{"id":998,"date":"2016-06-03T23:00:42","date_gmt":"2016-06-03T23:00:42","guid":{"rendered":"http:\/\/www.inspirenignite.com\/jntuh\/?p=998"},"modified":"2019-07-14T13:48:47","modified_gmt":"2019-07-14T13:48:47","slug":"jntuh-b-tech-2nd-year-1-sem-electronics-and-computer-engineering-2-1-switching-theory-and-logic-design-engineering-r13","status":"publish","type":"post","link":"https:\/\/www.inspirenignite.com\/jntuh\/jntuh-b-tech-2nd-year-1-sem-electronics-and-computer-engineering-2-1-switching-theory-and-logic-design-engineering-r13\/","title":{"rendered":"JNTUH B.Tech 2nd Year 1 sem Electronics and Instrumentation Engineering (2-1) Switching Theory and Logic Design Engineering R13."},"content":{"rendered":"

JNTUH B.Tech 2nd year Switching Theory and Logic Design gives you detail information about Switching Theory and Logic Design Engineering R13 year subject. It will be help full you to understand you complete curriculum of the year.<\/p>\n

Course Objectives<\/strong><\/p>\n

This course provides in-depth knowledge of switching theory and the design techniques of digital circuits, which\u00a0is the basis for design of any digital circuit. The main objectives are:<\/p>\n

    \n
  1. To learn basic tools for the design of digital circuits and fundamental concepts used in the design of\u00a0digital systems.<\/li>\n
  2. To understand common forms of number representation in digital electronic circuits and to be able to\u00a0convert between different representations.<\/li>\n
  3. To implement simple logical operations using combinational logic circuits<\/li>\n
  4. To design combinational logic circuits, sequential logic circuits.<\/li>\n
  5. To impart to student the concepts of sequential circuits, enabling them to analyze sequential systems in\u00a0terms of state machines.<\/li>\n
  6. To implement synchronous state machines using flip-flops.<\/li>\n<\/ol>\n

    UNIT -I<\/strong><\/p>\n

    Number System and Boolean Algebra And Switching Functions: Number Systems, Base Conversion\u00a0Methods, Complements of Numbers, Codes- Binary Codes, Binary Coded Decimal Code and its Properties, Unit Distance Codes, Alpha Numeric Codes, Error Detecting and Correcting Codes.\u00a0Boolean Algebra: Basic Theorems and Properties, Switching Functions, Canonical and Standard Form,\u00a0Algebraic Simplification of Digital Logic Gates, Properties of XOR Gates, Universal Gates, Multilevel NAND\/NOR\u00a0realizations.<\/p>\n

    UNIT -II<\/strong><\/p>\n

    Minimization and Design of Combinational Circuits: Introduction, The Minimization with theorem, The\u00a0Karnaugh Map Method, Five and Six Variable Maps, Prime and Essential Implications, Don\u2019t Care Map Entries,\u00a0Using the Maps for Simplifying, Tabular Method, Partially Specified Expressions, Multi-output Minimization,\u00a0Minimization and Combinational Design, Arithmetic Circuits, Comparator, Multiplexers, Code Converters, Wired\u00a0Logic, Tristate Bus System, Practical Aspects related to Combinational Logic Design, Hazards and Hazard Free\u00a0Relations.<\/p>\n

    UNIT -III<\/strong><\/p>\n

    Sequential Machines Fundamentals: Introduction, Basic Architectural Distinctions between Combinational and\u00a0Sequential circuits, The Binary Cell, Fundamentals of Sequential Machine Operation, The Flip-Flop, The D-Latch\u00a0Flip-Flop, The \u201cClocked T\u201d Flip-Flop, The \u201c Clocked J-K\u201d Flip-Flop, Design of a Clocked Flip-Flop, Conversion\u00a0from one type of Flip-Flop to another, Timing and Triggering Consideration, Clock Skew.<\/p>\n

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    TEXT BOOKS<\/strong><\/p>\n