HD1CSE:  SWITCHING CIRCUIT & LOGIC DESIGN

1. BOOLEAN ALGEBRA Introduction, Binary Logic Functions, Logic Gates, Boolean Algebra, Universal Property, Conversion of AND/OR/NOT Logic to  NAND/NOR Logic.  2. COMBINATIONAL LOGIC       Introduction, Switching Equations, Simplification of Boolean Expressions, Algebraic Simplification,        Karnaugh Map Simplification – The Karnaugh Map, Quine – McCluskey or Tabular Method, NAND and NOR Implementation   3.  ANALYSIS & DESIGN OF COMBINATIONAL LOGIC Introduction , Design Procedure, Code Conversion, Decoder, Multiplexer.   4.    SEQUENTIAL LOGIC Introduction, Flip-Flops, Triggering of Flip-Flops, Flip-Flop  Conversions, Registers, Applications of Shift Registers, Counters, State table, Flip-Flop Excitation Tables, Design Procedure, Modulus N Synchronous Counter, UP/DOWN Synchronous Counters, Typical ICs for Counters.   5.    SEQUENTIAL CIRCUITS Introduction, Synchronous or Clocked Sequential Circuits, Sequence Generator, Asynchronous Sequential Circuits.   6.    PROGRAMMABLE LOGIC Introduction, Read Only Memory (ROM), Programmable Logic Array (PLA).    7.    DIGITAL INTEGRATED CIRCUITS Introduction, Definition of Parameters, TTL, Open Collector Outputs, Wired AND Connection, Comparison between TOTEM Pole Collector Output, Tri-State Logic and Bus Drivers, CMOS, Interfacing CMOS and TTL Devices.