3 Bit Asynchronous Up Counter
HTML-код
- Опубликовано: 2 июл 2024
- Digital Electronics: 3 Bit Asynchronous Up Counter
Contribute: www.nesoacademy.org/donate
Website ► www.nesoacademy.org/
Facebook ► goo.gl/Nt0PmB
Twitter ► / nesoacademy
Pinterest ► / nesoacademy
engineering colleges should pay him for doing their job
True ❤👌👍
Through paid ad la kan😏
Kerala Technical University should pay first
Exactly!!
@@tom-wz5le Lol
Brother your channel getting famous day by day, everyone around the world utilizes your channel for studies... A hearty congratulations 👏🙌
jesus, my only regret is not watching your videos sooner. you are really good!! way better than my own teachers lol
thank you so much!!!
Maverick PT Same here
Xctly 💯💯💯
The best videos on Digital Electronics I have seen on RUclips. Thank you for having spent your time helping us, student, with these videos.
Brilliant !!! as a beginner to digital electronics I find your lessons so clear, very well explained and easy to follow, most importantly I am understanding what is happening in the circuit rather than getting lost, subscription added and I look forward to learning more watching your other videos. Thank you for the great job :-)
I happily postponed studying everyting to the eve of my semester exams because I know I have your videos to save me ❤. You are such a saviour to lakhs of students ❤.
Just Magnificent. Videos are concise and full of important points on digital logic design.
clean and clare lecturing
I have watched almost all of ur lectures on digital electronics they were very helpful...u did a great job sir..
Thank you so much sir. You helped me a lot in this subject! May God bless.
watching this 5 hours before my exam lol
3 hours here lol
24 min lol
@@risabhudgata6620 Lmao 😂🤣🤣😂😂🤣🤣
After exam haha
Lucky u
ur videos are very very helpful.. spcly just before the exam this type of videos are very much required.. thank you for this help...
The best presentation for digital electronics
Thanks a lot
these presentations were so very useful... :)
Loved all the videos
excellent work! understanding each n Every part now. Thnk you so much!
em cảm ơn anh nhiều ạ. Mặc dù em là người Việt Nam nhưng mà nghe cách anh nói rõ ràng bản chất vấn đề, nói đúng trọng tâm và nguyên tắc hoạt động, em mới cảm thấy tại sao người Ấn Độ lại giỏi CNTT đến như vậy, tuyệt vời !!!. Hiện nay em đang là sinh viên Bách Khoa K22 Khoa Khoa Học Và Kĩ Thuật Máy Tính ạ! Thật sự những điều anh giảng dạy quá bổ ích luôn ạ.
Hehe sinh chào tiền bối, em cũng đang lú môn hệ thống số :)))
@@Hatsumi_candy3 kkk, thi tốt nha em
Your lecture is so good and understandable...thanks...!!
Your lectures help me lot in my exams. Only because of your lectures i understood whole concepts of digital electronics at last time of exam also.You help me lot. So thank you so much sir.....
Thanx bro👏 u made it easy for understanding. Ensure all ur videos are safe for the future too have back up in servers too.
thanks neso for this wondeful lectures
I love this guy already!
Explanation was Excellent
sir ur making subject look so easy thanks
This is perfect for learning. Well done
Great teaching 👏Thank you sir ❤️
Thankyou for your contribution towards our studies
Such a nice teaching its only possible for you
Thank you so much sir, you are making soo many learn the subject
great class i have ever seen for electronics
I respect you! Thanks a load!
Thank you ! You make it easy to understand.
Excellent Explanation..👏👏
Thank u very much NESO academy ...my concept is 10 0% cleared after watching these videos...plz upld the devideossign of modulo 5 counter...it will be great for me...
That was a great lecture. Thank you again! =D
awsome teaching way ...sir !!!
very good explaination by you sir ,Thank you so much
You are great. Just great. very great. I understand everything you say on first go only. Do not stop ever. I see your videos at 3x/4x speed to cover many things in short time. Your pace is slow so increasing the speed doesn't impair audio clarity. DO NOT INCREASE THE PACE. Its fine.
it's just awesome sir👌👌
hatts offff
really helpful
awesome teaching skills
Very Nice Work Sir!
Thank you Sir ❤️🔥
This guy is more than a lecture nice work
great helped so much smart guy. thank you so much.
Outstanding
आपका बहुत-बहुत धन्यवाद। मुझे पाठ अच्छी तरह समझ आया, आपका धन्यवाद। इराक से नमस्कार
Thank you sir
Super clear lecture 😊😊
Thanks!
Well explained 🙌
sir....ur teaching is really soo awesome...but a kind request that please give your lecture number at the topic head...
You are great!!
Great explanation sir 😁🤩
really helpful for me.. thanx
Thanks you so much sir
U r great sir.....
he saved me !!
Me too .. O:)
@@nesoacademy cutie
@@anjalisachan8651 Appropriate :)
Great sir
Excellent...
dhanneybad neso academy, hamro chiranjibi sir le padhaunu vatheyna dhanna timur le padhayau.
Pidit CSIt 1st sem student 🤣🤣🤣
*Thank you so much you're so amazing*
These Videos are the root Cause of "Make in India"
pls my teacher from uni uses snapshots from your videos in her online classes material💀
If we apply Q©(complement) as clock instead of Q to the 2nd FF in asynchronous counter does the initial state will be zero? Or it will be 1 according to Q©?
Engineering universities like NUST which is no 1 University of Pakistan should pay him for this excellent explanation.
hahah nice joke but i don't pakistan can pay to anyone execpt their army
sir,your lectures are great
i just want to ask you one thing why are you not using preset and clear
Superb...content...😍
Friends watch this is 0.75x speed you will understand better 👍👍
Thanks sir🙏
I ws struggling to umderstand this .. thank u soo much sir.. u wll b the reasn if i pass my test tomorw.. tq
please write lecture no. in the heading of your TOPICS...
It Will made Ur leactures more efficient to find them.
Yes it's really easy to identify
It will *make
just go to the playlist
thank you
Sir can you explain and draw the circuit
"A digital computer has three registers: A, B and C. Four flip-flops provide the control functions for the computer: S is a
flip-flop that is enabled by an external signal to start the
system’s operation; L and R are used for sequencing the microoperations; A fourth flip-flop T is set by the computer when
the operation is completed. The function of the system is described by the following register transfer statements:
S: C ← 0, S ← 0, T ← 0, L ← 1
L: L ← 0, if (A = 0) then (T ←1) else (R ← 1)
R: C ← C + B, A ← A - 1, R ← 0, L ← 1
Design a circuit with minimum components to implement the above operations."
Also, can you make a counter count from 1 to 3 (i.e. odd number of states) ? How would that be implemented with FFs ?
Ty sir
very nice
really...very veryy..helpful fr me..!! the videos of ur's have helpmed me so much to gothrough my grades and exams.....thank u soo much sir...
Thank you soooooooooooooo much
quite good
Splendid
Bravo.....fasinating
WOOHHOOOOOO
Plzz upload videos on logic families
Sir ,if it is not specified the type of counter ( synchronous/asynchronous) in question ,
then what should I need to do
excellent work !!where can i find the lectures ??
Bhai hamare college mein bhi kabi padane aavo
Can we use t flip flop in place of jk flip flop
One Indian guy on youtube always save your semester 😁
Thankyou Sir !
this helped in understanding the 'Async Ripple CARRY Counter' in VLSI
sir, the only thing that it can be said for you is "YOU ARE THE BEST" keep going pro👏
thankyou sir
Omg, this man is really nice, I sincerely love this tutorials, well explained and easy to understand. Thanks man
❤❤❤
You explained something in 3 minutes that took my UNI professor 20 minutes :O
Sir...why toggling is required in counters?
Awesome
why have you taken output a as the least significant whereas output c as the msb ?plz explain
thank you but please tell me which software are you using ?
In synchronous counter, what is the purpose of finding the output of 1st flip flop??
Plz answer
Is it possible to construct a arbitrary sequence counter by using asynchronous counter
Can we do the same by positive edge triggering
Why can't we get an output directly from the clock itself? For example, you made a 3-but counter.. If we consider clock as the 4th bit (LSB), that would increase the states to 16. Am I missing something?
what will happen if i take +ve edge instead of -ve edge triggering