# Digital Logic Circuits and Design

## Learn how to design a digital circuit in the simplest way in the world of digital electronics Learn how to design a digital circuit in the simplest way in the world of digital electronics

### What you'll learn:

Ultimate 2021 Digital Circuits and Logic Design course

• Introduction ( Understand the fundamentals of how a computer works )
• Numbering Systems and their Conversions ( Binary – Decimal – Hexadecimal )
• Arithmetic operations for Binary System
• Basic Logic gates ( AND, OR, NOT ) their Symbols, Timing Diagrams and Truth tables
• Universal Logic gates ( NAND, NOR ) their Symbols, Timing Diagrams and Truth tables
• specialized Logic gates ( X-OR, X-NOR ) their Symbols, Timing Diagrams and Truth tables
• Boolean Algebra and Expressions to derive and simplify digital logic circuits
• The Concepts for ( minterms & maxterms )
• Canonical and Standard Forms ( SOP and POS ), how can you get them
• All types of K-maps from ( 2 variables K-map ) to ( 5 variables K-map )
• Don’t care conditions and how can you get the POS using K-map
• Combinational Logic Circuits including Design of ( Half and Full Adders, 8-bits Binary Adder, Binary Subtractor, Binary (Adder – Subtractor) , BCD Adder )
• Continue Combinational Logic Circuits including Design of ( Binary Multiplier, Binary Magnitude Comparator)
• Design of ( Decoder & Encoder )
• Design of ( Multiplexer & Demultiplexer )
• Logisim software : for Discussion and implementation for all our Logic circuits
• Multisim software : for professional simulation for all our Logic circuits
• Logic Waves parameters ( Period, Frequency, Duty cycle)
• Basic Digital Devices ( LEDs, 7-Segments, Dot Matrix, resistors, ICs )
• Measuring Devices for Digital Systems ( Oscilloscope – Logic Analyzer – Functions Generator )
• We have Section for Laboratory using Breadboard for implementation some of Logic Circuits practically
• Sequential Logic Circuits including { (SR-JK-D-T) Flip flops, FSM, and another Advanced Logic circuits }

### Requirements:

• Basic knowledge of Algebra
• Basic computer skills
• Willingness and desire to learn about Digital Circuits and their applications in modern day technology from wristwatch to Rockets

### Description:

After completing this course, you'll be able to

1. Understand all the fundamentals of number systems and performing conversion between them.

2. Function of logic circuits and how to design them.

3. Classify Combinational Logic and Sequential Logic.

4. How to design a combinational logic circuit for a given scenario with the minimum number of gates possible.

5. Use all the standard techniques to minimize the logic gate requirements

6. Design sequential logic circuits like Counters and Shift Registers using Flip flops.

7. Understand the working of various flip flops and latches and highlight the difference between them.

If you're an aspirant who belong to the field of Computer Science, Electronics and Information Technology, Then this course will strongly build the foundations of the digital electronics in you.

Objective of the course is to make everyone design a digital circuit efficiently using various components.

Digital systems contain information that is represented as binary digits called bits.

The alphabet of these bits is the set {0, 1}, which represents the logical value of the

bits. The physical value is determined by the logic family being used. The transistor-transistor

logic (TTL) family represents a logic 0 typically as + 0.2 volts and a logic 1

typically as + 3.4 volts using a + 5 volt power supply; the emitter-coupled logic (ECL)

100K family represents a logic 0 typically as – 1.7 volts and a logic 1 typically as –0.95

volts using a – 4.5 volt power supply.

Thus, a signal can be asserted either positive (plus) or negative (minus), depending

upon the active condition of the signal at that point. The word positive, as used

here, does not necessarily mean a positive voltage level, but merely the more positive

of two voltage levels, as is the case for ECL.

### Who this course is for:

• Beginner Electronics, CS and IT Aspirants

### Course Details:

• 9 hours on-demand video
• 6 articles