Latches and Flip-Flops 1 - The SR Latch

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Название	:	Latches and Flip-Flops 1 - The SR Latch
Продолжительность	:	12.14
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Просмотров	:	961 rb

T5ŕ
Comment from : than tun

lifesaver, thanks so much
Comment from : Trash Mann

Muhammad ridhauddin binti yahyah
Comment from : zaiton yahya

Clear and concise, it shows just how well you know your stuff Thank you so much
Comment from : Alejandro Medina

0:00 good subs bro
Comment from : Alessandro Faggionato

Thank you for the practical application at the end!
Comment from : ChristianCompiles

Amazing explanation!
Comment from : Brandon Samuel Cruz Silva

It's not Hindi!!!! 🙏
Comment from : EKcorp

شرح موفق
Comment from : ادخل وشوف

hi i use your education to make cool contraptions in mindcraft thax
Comment from : GNV International Ambassador

Thank you!brThank you for you hard work, as a scientist and an educator!brThank you for putting the time into these videos!brThank you being British, as sometimes I forget I'm not watching a great BBC documentary!brThank you, Sensei! brThank you!
Comment from : Jd B

Thank you so much for this easy to follow explanation! My professor has zero interest in actually teaching lessons in class and just tells us to read the text book I might actually pass this class now😅
Comment from : brokenandcracked

How about "Are there 12 combinations of 1s and 0s that can be applied to the inputs excluding pulses?"
Comment from : mark finn

My comment was not worded correctly but the fact that it can not be know first is correct
Comment from : mark finn

At 3 minutes and 21 seconds into this video how exactly does someone know that the top output is a 1? When what you need to know is that the top input of the set inputs OR gate is a one when bottom input of the reset OR gate needs to be know first to know that
Comment from : mark finn

super helpful thankyou!
Comment from : Oka Bae

Thank you sir, great explanation
Comment from : Ash

how to avoid race condition?
Comment from : Silviu KTMS

This is the first video I've come across that explains how these latches actually work and doesn't just input the values of the truth table onto a graphic Thank you! It finally makes sense
Comment from : Cosmos

The animation of the highs and lows are what really helped me understand the concept, great work 🙏🙏
Comment from : Joh

Thank you very much, this part was really difficult to understand well before this video
Comment from : Nohook

Amazing explanation
Comment from : Fish

Really thankful for this!
Comment from : BIRDYCOD

Thanks a lot
Comment from : Shafiq

Thank you for making this video My professor is terrible at explaining these latches
Comment from : Edward Duda

Did you make a mistake 8:52 when you said that the SR input are held high? Because isn't the NAND logic latch are active low like you said at 10:22 later?
Comment from : 阮惟天恩

Nice :)
Comment from : TICTAP [SMG Music]

Might be the most confusing thing in history
Comment from : CatnamedMittens

Purple burglar alarm
Comment from : Tom TomTomTom

you are a life saver, now I understand the concept Other youtube channesls were going through a lot of what you said like we already knew This is easy to understand for any beginnger
Comment from : Health Factory

How does the electricity get captured between NOR and Q? Shouldn't it dissapate somehow as it looks likes the part between NOR and Q is storing electricity like some kind of battery? The truth table of NOR looks strange as well, how can you get voltage output out of no voltage inputs?
Comment from : beegDIGIT

the way you talk is so fucking annoying
Comment from : Kyopa

very boring so many ads playing again and again
Comment from : Subhanullah Danish

The same guy who read Harry Potter's audiobook?
Comment from : adzani emma

Although I don't like typical latch circuits your videos still seem accurate
Comment from : mark finn

Soon maybe I will send or describe my favorite toggle flip flop circuit Easier than the jk flip flop if you ask me
Comment from : mark finn

The only cross coupled circuit I can really cope with so far is the one with 2 inverters
Comment from : mark finn

I understand how it works but I don't know why
Comment from : Budi Herman

Dude my teacher is so ass He starts talking to us like we already know this stuff Thank you for the video
Comment from : Moody

Thank you, the video really helped My problem was how it could work if they both simultaneously need input from the other
Comment from : Babafunmise Adebowale

great explanation! thank you so much
Comment from : Emilio Giron

The last comparison is wrong for the NAND gate SR latch It shows high inputs and also high value for Q It should be low value for Q
Comment from : DotComWhiz

Great video! It helped me understand latches just fine The example at the end was great It is definitely amazing what simple binary logic can do !
Comment from : Eduardo Sanchez

I want to be an SR Latch when I grow up
Comment from : D G

Thanks, this was very useful I appreciate your explanation of the outputs being denoted as inverse and the explanation of the invalid state This part gets glossed over in many other people's explanations (probably because they don't have a very deep understanding of the thing they are attempting to explain) Thanks again
Comment from : Mandrews

Perfect video for begginers
Comment from : Dani (not the dev!)

So i guess the important thing to remember is R resets Q to 0 and S set Q to 1?
Comment from : Tenny

Thank you for explaining it so simply!
Comment from : Георги

Awesome
Comment from : Cave Linguam

A positive feed back loop seems like you scratch my back and I'll scratch yours but the thing I didn't understand here is why q has to be high initially even q compliment can be high initially, looks like chicken and egg problem to me
Comment from : Victor Maxwell Peters

Wow - a bunch of years later and these videos are still fun 🙂
Comment from : Steven

5:20 PULSES
Comment from : MechVex

you sir are a life saverpls continue this awesome workyou are so helpfulprobably more than you think
Comment from : HKC Amanda

Why out put q has to be 1 initially it can be q bar also this will give rise to egg and chicken problem
Comment from : Grace Peters

Brilliant Thanks
Comment from : W Thornton

Great vid! Also, your voice kinda reminds me of one of those text to speech presets
Comment from : [-0LTU Iiii307n

best video on electronics ive come across so far
Comment from : Lio_

Thank you so much, your video helps a lot My textbook didn't explain the nor gate and the nand gate well like you did and I came across to your video that I am start learning the flip lops and latches This video is very great!
Comment from : Hermione Lau

i doesnt understand how that can be logic the only things that can make this circuits work for me is if one output of a gate is produce before or after the second gate but no one talk about it
Comment from : lorenzo mezzabarba

This helped me out greatly on a project, thank you very much!
Comment from : AJ Piskor

W video
Comment from : Bradley Stephen

This is a great series of videos on latches & flip-flops!
Comment from : Electronics4Engineers - James Cleves

I come to this video everyday and I still don't understand shit I am always confused at the first stage of the SR latchbrbrEDIT: It is like trying to understand Infinity It's a fucking loop There is no start and no end
Comment from : Hrishikesh Kashyap

Sounds like I’m being taught digital electronics by Jason Statham lol
Comment from : Kevin C Hall

Finally excellent source for Logic Circuit, Thanks from Turkey
Comment from : Yusuf Kenan Turak

I felt very sophisticated watching this tutorial
Comment from : Mattias S

Thank you!
Comment from : Fernanda Bottecchia

Fuck my prof
Comment from : 0j2

fucking 10/10 amazing explanation thank u so much
Comment from : Ryan

your video is so good that even my teacher asked us to watch this video instead of teaching about it in class
Comment from : Rush

Jo dikzak
Comment from : Wiebster

why is that when the r and s are both 0, q is 1 here? that is before anything is saved by the flip flop? a book i'm reading has q being 0 at rest before anything is saved
Comment from : assasinon1209

Excellent explanation,
Comment from : Educa LK

very good video thx :)
Comment from : xeniumoxidmovies

dynamic RAM uses another method as it is much cheaper, a capacitor and transistor (super small of course)
Comment from : johnpro2

thankyou
Comment from : Nandita Satish

Thank you so much for this!
Comment from : Jellllly

So when both the inputs are 0, is one NOR gate behaving as a 1 input NOR? Are both the initial inputs applied at exactly the same time?
Comment from : Jas

What is so confusing about these is their initial state The seemingly concurrent nature of the schematic makes it pretty hard to deduce what exactly is expected of it without further explanation
Comment from : Very good