- 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 }

- 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

This course is designed to teach students how to design a digital logic circuit to perform a specific desired function. Taking this course will give students a much better understanding of how the internals of a computer work. so our course aims to teach students the fundamentals of digital logic design. Starting from learning the basic concepts of the different base number systems ( Binary – Decimal – Hexadecimal ) and their Conversions to basic logic elements and deriving logical expressions to further optimize a circuit diagram. Also we use

This course is structured in such a way that each section is dedicated to a specific topic in regards to digital electronics and Logic Design. The lectures contained in each section describe in detail the different tools and techniques used to design digital logic circuits.

There are assignments and Exercises throughout this course that students can use to put the theory taught to practical use. There are also two sections for using software of simulation

– introduction for Digital system and Logic Design

– Numbering systems and their conversions

– Arithmetic operations for Binary System

– Basic Logic gates ( AND , OR , NOT ) , their Symbols and Truth tables

– Simplification of Logic equations using Algebraic manipulation

3- section (3) : ( Gate Level Minimization )

– Concept of Minterms and Maxterms

– Concept of SOP and POS for standard implementation

– all Types of K-maps ( 2 variables , 3 variables , 4 variables , 5 variables )

– Don’t care Conditions and how can you get the POS using K-map

4- section (4) : ( Combinational Logic Circuits )

– Design of half Adder

– Design of Full Adder

– 8-bits Binary Adder

– Binary Subtractor

– Binary ( Adder – Subtractor )

– BCD Adder

– Binary Multiplier

– Binary Magnitude Comparator

– Design of ( Decoder & Encoder )

– Design of ( Multiplexer & Demultiplexer )

5- section (5) : ( Logisim Software )

6- section (6) : ( Logic waves and Devices of measuring for Digital systems )

– Logic Waves parameters ( period , Frequency , Duty Cycle )

– Basic Digital Devices ( LEDs , 7-Segments , Dot Matrix , Ressistors , ICs )

– Measuring Devices of Digital Systems ( oscilloscope , Logic Analyzer , Function generator )

7- section (7) : ( Multisim Software )

8- section (8) : ( Laboratory for implementation some Logic Circuits practically using Breadboard )

9- section (9) : ( Sequential Logic Circuits )

– Types of Sequential Logic Circuits

– ( SR & D ) Latches

– ( D , JK and T ) Flip Flops

– “ Finite State Machine (FSM) ”

– another Sequential Logic Circuits

- Electrical Engineers
- Students obtaining Computer Science or Engineering Degrees
- Electronic and Robotics hobbyists
- Computer and Digital Devices hardware enthusiast
- Makers and inventors
- Anyone interested and desiring learning more about Digital Electronic Circuit Theory & Design

Source: https://www.udemy.com/course/ultimate-2021-digital-circuits-and-logic-design-course/

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