Ultimate 2022 Digital Circuits and Logic Design course

A complete guide for learning the Digital circuits and Logic design using Logisim & Multisim & practical applications

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Description

  • " Power Tech Academy " introduces a special course for ( Digital Circuits and Logic Design )

    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 software for simulation and implementation of our Logic circuits which already we made Designs for them like " Logisim & Multisim ".


    • 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 " Logisim & Multisim ", so you can get the most benefit from this course.

      Plan of Our Course will be like that :

      1- section (1) :  ( Introduction )

                                - introduction for Digital system and Logic Design
                                - Numbering systems and their conversions
                                - Arithmetic operations for Binary System

      2- section (2) :  ( Basic and Specialized Logic Gates and their applications )

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

                                - Universal Logic gates ( NAND , NOR  ) , their Symbols and Truth tables

                                 - Specialized Logic gates ( X-OR & X-NOR) , 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

What You Will Learn!

  • 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 }

Who Should Attend!

  • 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