How Flip Flops Work - The Learning Circuit

Video quality	The size	Download

Информация о How Flip Flops Work - The Learning Circuit

Название	:	How Flip Flops Work - The Learning Circuit
Продолжительность	:	9.03
Дата публикации	:
Просмотров	:	421 rb

3:35 how is Q going to become 0 when not Q is always gonna be 0 with at least 1 input of 1
Comment from : J_ordinary

It's bad when the two get HIGH I know I know
Comment from : Kahn

One of the best examples with animations Not to bashed hindi content but this is more undertandable
Comment from : Jose T

Why is everyone whistling their letter "S"? It's a bizarre phenomena It's like everyone's mirror neurons are working too well
Comment from : Georgios B

from 3:00 -- ??! GND on SET and RESET during all time?!?!
Comment from : Купи књигу

Thanks for uploading this well explaining video Very useful !!!!
Comment from : Hardeep singh

So the opposite of biQ/i/b is biBAR be Q?/i/b brbr{I will see myself to the door now🤭}
Comment from : Allan {aka RocKITEman}

everything makes fucking sense when she explains
Comment from : علی مالمیر

If you hard wire set and reset to ground, how does it ever go High?
Comment from : Scott Clark

Your teaching is easy to understand Thanks dear! Who is speaking here, Marcos from Brazil!
Comment from : Marcos

How does SET high makes Q high??
Comment from : Ifraz Ali

Something like the 74LS74
Comment from : DAVID GREGORY KERR

Very nice 👌 🎉❤❤❤❤❤❤😊🎉🎉🎉🎉❤❤❤❤❤❤❤❤❤
Comment from : A Tech-Soul

Nice information TY
Comment from : Armando Borges

Can U show the detail electronic components citcuit inside SR flip flop to make more understanding itthx so much
Comment from : darma yuda

In this one video here, at least in my opinion, we have the foundation of all RAM, all flash memory, and the reason that logic circuits had to shrink between ENIAC boards in 1945 and the creation of the home computer
Comment from : ObiWanBillKenobi

Flip flops that use a few extra parts are so much easier to understand An SR latch made of an OR Gate, AND Gate , Inverter combination is a good place to start
Comment from : mark finn

I hope people can understand what she is talking about She explains too fast normal people and could confuse many people This is not a video from people beginners
Comment from : Jeffery Austin

Hi! I can't find the missing episodes (54-59)
Comment from : Fati & 3M

🫶🥰
Comment from : kyaheric

Thank youuuuu
Comment from : Niranjana Prasad

Go on U R the best
Comment from : عبد الجبار ابراهيم

Very excellent video Very helpful and meticulous Just what I needed God bless you all at the Learning Circuit!
Comment from : Michael Goth

please remove this video Review and release many mistakes
Comment from : Nara49 Veera

When both Set and reset are tied to ground as shown in the picture how can Set or Reset go high?
Comment from : Nara49 Veera

I don't remember buying tickets to the gun show Oh well, I'm not complaining ;)
Comment from : Tadesan

نعم
Comment from : Mohamed Sameer Alali

Thank you for making sense of this so I can retake my Digital Logic final
Comment from : Hyjinki

she should speak slowly tbh
Comment from : Hernan Crespo

Thanks!
Comment from : Brad Miller

Q-bar Flip Flop, Q-Bert Now you know the origin of that game Congratulations
Comment from : Lil Puppy

Great, thanks for explaining nothing of how it works You just shows what it does To show how it does it you need truth tables and show the outputs in each case Disliked
Comment from : Sankha

The diagram for the NOR gate RS flip flop is incorrect The SET input is on the NOR with Q-NOT output and the RESET is on the NOR with Q output There is no way for Q to be HIGH ( 3:10) with either of the inputs to that NOR gate also being HIGHbrThis video has been out for nearly three years and no one has noticed this?
Comment from : Retired Engineer

At 3:39 you show reset high and set low when they are both connected together and to ground You can't have two levels on the same wire at the same time, and in the case of TTL at least 0v wins
Comment from : Roger Barton

You have mistakes on your schematic, set and reset pins must be changed (sorry for my inglish))))
Comment from : Виктор Холодов

It's so annoying that it's taken me this long to finally find someone who can teach this in the most understandable and simplest way possible Thank you so much
Comment from : V4 Dynamics

A, brbrSince you plan didn’t succeed, you have appeared again to torment myself
Comment from : JJOSEPHINE ANITHA

sometimes called bar B que?
Comment from : TalkingGIJoe

232 both inputs are shown grounded They should have a pull-down resistor to ground, otherwise your flip-flop will neither flip or flop!!
Comment from : Cornwall Online

Hold up why do i feel this video is factually wrong in some parts
Comment from : Gab

OMG WHAT LANGUAGE WAS THIS IN I AM CONFUSED TO THE MAX
Comment from : Its Mee

I am IndianbrBihar
Comment from : om prakash ji

Digital electronics👍👍
Comment from : om prakash ji

Please suggest me a best beginner digital electronics book please
Comment from : Angad Singh Chaudhary

doesn't a flip-flop have something to do with that time traveling paradox of a person going back in time and becoming their own grandfather/grandmother? A gate's output becomes an input
Comment from : TheSulross

3:07 is incorrect
Comment from : Stelios Posantzis

Weird,scope signal right to left, I can’t get use to it!
Comment from : Arlene Stanton

Obviously she didn't actually check the logic in her diagram, the set and reset inputs are reversed Also, you would pull them down with resistors, not attach directly to ground
Comment from : mikeduino

I wore flip flops to the beach once The pins were like stepping on sandspurs but the chips enjoyed seeing their silicon ancestors
Comment from : Jason S

OMG that Mario Galaxy t-shirt! I want one too!
Comment from : Smiley

🌟
Comment from : sam min

best video found ever about electronics
Comment from : Tanveer Ahmad

wow
Comment from : Tanveer Ahmad

jjj
Comment from : Syed Noor Ali

yeah trying to study for a final tm no one in the class even knows whats going on remotely and i finally have an idea
Comment from : Amit Assasson

Love you guys!! so amazing so amazing I'm struggling with digital eletronics at university And I really want to learn it But sometimes I feel lost cause I don't know how useful it is I mean Why do I need a flip flop? How can it change lives? sometimes it's so theorical and I really need some basis Even the lab it's really theorical I mean How can I save a life with all this knoledge? This is my point I really believe it's useful but I need someone to tell me about it
Comment from : Carolina Ferreira

😂😂😂😂😂😂😂😂😂😂🚕🚕🚕🚕🚕🚕🚃🚃🚃🚃🚃🚃🚃✈✈✈✈✈✈✈✈✈✈✈✈✈✈
Comment from : Sami Chebil

강의하데 원리을 설명 안한다옛날에도 그랬고 지금도 마찬가지다br공부 원리 동작원리 절대 설명 안하지
Comment from : 최용갑

u saved my life !! thank you thank you thank you !!
Comment from : Axelmad2726Q

I thought flip flops and latches are not the same, why are you able to use them interchangeably?
Comment from : Natalie Romero

I hope spk Chinese PLS
Comment from : 靳歙

That's not flip-flop, lady It is latch You ahve missing the basic understanding of the logic circuit
Comment from : Truth Matters

kind a confusing
Comment from : Azfar Suhail

I got lost when active-low was introduced I can't understand how the circuits behave differently if they are identical, and all that has changed is putting a bar over the S and R
Comment from : Vincent Causey

Is it possible to make an LED on/off using a single push button switch and a flip-flop?
Comment from : Debojit Acharjee

🤣NICE AWES0ME C00L_ VIEW * 🍨🍚🍚🍚🍚🍚🍚🍚🍚🍚🍚🍚 💨 🍮 🥧 🍡 🍧 🍨 🍦 🍰 ❗ 🐬 🌺 🌺 🌺 🥀 🌹 🌷 🍁 💐🍂 🐡🐄 🐅 🐆 🐯 🍣 🍣 🍣 🥘 🍨🍨🍨
Comment from : Eugene Elkin

Wow awesome tutorials
Comment from : Sebastian Thomas

how to design edge trigger circuit using flip flop
Comment from : SURESH I

shitty video low hight , low hight I would prefer someone who speak normally
Comment from : alcazard

Finally I discovered a good karen
Comment from : sanjav

Thank you
Comment from : Sudharaka Fernando

Any ANU COMP2300 students?
Comment from : Qinglong Meng

I wish you had put a link to the other videos mentioned in the video Having a hard time finding those
Comment from : MATH FAQ Answered

Draw a jk flipflop with 3 inputs
Comment from : Akhrie zashu

Good work
Comment from : Learning In Students Cafe

Wellfull and helpfull video
Comment from : E-EARTH discover

Please circuit, two inputs output
Comment from : Ryan Castillo

sis you have error on 3:13 minute it should be when set is high q dash is latched to high and q is low " the opposite" i hope you check it by making simulation ( nor gate will give high only if both input is low) also the set and reset in opposite position
Comment from : Fahad Khamas

Thank you! Until this video, I was totally stumped about how that feedback loop works
Comment from : Young Hands Films

I find these interesting, you can use the logic for managing user interface script/code, they were designed for tasks emulated in paradigms you find like in screen buttons, toggles, timeouts
Comment from : Doug Steel

Very nice instruction but I am confused How is it possible that the flip flop examples (time 2:42) show both gates with set and reset inputs connected together denoted as ground, and that independently each input is said to be at different states, either high while the other is low or vise a versa?
Comment from : James Vitello

Great My homework from the video is to figure out what I came here to figure out Welp, there went 8:49 of my life :/
Comment from : LexieAssassin

All I can hear throughout the whole video is High, Low, Active high, Active low I'm sorry but you need to work on the presentation It's very hard to grasp what you are saying
Comment from : Vijayakumar M