Course Contents
This course has the objective to make students understand number representations used in today's digital systems and their arithmetic properties. This course has the objective to make the students learn the combinational logic and combinational circuits (multiplexers, decoders, and encoder). And sequential logic and sequential circuits.
Course Synopsis
• Students will learn the number system and conversion of one system to the other system.
• Students will learn to analyse and synthesize networks of combinational, digital logic elements.
• Students will learn to analyse and design digital, clocked sequential circuits e.g flip flops, counters registers etc.
Course Learning Outcomes
• Students will learn the number system and conversion of one system to the other system.
• Students will learn to analyse and synthesize networks of combinational, digital logic elements.
• Students will learn to analyse and design digital, clocked sequential circuits e.g flip flops, counters registers etc.
DLD Overview
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Number System
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Complements (covered in IICT – semester 1)
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Binary Addition
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Binary Subtraction
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Binary Codes (overview)
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BCD (8421) Code
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BCD Addition
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2421 Code
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Excess-3 Code
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Excess-3 Addition
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Gray Code
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Binary to Gray
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Gray to Binary
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Parity Bit
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Binary Logic Gates
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Some Mathematical Properties
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Axiomatic Definition of Algebra
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Basic Theorems of Boolean Algebra
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Simplification of Boolean Expressions using Truth Table
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Boolean Functions
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Boolean functions to Circuits
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Canonical & Standard Forms
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Minterms & Maxterms
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Map Method
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Two and Three variable maps
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Four Variable map
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NAND Implementation
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NOR Implementation
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Don't Care Conditions Presentation Topic
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Distribution and Discussions
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Introduction to Combinational Logic
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Design Procedures
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Adders, Half Adder, Full Adder
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Sub tractors, Half & Full Sub tractors
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Code Conversion Analysis Procedure
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Binary Parallel Adder
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BCD Adder
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Decoders
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BCD to 7 Segment Decoder
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Full Adder circuit using decoder
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De multiplexer
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Encoder
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Multiplexer
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Boolean Function designed by MUX
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Read only Memory Combinational circuit (with ROM)
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Programmable Logic Array
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Introduction to Sequential Logic
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Logic
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Introduction to Flip-Flops
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Basic RS-FF, Clocked RS-FF
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Sequential logic circuits
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Basic RS-FF, Clocked RS- FF, D-FF, T- FF JK –FF with NOR & NAND gates
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Introduction to JK Master slave FF
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Comparison of RS, D, T& JK FF
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Basic Binary Ripple Counters
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Synchronous Modulus counters
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Parallel Data Transfers
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Shift left registers, Shift right registers
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Serial Data Transfers
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All presentation slides
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Book Title : Digital Logic And Computer Design
Author : Morris Mano
Edition :
Publisher :
Book Title : Logic and Computer Design Fundamentals
Author : Morris Mano and Charles R. Kime
Edition : Third Edition
Publisher :
Book Title : Digital Design & XILINX 6.3 XSE PKG
Author : M. Morris Mano
Edition : First Edition
Publisher :
Book Title : Digital Electronics: Principles and Applications
Author : Roger L Tokheim
Edition :
Publisher :
Book Title : Student Text with MultiSIM CD-ROM
Author :
Edition : Sixth Edition
Publisher :
Title : Workplan DLD BSCS II
Type : Scheme of Study
View Workplan DLD BSCS II