Jawaharlal nehru technological university anantapur



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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR
(Established by Govt. of A.P., Act. No. 30 of 2008)
ANANTHAPURAMU – 515 002 (A.P.) INDIA. ----------------------------------------------------------------------------------------------------------

Course Structure for B.Tech-R15 Regulations

ELECTRICAL & ELECTRONICS ENGINEERING

B.Tech III-II Semester (EEE)



S.

Course

Subject

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No.

Code
















1.

15A52601

Management Science

3

1

-

3

2.

15A02601

Power Semiconductor Drives

3

1

-

3

3.

15A02602

Power System Protection

3

1

-

3

4.

15A04601

Microprocessors & Microcontrollers

3

1

-

3

5.

15A02603

Power System Analysis

3

1

-

3




6.




CBCC -I



















15A02604

1) Neural Networks & Fuzzy Logic



















15A02605

2) Programmable Logic Controller & Its

3

1

-

3










Applications




























15A02606

3) Optimization Techniques



















15A01608

4) Intellectual Property Rights
















7.

15A04607

Microprocessors & Microcontrollers

-




4

2







Laboratory




























8.

15A02607

Power Electronics & Simulation Laboratory

-




4

2




9.




Advanced English Language



















15A52602

Communication Skills (AELCS) Laboratory

-




2

-










(Audit Course)
















10.

15A02608

Comprehensive Online Examination - II

-

-

-

1










Total:

18

6

12

23




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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


B. Tech III-II Sem. (EEE)

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15A52601 MANAGEMENT SCIENCE

















Course Objective: The objective of the course is to equip the student the fun amental knowledge of management science and its application for effective management of human resource, materials and operation of an organization. It also aims to expose the students about the latest and contemporary developments in the field of management.
UNIT –I:
Introduction to Management: Concept-Nature and Imp rtance f Management, Functions-Evaluation of Scientific Management, Modern management-M tivation Theories-Leadership Styles-Decision MakingProcess-Designing Organizati n Structure-Principles and Types of Organization.
UNIT- II:
Operations Management: Plant location and Layout, Methods of production, Work-Study-Statistical Quality Control through Control Charts, Objectives of Inventory
Management, Need for Inventory Control -EOQ&ABC Analysis(Simple Problems)Marketing Management:
Meaning,Nature, Functions of Marketing, Marketing Mix, Channels of distribution-Advertisement and sales promotion-Marketing strategies-Product Life Cycle.
UNIT -III:
Human Resource Management(HRM): Significant and Basic functions of HRM-Human Resource Planning(HRP), Job evaluation, Recruitment and Selection, Placement and Induction-Wage and Salary administration. Employee Training and development - Methods-Performance Appraisal-Employee Grievances-techniques of handling Grievances.
UNIT – IV:
Strategic Management: Vision, Mission, Goals and Strategy- Corporate Planning Process-Environmental Scanning-SWOT analysis-Different Steps in Strateg Formu ation, Implementation and Evaluation. Project Management: Network Analysis-PERT, CPM, Identifying Critical Path-Probability-Project Cost Analysis, Project Crashing (Simple Problems).
UNIT-V:
Contemporary Management Practices: Basic concepts of MIS-Materials Requirement Planning(MRP),Just-In-Time(JIT)System, Total Quality Management(TQM)-Six Sigma
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and Capability Maturity Models(CMM) evies, Supply Chain Management, Enterprise
Resource Planning(ERP),Performance Management, Business Process Outsourcing(BPO), Business Process Re-Engineering and Bench Marking, Balance Score Card.
Course Outcome: This course enables the student to know the principles and applications of management knowledge and exposure to the latest developments in the field. This helps to take effective and efficient management decisions on physical and human resources of an organization. Beside the knowledge of Management Science facilitates for his/her personal and professional development.
TEXT BOOKS:

  1. A.R Aryasri: Management Science, TMH, 2013




  1. Kumar /Rao/Chalill „Introduction to Management Science‟ Cengage, Delhi, 2012.


REFERENCE BOOKS:

  1. A.K.Gupta “Engineering Management”,S. CHAND, New Delhi, 2016.

2. Stoner, Freeman, Gilbert, Management, Pearson Education,New Delhi, 2012.



  1. Kotler Philip & Keller Kevin Lane: Marketing Mangement , PHI,2013.




  1. Koontz & Weihrich: Essentials of Management, 6/e, TMH, 2005.




  1. Kanishka Bedi, Production and Operations Management, Oxford University Press, 2004.




  1. Memoria & S.V.Gauker, Personnel Management, Himalaya, 25/e, 2005

  2. Parnell: Strategic Management, Biztantra, 2003.




  1. L.S.Srinath: PERT/CPM,Affiliated East-West Press, 2005.


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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


B. Tech III-II Sem. (EEE)

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15A02601 POWER SEMICONDUCTOR DRIVES

















Course Objectives: The objectives of the course are to make the students earn about:


  • The operation of electric motor drives controlled by power e ectronic converters.




  • The stable steady-state operation and transient dynamics of a motor- oad system.




  • The operation of the chopper fed DC drive.




  • The distinguishing features of synchronous motor drives and inducti n motor drives.


UNIT – I
CONVERTER FED DC MOTORS
Classification of Electric Drives, Basic elements of Electric Drive, Dynamic Control of a Drive system, Stability analysis, Introduction to Thyristor Controlled Drives, Single Phase, ThreeJNTUPhaseSemiandFullyControlled Converters Connected to D.C Separately Excited and D.C Series Motors – Continuous Current Operation – Output Voltage and Current Waveforms – Speed and Torque Expressions – Speed – Torque Characteristics- Problems.
UNIT – II
FOUR QUADRA OPERA ION OF DC DRIVES
Introduction to Four Quadrant Operation – Motoring Operations, Electric Braking – Plugging, Dynamic and Regenerative Braking Operations. Four Quadrant Operation of D.C Motors by Dual Converters – Closed Loop Operation of DC Motor (Block Diagram Only)
UNIT – III
CHOPPER FED DC MOTORS
Sing e Quadrant, Two Quadrant and Four Quadrant Chopper Fed DC Separately Excited and Series Excited Motors – Continuous Current Operation – Output Voltage and Current Wave Forms – Speed Torque Expressions – Speed Torque Characteristics

– Problems on Chopper Fed D.C Motors


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UNIT – IV
CONTROL OF INDUCTION MOTOR
Induction Motor Stator Voltage Control and Characteristics. AC Voltage Controllers – Waveforms – Speed Torque Characteristics - Stator Frequency Control and Characteristics. Voltage Source and Current Source Inverter - PWM Control – Comparison of VSI and CSI Operations – Speed Torque Characteristics – Numerical Problems on Induction Motor Drives – Closed Loop Operation of Induction Motor Drives (Block Diagram Only) – Principles of Vector Control
Static Rotor Resistance Control – Slip Power Recovery – V/f control of Induction Motor
– Their Performance and Speed Torque Characteristics – Advantages- App ications – Problems
UNIT – V
CONTROL OF SYNCHRONOUS MOTORS
Separate Control & Self Control of Synchronous Motors – Operati n f Self C ntrolled Synchronous Motors by VSI and CSI Cycloconverters. Load Commutated CSI Fed Synchronous Motor – Operation – Waveforms – Speed Torque Characteristics – Applications – Advantages and Numerical Problems – Closed Loop Control Operation of Synchronous Motor Drives (Block Diagram Only), Introduction to variable frequency control.
Course Outcomes: The student should be able to:

  • Identify the choice of the electric drive system based on their applications




  • Explain the operation of single and multi quadrant electric drives







  • Explain the speed control methods for AC-AC & DC-AC converters fed to Induction motors and Synchronous motors with closed loop, and open loop operations.


TEXT BOOKS:

  1. Power semiconductor controlled drives, G K Dubey, Prentice Hall, 1995.




  1. Modern Power Electronics and AC Drives, B.K.Bose, PHI, 2002.


REFERENCE BOOKS:


  1. Power Electronics, MD Singh and K B Khanchandani, Tata McGraw-Hill Publishing company, 2008.

  2. Power Electronic Circuits, Devices and applications, M.H.Rashid, PHI, 2005.




  1. Electric drives Concepts and Applications, Vedam Subramanyam, Tata McGraw Hill Publications, 2nd Edition, 2011.

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


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15A02602 POWER SYSTEM PROTECTION

















Course Objectives: The objectives of the course are to make the students earn about:

  • The different types of electromagnetic relays and microprocessor based re ays




  • The protection of Generators




  • The protection of Transformers




  • The protection of feeders and lines




  • The technical aspects involved in the operation of circuit breake s




  • Generation of over voltages and protection from over v ltages


UNIT – I
RELAYS
Electromagnetic Relays - Basic Requirements of Relays – Primary and Backup Protection - Construction Details of – Attracted Armature, Balanced Beam, Inductor Type and Differential Relays – Universal Torque Equation – Characteristics of Over Current, Direction and Distance Relays. Static Relays – Advantages and Disadvantages – Definite Time, Inverse and IDMT. Static Relays – Comparators – Amplitude and Phase Comparators. Microprocessor Based Relays – Advantages and Disadvantages – Block Diagram for Over Current (Definite, Inverse and IDMT) and Distance Relays and Their Flow Charts.
UNIT – II
PROTECTION OF GE ERATORS & TRANSFORMERS
Protection of Generators Against Stator Faults, Rotor Faults and Abnormal Conditions. Restricted Earth Fault and Inter-Turn Fault Protection. Numerical Problems on percentage winding unprotected. Protection of Transformers: Percentage Differential Protection, Numerical Problems on Design of CT Ratio, Buchholtz Relay Protection, Numerical Problems.
UNIT – III
PROTECTION OF FEEDERS & LINES
Protection of Feeder (Radial & Ring Main) Using Over Current Relays. Protection of Transmission Line – 3 Zone Protection Using Distance Relays. Carrier Current Protection. Protection of Bus Bars.

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UNIT – IV
CIRCUIT BREAKERS
Circuit Breakers: Elementary Principles of Arc Interruption, Restriking Voltage and Recovery Voltage - Restriking Phenomenon, Average and Max. RRRV, Numerical Problems - Current Chopping and Resistance Switching - CB Ratings and Specifications: Types and Numerical Problems. – Auto Reclosures. Description and Operation of Following Types of Circuit Breakers: Minimum Oil Circuit Breakers, Air Blast Circuit Breakers, Vacuum and SF6 Circuit Breakers.
UNIT – V

OVER VOLTAGES IN POWER SYSTEMS
Generation of Over Voltages in Power Systems.-Protecti n against Lightning Over Voltages - Valve Type and Zinc-Oxide Lighting Arresters - Insulati n C dinati n –BIL.
Course Outcomes: At the end of the course the student sh uld be able t :





  • Understanding the protection of generators and determination of what % generator winding is unprotected under fault occurrence




  • Understanding the protection of transformers and make design calculations to determine the required CT ratio for transformer protection

  • Explain the use of relays in protecting Feeders, lines and bus bars




  • Solve numerical problems concerning the arc interruption and recovery in circuit breakers




  • Understand why over voltages occur in power system and how to protect the system


TEXT BOOKS:


  1. Power System Protection and Switchgear, Badri Ram, D.N Viswakarma, TMH Publications, 2011.




  1. Switchgear and Protection, Sunil S Rao, Khanna Publishers, 1992.


REFERENCE BOOKS:
1. E ectrical Power Systems, C.L.Wadhwa, New Age international (P) Limited, Pub ishers, 2012.


  1. Transmission network Protection, Y.G. Paithankar ,Taylor and Francis,2009.

  2. Power system protection and switch gear, Bhuvanesh Oza, TMH, 2010.

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


B. Tech III-II Sem. (EEE)

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15A04601 MICROPROCESSORS AND MICROCONTROLLERS
Course Outcomes:
After completion of this subject the students will be able to :


  1. Do programming with 8086 microprocessors

  2. Understand concepts of Intel x86 series of processors




  1. Program MSP 430 for designing any basic Embedded System




  1. Design and implement some specific real time applicati ns Using MSP 430 low power microcontroller.


UNIT I
Introduction-8086 Architecture-Block Diagram, Register Organization, Flag Register, Pin Diagram, Timing and Control Signals, System Timing Diagrams, Memory Segmentation, Interrupt structure of 8086 and Interrupt Vector Table. Memory organization and memory banks accessing.
UNIT II
Instruction Formats -Addressing Modes-Instruction Set of 8086, Assembler Directives-Macros and Procedures.- Sorting, Multiplication, Division and multi byte arithmetic code conversion. String Manipulation instructions-Simple ALPs.
UNIT III
Low power RISC MSP430 – block diagram, features and architecture,Variants of the MSP430 family viz. MSP430x2x, MSP430x4x, MSP430x5x and their targeted applications, MSP430x5x series block diagram, Addressing modes, Instruction set Memory address space, on-chip peripherals (analog and digital), and Register sets.Samp e embedded system on MSP430 microcontroller.
UNIT - IV
I/O ports pu up/down resistors concepts, Interrupts and interrupt programming. Watchdog timer. System clocks. Low Power aspects of MSP430: low power modes,

ctive vs Standby current consumption, FRAM vs Flash for low power & reliability.


Timer & Real Time Clock (RTC), PWM control, timing generation and measurements.
nalog interfacing and data acquisition: ADC and Comparator in MSP430, data transfer using DMA.

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UNIT-V
Serial communication basics, Synchronous/Asynchronous interfaces (like UART, USB, SPI, and I2C). UART protocol, I2C protocol, SPI protocol. Implementing and programming UART, I2C, SPI interface using MSP430, Interfacing external devices. Implementing Embedded Wi-Fi using CC3100
Text Books:

  1. “Microprocessor and Microcontrollers”, N. Senthil Kumar, M. Saravanan, S.

Jeevanathan,

Oxford Publishers. 1 st Edition, 2010


  1. “The X86 Microprocessors , Architecture, Programming and Ine facing” , Ly a



  1. MSP430 microcontroller basics. John H. Davies, Newnes Publicati n, I st Edition, 2008


References:
http://processors.wiki.ti.com/index.php/MSP430 LaunchPad Low Power Mode http://processors.wiki.ti.com/index.php/MSP430 16 -Bit Ultra-


Low_Power MCU Training

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


B. Tech III-II Sem. (EEE)

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15A02603 POWER SYSTEM ANALYSIS

















Course Objectives: The objectives of the course are to make the students earn about:


  • Y bus and Z bus of a Power System network




  • Power flow studies by various methods.




  • Short circuit analysis of power systems.




  • Swing equation and its solution




  • Equal area criterion and its applications


UNIT -I
POWER SYSTEM NETWORK MATRICES
Representation of Power System Elements, Graph Theory: Definitions, Bus Incidence Matrix, Ybus Formation by Direct and Singular Transformation Methods, Numerical Problems. Formation of ZBus: Partial Network, Algorithm for the Modification of ZBus Matrix for Addition Element for the Following Cases: Addition of Element from a New Bus to Reference, Addition of Element from a New Bus to an Old Bus, Addition of Element Between an Old Bus to Reference and Addition of Element Between Two Old Busses (Derivations and Numerical Problems).- Modification of ZBus for the Changes in Network ( Problems )
UNIT – II

SHORT CIRCUIT A ALYSIS
Per- Unit System of Representation. Per-Unit Equivalent Reactance Network of a Three Phase Power System, umerical Problems. Symmetrical Fault Analysis: Short Circuit Current and MVA Calculations, Fault Levels, Application of Series Reactors, Numerical Prob ems. Symmetrical Component Theory: Symmetrical Component Transformation, Positive, Negative and Zero Sequence Components: Voltages, Currents and Impedances. Sequence Networks: Positive, Negative and Zero sequence Networks, Numerical Problems. Unsymmetrical Fault Analysis: LG, LL, LLG faults with and without Fau t Impedance, Numerical Problems.

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UNIT – III
POWER FLOW STUDIES-I
Necessity of Power Flow Studies – Data for Power Flow Studies – Derivation of Static Load Flow Equations – Load Flow Solutions using Gauss Seidel Method: Acceleration Factor, Load Flow Solution with and without P-V Buses, Algorithm and Flowchart. Numerical Load flow Solution for Simple Power Systems (Max. 3-Buses): Determination of Bus Voltages, Injected Active and Reactive Powers (Sample One Iteration only) and Finding Line Flows/Losses for the given Bus Voltages.
UNIT – IV

POWER FLOW STUDIES-II
Newton Raphson Method in Rectangular and Polar Co-Ordinates F m: L ad Flow Solution with or without PV Buses- Derivation of Jacobian Elements, Alg ithm and Flowchart. Decoupled and Fast Decoupled Methods.- Comparis n f Different Methods
– DC Load Flow
UNIT – V
POWER SYSTEM STABILITY ANALYSIS
Elementary Concepts of Steady State, Dynamic and Transient Stabilities - Description of: Steady State Stability Power Limit, Transfer Reactance, Synchronizing Power Coefficient, Power Angle Curve and Determination of Steady State Stability and Methods to Improve Steady State Stability - Derivation of Swing Equation - Determination of Transient Stability by Equal Area Criterion, Application of Equal Area Criterion, Critical Clearing Angle Calculation. Solution of Swing Equation by 4th Order Runga Kutta Method (up to 2 iterations) - Methods to improve Stability - Application of Auto Reclosing and Fast Operating Circuit Breakers.
Course Outcomes: At the end of the course the student should be able to:

  • Form the Zbus and Ybus of a given power system network




  • Compare different methods used for obtaining load flow solution




  • Conduct load flow studies on a given system




  • Make fault calculations for various types of faults




  • Determine the transient stability by equal area criterion




  • Determine steady state stability power limit




  • Distinguish between different types of buses used in load flow solution

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TEXT BOOKS:

  1. Power Systems Analysis, Grainger and Stevenson, Tata Mc Graw-hill, 2005.




  1. Modern Power system Analysis 2nd edition, I.J.Nagrath & D.P.Kothari: Tata McGraw-Hill Publishing Company, 2003.


REFERENCE BOOKS:

  1. Computer Techniques in Power System Analysis 2nd Edition,, M A Pai, TMH, 2005.




  1. Computer Techniques and Models in Power Systems, K. Uma Rao, I. K. International, 2007.




  1. Electric Power Systems 1st Edition, S. A. Nasar, Schaum‟s Outline Se ies, TMH,

1997.



  1. Computer Methods in Power System Analysis, E. I. Stagg and El-Abiad, Tata Mc Graw Hill, 1969.

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


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15A02604 NEURAL NETWORKS & FUZZY LOGIC
















( CBCC-I )

















Course Objective: The objectives of the course are to make the students earn about:

  • Importance of AI techniques in engineering applications




  • Artificial Neural network and Biological Neural Network concepts




  • ANN approach in various Electrical Engineering problems




  • Fuzzy Logic and Its use in various Electrical Engineering Applications


UNIT – I
INTRODUCTION TO ARTIFICIAL INTILLEGENCE
Introduction and motivation – Approaches to AI – Architectures f AI – Symbolic Reasoning System – Rule based Systems – Knowledge Representation – Expert Systems.
UNIT – II
ARTIFICIAL NEURAL NETWORKS
Basics of ANN - Comparison between Artificial and Biological Neural Networks – Basic Building Blocks of ANN – Artificial Neural Network Terminologies – McCulloch Pitts Neuron Model – Learning Rules – ADALINE and MADALINE Models – Perceptron Networks – Back Propagation Neural Networks – Associative Memories.
UNIT – III
ANN APPLICATIO S TO ELECTRICAL SYSTEMS
ANN approach to: Electrical Load Forecasting Problem – System Identification – Control Systems – Pattern Recognition.
UNIT – IV
FUZZY LOGIC
C assical Sets – Fuzzy Sets – Fuzzy Properties and Operations – Fuzzy Logic System
– Fuzzification – Defuzzification – Membership Functions – Fuzzy Rule base – Fuzzy Logic Controller Design.
UNIT – V
FUZZY LOGIC APPLICATIONS TO ELECTRICAL SYSTEMS
Fuzzy Logic Implementation for Induction Motor Control – Switched Reluctance Motor Control –Fuzzy Excitation Control Systems in Automatic Voltage Regulator - Fuzzy Logic Controller in an 18 Bus Bar System.
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Course Outcomes: The students should acquire awareness about:

  • Approaches and architectures of Artificial Intelligence




  • Artificial Neural Networks terminologies and techniques




  • Application of ANN to Electrical Load Forecasting problem, Control system problem

  • Application of ANN to System Identification and Pattern recognition




  • The development of Fuzzy Logic concept




  • Use of Fuzzy Logic for motor control and AVR operation




  • Use of Fuzzy Logic controller in an 18 bus bar system


Text Books:


  1. S. N. Sivanandam, S. Sumathi and S. N. Deepa, “Int ducti n to Neu al Networks using MATLAB”, McGraw Hill Edition, 2006.




  1. Timothy J. Ross, “Fuzzy Logic with Engineering Applicati ns”, Third Edition,

WILEY India Edition, 2012.
References:


  1. S. N. Sivanandam, S. Sumathi and S. N. Deepa, “Introduction to Fuzzy Logic using MATLAB”, Springer International Edition, 2013.




  1. Yung C. Shin and Chengying Xu, “Intellige nt System – Modeling, Optimization & Control, CRC Press, 2009.

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


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15A02605 PROGRAMMABLE LOGIC CONTROLLER AND ITS APPLICATIONS ( CBCC-I )
Course Objectives: The objectives of the course are to make the students earn about:


  • PLC and its basics, architecture, connecting devices and p og amming




  • Implementation of Ladder logic for various Industrial applications




  • Designing of control circuits for various applications




  • PLC logic and arithmetic operations


UNIT-I
PLC Basics: PLC System, I/O Modules and Interfacing, CPU Processor, Programming Equipment, Programming Formats, Construction of PLC Ladder Diagrams, Devices Connected To I/O Modules. PLC Programming: Input Instructions, Outputs, Operational Procedures, Programming Examples Using Contacts and Coils. Drill Press Operation.

UNIT-II
Digital Logic Gates, Programming in the Boolean Algebra System, Conversion Examples. Ladder Diagrams for Process Control: Ladder Diagrams & Sequence Listings, Ladder Diagram Construction and Flowchart for Spray Process System.

UNIT-III
PLC Registers: Characteristics of Registers, Module Addressing, Holding Registers,
Input Registers, Output Registers. PLC Functions: Timer Functions & Industrial App ications, Counter Function & Industrial Applications, Arithmetic Functions, Number Comparison Functions, Number Conversion Functions

UNIT-IV
Data Handling Functions: SKIP, Master Control Relay, Jump, Move, FIFO, FAL, ONS, CLR & Sweep Functions and Their Applications. Bit Pattern and Changing a Bit Shift Register, Sequence Functions and Applications, Controlling of Two-Axis & Three Axis Robots With PLC, Matrix Functions.


TEXT BOOKS:
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UNIT-V
Analog PLC Operation, Types of PLC Analog Modules and Systems, PLC Analog Signal Processing, BCD or Multibit data Processing, Analog output application examples, PID Modules, PID Tuning, Typical PID Functions, PLC Installation, Troubleshooting and Maintenance.
Course Outcomes: The student should be able to: World


Program a PLC for a given application
Implement Ladder logic for various Industrial applicati ns Design control circuits for various applications
1. Programmable Logic Controllers- Principles and Applications by John . Webb & Ronald A. Reiss, Fifth Edition, ELSEVIER Ltd., 2009.
2. Programmable Logic Controllers 5th Edition, William Bolton, Newnes, ELSEVIER Ltd., 2009.
REFERENCES:


  1. Programmable Logic Controllers: An Emphasis on design & application, Kelvin T. Erickson, Dogwood Valley Press, 2011.

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


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15A02606 OPTIMIZATION TECHNIQUES
















( CBCC-I )
















Course Objectives :















The objectives of the course are to make the students learn about:



  • The basic concepts of optimization and classification of optimization p ob ems.




  • Different classical Optimization techniques, linear programming, unconst ained and constrained nonlinear programming.




  • Soft Computing methods – GA & PSO


UNIT-I

INTRODUCTION AND CLASSICAL OPTIMIZATION TECHNIQUE
Statement of an Optimization Problem- Design Vector - Design Constraints- Constraints Surface – Objective Function- Objective Function Surfaces- Classification of Optimization Problems. Classical Optimization Techniques- Single Variable Optimization- Multi Variable Optimization Without Constraints- Necessary and Sufficient Conditions for Minimum/Maximum- Multi Variable Optimization With Equality Constraints Solution by Method of Lagrange Multipliers- Multi Variable Optimization with Inequality Constraints – Kuhn- ucker Conditions
UNIT-II

LINEAR PROGRAMMI G
Standard Form of Linear Programming Problem- Geometry of Linear Programming Problems - Definitions and Theorems- Solution of a System of Linear Simultaneous Equations - Pivotal Reduction of a General System of Equations- Motivation to The Simplex Method - Simplex Algorithm – Revised Simplex Method – Two Phase Simplex Method - Initial Basic Feasible Solution by North- West Corner Rule, Approximation Method.
UNIT - III
UNCONSTRAINED NONLINEAR PROGRAMMING
One-Dimensional Minimization Methods: Classification, Fibonacci Method and Quadratic Interpolation Method- Unconstrained Optimization Techniques- Univariate Method, Powell‟s Method, Steepest Descent Method, Newtons Method.

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UNIT-IV
CONSTRAINED NONLINEAR PROGRAMMING
Characteristics of a Constrained Problem, Classification, Basic Approach of Penalty Function Method; Basic Approaches of Interior and Exterior Penalty Function Methods, Introduction to Convex Programming Problem
UNIT-V

SOFT COMPUTING METHODS
Evolutionary programming methods - Introduction to Genetic Algorithms (GA)– Control parameters –Number of generation, population size, selection, rep oduction, c ossover and mutation – Operator selection criteria – Simple mapping of objective function to fitness function – constraints – Genetic algorithm steps – St pping c ite ia –Simple examples.
Swarm intelligence programming methods - Basic Partial Swarm Optimizati n – Method
– Characteristic features of PSO procedure of the global versi n – Parameters of PSO (Simple PSO algorithm – Operators selection criteria – Fitness function constraints)
Course Outcomes:

The student should be able to:




  • Develop an objective function and obtain solution for multivariable optimization problem with equality/Inequality constraints




  • Apply linear programming techniques for problem solving




  • Apply nonlinear programming techniques for unconstrained/constrained optimization




  • Use soft computing techniques to solve optimization problems



TEXT BOOKS:


  1. Engineering optimization: Theory and practice 3rd edition, S.S.Rao, New Age International (P) Limited, 1998.




  1. Optimization Methods in Operations Research and systems Analysis 3rd edition, K.V.Mital and C.Mohan, New Age International (P) Limited, 1996.




  1. Soft Computing with Matlab Programming by N.P.Padhy&S.P.Simson, Oxford University Press – 2015


REFERENCE BOOKS:

  1. Operations Research, Dr.S.D.Sharma, S.Chand & Sons, 2001.




  1. Operation Research: An Introduction 6th edition, H.A.Taha, PHI , 2003.




  1. Optimization for Engineering Design – Algorithms and Examples, Kalyanmoy Deb, 2nd Edition, PHI, 2014.




  1. Soft Computing Advances and Applications, B. K. Tripathy and J. Anuradha, CENGAGE Learning, 2015.

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15A01608

INTELLECTUAL PROPERTY RIGHTS
















( CBCC-I )














COURSE OBJECTIVE:
This course introduces the student to the basics of Intellectual Property Rights, Copy Right Laws Trade Marks and Issues related to Patents. The overall idea of the cou se is to help and encourage the student for startups and innovations.
UNIT – I
Introduction To Intellectual Property: Introduction, Types Of Intellectual Property, International Organizations, Agencies And Treaties, Importance Of Intellectual Property Rights.
UNIT – II
Trade Marks : Purpose And Function Of Trade Marks, Acquisition Of Trade Mark Rights, Protectable Matter, Selecting And Evaluating Trade Mark, Trade Mark Registration Processes.
UNIT – III
Law Of Copy Rights : Fundamental Of Copy Right Law, Originality Of Material, Rights Of Reproduction, Rights o Perform he Work Publicly, Copy Right Ownership Issues, Copy Right Registration, Notice Of Copy Right, International Copy Right Law.
Law Of Patents : Foundation Of Patent Law, Patent Searching Process, Ownership Rights And Transfer
UNIT – IV
Trade Secrets : Trade Secrete Law, Determination Of Trade Secrete Status, Liability For Misappropriations Of Trade Secrets, Protection For Submission, Trade Secrete Litigation.
Unfair Competition : Misappropriation Right Of Publicity, False Advertising. UNIT – V
New Developments Of Intellectual Property: New Developments In Trade Mark Law ; Copy Right Law, Patent Law, Intellectual Property Audits.
International Overview On Intellectual Property, International – Trade Mark Law, Copy Right Law, International Patent Law, International Development In Trade Secrets Law.

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TEXT BOOKS & REFERENCES:

  1. Intellectual Property Rights, Deborah. E. Bouchoux, Cengage Learing.




  1. Intellectual Property Rights– Unleashmy The Knowledge Economy, Prabuddha Ganguli, Tate Mc Graw Hill Publishing Company Ltd.,



Course Outcomes:
On completion of this course, the student will have an understanding of the fo owing:


  1. Intellectual Property Rights and what they mean

  2. Trade Marks and Patents and how to register them




  1. Laws Protecting the Trade Marks and Patents




  1. Copy Right and laws related to it.

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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY ANANTAPUR


B. Tech III-II Sem. (EEE)

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15A04607 MICROPROCESSORS AND MICROCONTROLLERS LABORATORY


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