Duration: 3 MONTHS

Course Syllabus

Binary Systems and Logic Circuits

  • The Advantage of Binary, Number Systems, The Use of Binary in Digital Systems, Logic Gates, Logic Family Terminology.

Boolean Algebra and Mapping Methods
  • Boolean Algebra, Karnaugh Maps, Variable Entered Maps, Realizing Logic Function with Gates, Combinational Design Examples.
Logic Function Realization with MSI Circuits
  • Combinational Logic with Multiplexers and Decoders, Standard Logic Functions with MSI Circuits, Design Problem Using MSI Circuits.
Flip Flops, Counters and Registers
  • Flip Flops and its Applications
Introduction to State Machines
  • The Need for State Machines, The State Machine, Basic Concepts in State Machine Analysis.
Synchronous State Machine Design
  • Sequential Counters, State Changes Referenced to Clock, Number of State Flip-Flops, Input Forming Logic, Output Forming Logic, Generation of a State Diagram from a Timing Chart, Redundant States, General State Machine Architecture
Asynchronous State Machines
  • The Fundamental-Mode Model, Problems of Asynchronous Circuits Basic Design Principles, An Asynchronous Design Example.
Logic Families
  • Transistor-Transistor Logic(TTL), Emitter-Coupled Logic(ECL), MOSFET Logic, TTL Gates.
Programmable Logic Devices
  • Introduction to Programmable Logic Devices,Read-Only Memory, Programmable Logic Arrays (PLA), Programmable Array Logic (PAL), Combinational PLD-Based State Machines, State Machines on a Chip.

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