NAND gate as Universal Gate
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- Опубликовано: 30 июл 2024
- In this video, different logic gates (AND, OR, NOT, XOR, etc.) are implemented using only NAND gates.
The following topics are covered in the video:
0:00 Introduction
0:50 NOT gate using NAND gate
1:30 AND gate using NAND gate
2:16 OR gate using NAND gate
3:27 NOR gate using NAND gate
4:00 XOR gate using NAND gate
11:22 XNOR gate using NAND gate
Universal Logic Gates:
NAND and NOR gates are Universal Logic gates because using any of the two gates alone, it is possible to implement any logic function. And using either NAND or NOR gate alone, any logic gate can be implemented.
In this video, it has been explained that how to implement any logic gate using NAND gate and thus how NAND gate is a universal gate.
Digital Electronics (Playlist):
• Digital Electronics
This video will be helpful to all the students of science and engineering for understanding, how NAND gate is a universal gate and how to implement different logic gates using the NAND gate.
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Music Credit: www.bensound.com Наука
Timestamps :
0:00 Introduction
0:50 NOT gate using NAND gate
1:30 AND gate using NAND gate
2:16 OR gate using NAND gate
3:27 NOR gate using NAND gate
4:00 XOR gate using NAND gate
11:22 XNOR gate using NAND gate
You are doing a great job sir.. may this returns in a huge blessings back to you.
Sir teaching is very clear and simple.
Thank you sir for making these videos .🙏🙏🙏
very helpful and great explanation. cheers
Absolutely nice and useful 👌👍
عليه الطلاق بلثلاثة انت بتتكلم كلام زي الفل
VERY USEFUL
Nice explaintion 👌👍👌
Thank you 😊
Good explanation
will you able to teach in hindi same topic it will help so much student
3:24 sir why we can't add all three NAND gate in series to make OR gate with different inputs
I didn't get it. In series means, output of one NAND gate to the input of another NAND gate !! Would you please elaborate a bit.
Wondeful
thanks
Sir it's still difficult to understand that why you have used NAND gate in problem 2,3 intead of NOT gate
This video shows how to implement any gate using the NAND gate. So, that is why, all the logic gates have been implemented using the NAND gate.
@@ALLABOUTELECTRONICS okay sir
@@ALLABOUTELECTRONICS sir why we have used two NAND gates in implementation of OR gate
Its very easy to understand 10:12
Thank you sir 10:29
I have understood but for basic learners they will face problems.
Tysm brwww
How do we better understand the Boolean algebra you use?
Through practice. By solving some examples, you will get an idea, how to use different properties of Boolean Algebra.
@@ALLABOUTELECTRONICS because im a total noob and retard, can you please tell me how many nand gates we need to solve Y=(AB+BC)+BD? I suspect at least 6
@@ALLABOUTELECTRONICS is AB+BC+BD=A'B'*B'C'*B'D'?
I would recommend you to go through digital electronics playlist in sequence, where I have covered different Boolean Algebra laws and also some solved examples. By going through that, you will get most of your answers. If you still have any questions after that, then let me know here.
3:20
here is a problem with the presentation of diagram !
Yes, there should be A' after NOT gate. But I hope, you got the point.
@@ALLABOUTELECTRONICS yeah thank you
Check fastand implement this
My brain is not braining
😂
Screen is not visible clearly because of this sentence
Just turn off the subtitles in the video settings. You will be able to see the full screen.