CERTIFICATE IN INTRODUCTION TO DIGITAL ELECTRONICS
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.
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.
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.
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.