
Introduction to the course. What are the applications ? How does Digital Electronics Come into Picture ?
Use this coupon to get promotional discount :
https://www.udemy.com/course/digital-electronics-made-easy/?referralCode=7A322826E7E9FAFE43CC
Here we learn about the most basic building blocks of any processor - Logic gates. How can we represent most common examples using logic gates ?
Use this coupon to get promotional discount :
https://www.udemy.com/course/digital-electronics-made-easy/?referralCode=7A322826E7E9FAFE43CC
We will learn about the laws made by some self taught genius mathematician and how they are applied in Digital Electronics
Use this coupon to get promotional discount :
https://www.udemy.com/course/digital-electronics-made-easy/?referralCode=7A322826E7E9FAFE43CC
This is the last lesson of the basics. We learn what's Demorgon's Laws and how it can help simplifying boolean expressions
Use this coupon to get promotional discount :
https://www.udemy.com/course/digital-electronics-made-easy/?referralCode=7A322826E7E9FAFE43CC
In this lecture we learn about K-Maps and how they help in simplifying boolean expressions
Use this coupon to get promotional discount :
https://www.udemy.com/course/digital-electronics-made-easy/?referralCode=7A322826E7E9FAFE43CC
In this lecture we learn about 3 and 4 variable k-maps and tricks to quickly identify patterns
Here we Discuss K Maps with 4 variables and Solve some examples with crucial corner case conditions
We also start the topic of Numbers Systems - Decimal, Binary, Octal, Hexadecimal,etc.
In this lecture we discuss converting numbers from one system to another and also tricks to get it done faster
We also discuss introduction to signed and unsigned numbers
WE are designing a digital circuit ! In this lesson we discuss how to go about designing half adder, full adder, full subtractor and how to extend it as per our requirements
We have just started learning to design circuits, so one question that pops up is How fast do the circuits really work ? Can we optimize it ?
Here we learn what are timing diagrams and how they can be used to understand the behavior of the circuit.
Introduction to Processor Speed, Memory Elements like RAM,ROM,caches
Latches Understanding
Asynchronous Circuits and Behavior
Why are Flipflops needed when we have latches?
What are the advantages of Flipflops over Latches ?
We design a Ripple Counter and Synchronous Counter that can be used for festive lighting !
We learn to build our First Practical Full Fledged Digital Circuit! It's going to be Legen- Dary!
This is the Final Lecture of the Series where we design a FSM with both Mealy and Moore Machines
This course is being covered by a Semiconductor Industry Professional with about 4 years of industrial experience with Masters Degree in Embedded Systems and will have elements of practical application throughout the course for better understanding. Digital Electronics course is essential for many graduate courses and forms the basis for many other courses. It's important to get these basics right to build strong foundation.
You can quickly go through introductory lectures which are available for preview and signup for the rest of the course!
This course will help the student :
1. Understand Digital Electronics from Applications point of View
2. Not mug up but grasp concept in a way which will never be forgotten
3. Quizzes are carefully setup to make the student's concepts crystal clear
4. Everything from Boolean Algebra to K Maps to FSMs are covered
Check out the initial few lectures for dis counts on the course!