Digital Electronics [Videos, Notes, Tests]

This Digital Electronics course is specially designed for students who want to enter the field of Embedded Systems, VLSI, and other branches of Computer Science. It is also helpful for working professionals. This Digital Electronics is a unique course in the online marketplace.

Prof. Hitesh Dholakiya is an Electronics and Communication Design Engineer with over 15 years of experience in the core Electronics/Electrical domain as well as in the Antenna/RF/Communication field. With a passion for teaching and a wealth of industry knowledge, Prof. Hitesh Dholakiya is dedicated to helping students achieve their academic and professional goals in the Electronics domain.

This course on Digital Electronics applies to many branches of Degree/Diploma Engineering such as Electrical, EC, Computer, IT, and Instrumentation. After completing this Digital Electronics course students will be able to understand from basic to advance level concepts of Digital Electronics which will be a stepping stone for starting many lucrative career fields.

This Digital Electronics course is also helpful in many competitive examinations and not only that it will also be helpful in interviews.

 

This course on Digital Electronics covers the following chapters.

1. Number Representations in Digital Electronics

2. Boolean Algebra in Digital Electronics

3. Logic Gates in Digital Electronics

4. Combinatorial circuits of Digital Electronics

5. Karnaugh Map in Digital Electronics

6. Logic Families of Digital Electronics

7. Sequential Circuits of Digital Electronics

8. Memory, ADC, and DAC in Digital Electronics

9. Practical Session of Digital Electronics Circuits on Multisim

 

Topic wise Detailed Syllabus of Digital Electronics is as follows:

1. Number Representations in Digital Electronics:

Binary, hex, octal, decimal, BCD, integer, and floating-point- numbers, code coversion etc.

2. Boolean Algebra in Digital Electronics:

Laws of Boolean Algebra, SOP, POS, Dual and Self Dual of Boolean equation, Minterms, Maxterms, Quine McCluskey Technique, etc.

3. Logic Gates in Digital Electronics:

AND, OR, NOT, XOR, XNOR, NAND, NOR Gates and Circuit implementation using universal gates.

4. Combinatorial circuits of Digital Electronics:

Minimization of functions using Boolean identities and many other circuits like Multiplexer, Demultiplexer, Adder, Subtractor, Decoder, Encoder, Carry look ahead adder, Even Parity Generator and Odd Parity Generator, Priority Encoder, etc.

5. Karnaugh Map in Digital Electronics:

IK-map basics, Implicants, Prime Implicants and Essential Prime, 3,4,5 and 6 variable K Map, Quine McCluskey Minimization Technique

6. Logic Families of Digital Electronics:

DTL, RTL, TTL, CMOS, Boolean Function Implementations, Stick Diagram of Boolean Function, CMOS Transmission Gate, etc.

7. Sequential Circuits of Digital Electronics:

Clock and Triggering by clock in Sequential circuit, Latch, Flip Flops, Master Slave Flip Flop, Counters, Shift Registers, State Machines, Mealy State Machine and Moore State Machine

8. Memory, ADC, and DAC in Digital Electronics:

ROM, RAM, PLA, PAL, Digital to Analog Converter and Analog to Digital Converter

9. Practical Session of Digital Electronics Circuits on Multisim:

Practicals on Logic gates, Adder, Code conversion, Comparator, Flip flop, Counter, Register, etc.

Enroll now and take the first step toward mastering Digital Electronics core concepts! Join Our Community of students who have transformed their careers with our expert-led course on Digital Electronics! 

See you in the Digital Electronics: Master Digital Logic Design Concept course! You're going to love it!

All the best...