of that MOSFET was Td or Tdf?
Be blessed, thx.
وعليكم السلام ورحمة الله وبركاته
the tf (fall time) or tdf turn off delay or td or td(off) or time delay falling edge (tf) have the same
the example in that tutorial was just to give the concept
we must have to follow the datasheet for exact calculations
so greattttttt.thanks master i have a problem 🙏🙏🙏.please answer.my resistor why is been destroyed.
increase resistor value. and may be it is low wattage resistance than the required wattage.
check diode in series as well
check capacitor as well