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Implementation of boolean function using multiplexer in simple way(HINDI)

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This video explains how to implement logic function using multiplexer in simple way.
Implementation of boolean function using multiplexer is the commonly asked question in the exam. How to implement function using multiplexer is explained in this video.
Share this video with your friends and help them to understand this super-easy concept!
Don't forget to like, comment and subscribe to Electronics Subjectified.
Reference books -
1. Fundamentals of digital circuits by Anand Kumar -
2. Modern digital electronics by R. P. Jain -
3. Digital Design by M. Morris Mano -
* Derivation of RC phase shift oscillator -
* Derivation of Hartley oscillator -
* Implementation of boolean function using multiplexer-
* Implementation of logic function using 8:1 multiplexer -
* 5 Bit Magnitude Comparator using IC 7485-
* 16 to 1 multiplexer using 8 to 1 multiplexer-
* 6 to 1 multiplexer using 2 to 1 multiplexer
* Triangular wave generator -
* Basic and practical integrator -
* Wein bridge oscillator -
* Instrumentation Amplifier derivation-
* Wein Bridge Oscillator using op-amp-
* Schmitt trigger basics-
* Inverting Schmitt Trigger-
* Astable multivibrator using opamp-
* Monostable multivibrator using op-amp -
* Difference between channel coding and source coding-
* channel coding in digital communication-
* Line coding -
* Shannon fano coding -
* Huffman coding -
What do I use for making videos ?
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Do you face difficulty in understanding concepts during lectures? Are you one of them, who learns quickly when a friend teaches moments before an exam? Then this channel will be your best friend.
Learn basic topics of subjects like Integrated circuits, Communication systems, Digital logic design and basic of electronics engineering.
I will help you to start with your academic subjects of electronics engineering by clearing basic concepts in the simplest language.
DISCLAIMER: Links included in this description might be affiliate links. If you purchase product or service with the links that I provide I may receive a small commission. There is no additional charge to you! Thank you for supporting Electronics Subjectified so I can continue to provide you with free educational content !
Implementation of boolean function using multiplexer is the commonly asked question in the exam. How to implement function using multiplexer is explained in this video.
Share this video with your friends and help them to understand this super-easy concept!
Don't forget to like, comment and subscribe to Electronics Subjectified.
Reference books -
1. Fundamentals of digital circuits by Anand Kumar -
2. Modern digital electronics by R. P. Jain -
3. Digital Design by M. Morris Mano -
* Derivation of RC phase shift oscillator -
* Derivation of Hartley oscillator -
* Implementation of boolean function using multiplexer-
* Implementation of logic function using 8:1 multiplexer -
* 5 Bit Magnitude Comparator using IC 7485-
* 16 to 1 multiplexer using 8 to 1 multiplexer-
* 6 to 1 multiplexer using 2 to 1 multiplexer
* Triangular wave generator -
* Basic and practical integrator -
* Wein bridge oscillator -
* Instrumentation Amplifier derivation-
* Wein Bridge Oscillator using op-amp-
* Schmitt trigger basics-
* Inverting Schmitt Trigger-
* Astable multivibrator using opamp-
* Monostable multivibrator using op-amp -
* Difference between channel coding and source coding-
* channel coding in digital communication-
* Line coding -
* Shannon fano coding -
* Huffman coding -
What do I use for making videos ?
.
.
.
.
Do you face difficulty in understanding concepts during lectures? Are you one of them, who learns quickly when a friend teaches moments before an exam? Then this channel will be your best friend.
Learn basic topics of subjects like Integrated circuits, Communication systems, Digital logic design and basic of electronics engineering.
I will help you to start with your academic subjects of electronics engineering by clearing basic concepts in the simplest language.
DISCLAIMER: Links included in this description might be affiliate links. If you purchase product or service with the links that I provide I may receive a small commission. There is no additional charge to you! Thank you for supporting Electronics Subjectified so I can continue to provide you with free educational content !
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