2008_eee_2

March 24, 2018 | Author: biswa217 | Category: P–N Junction, Amplifier, Mosfet, Logic Gate, Operational Amplifier
Share
Report this link


Comments



Description

BIJU PATNAIK UNIVERSITY OF TECHNOLOGY, ORISSA Electrical & Electronics Engineering (EEE) 3rd Semester Code Subjects Theory BSCM1205 Mathematics – III BSMS1213 Materials Science & Engineering OR BSCP1207 Physics of Semiconductor Devices HSSM3204 Engg. Economics and Costing OR HSSM3205 Organizational Behaviour BEES2211 Network Theory BECS2212 C++ & Object Oriented Programming PCEC4201 Analog Electronics Circuit Theory Credits Practical/Sessional BEES7211 Network & Devices Lab. BECS7212 C++ & Object Oriented Programming Laboratory PCEC7201 Analog Electronics Circuit Lab. 0-0-3 0-0-3 0-0-3 2 2 2 3-1-0 3-0-0 3-1-0 4 3 4 21 3-0-0 3 3-1-0 3-0-0 4 3 L-T-P Credit Code 4th Semester Subjects Theory PCEC4205 Electromagnetic Fields & Waves 3-0-0 3 3 L-T-P Credit BSCP1207 Physics of Semiconductor Devices 3-0-0 OR BSMS1213 Materials Science & Engineering HSSM3205 Organizational Behaviour OR HSSM3204 Engg. Economics and Costing PCEE4203 Electrical Machines-I PCEE4204 Electrical & Electronics Measurement PCEC4202 Digital Electronics Circuit Theory Credits Practical/Sessional PCEE7203 Electrical Machines Lab-I PCEE7204 Electrical & Electronics Measurement Laboratory PCEC7202 Digital Electronics Circuit Lab. HSSM7203 Communication & Interpersonal skills for Corporate Readiness Laboratory 0-0-3 0-0-3 0-0-3 0-0-3 3-1-0 3-0-0 3-1-0 3-0-0 3 4 3 4 20 2 2 2 2 Practical/Sessional Credits TOTAL SEMESTER CREDITS TOTAL CUMULATIVE CREDITS 06 27 83 Practical/Sessional Credits TOTAL SEMESTER CREDITS TOTAL CUMULATIVE CREDITS 08 28 111 1 BSCM1205 Mathematics - III Module-I (18 hours) Partial differential equation of first order, Linear partial differential equation, Non-linear partial differential equation, Homogenous and non-homogeneous partial differential equation with constant co-efficient, Cauchy type, Monge’s method, Second order partial differential equation The vibrating string, the wave equation and its solution, the heat equation and its solution, Two dimensional wave equation and its solution, Laplace equation in polar, cylindrical and spherical coordinates, potential. Module-II (12 hours) Complex Analysis: Analytic function, Cauchy-Riemann equations, Laplace equation, Conformal mapping, Complex integration: Line integral in the complex plane, Cauchy’s integral theorem, Cauchy’s integral formula, Derivatives of analytic functions Module –III (10 hours) Power Series, Taylor’s series, Laurent’s series, Singularities and zeros, Residue integration method, evaluation of real integrals. Text books: 1. E. Kreyszig,” Advanced Engineering Mathematics:, Eighth Edition, Wiley India Reading Chapters: 11,12(except 12.10),13,14,15 2. B.V. Ramana, “ Higher Engineering Mathematics”, McGraw Hill Education, 2008 Reading chapter: 18 Reference books: 1. E.B. Saff, A.D.Snider, “ Fundamental of Complex Analysis”, Third Edition, Pearson Education, New Delhi 2. P. V. O’Neil, “Advanced Engineering Mathematics”, CENGAGE Learning, New Delhi 2 BSMS1213 Material MODULE-I Science and Engineering (11 Hours) Introduction, Classification of Engineering Materials, Engineering properties of materials, Selection of Materials Mechanical Properties of Materials: Tensile strength, Stress–strain behaviour, Ductile and brittle material, Impact test, Toughness, Hardness test, Fatigue and fatigue test, Creep and Creep test, Fracture MODULE-II (13 Hours) Electrical and Electronic materials: Electrical conductivity, Thermal conductivity, Free electron theory, Energy band concept of conductor, insulator & semiconductor. Superconductor materials: Principles of superconductivity, zero resistivity, Critical magnetic field and critical current density, Type I & II superconductors, Applications of superconductors Dielectric Materials: Microscopic displacement of atoms and molecules in an external DC electric field, Polarization and dielectric constant, Dielectric susceptibility, polarization mechanisms, Temperature and frequency dependence of dielectric constant, Dielectric breakdown, Ferroelectric materials, Piezoelectrics, pyroelectrics and ferroelectrics, Dielectric materials as electrical insulators Magnetic Materials: Concept of magnetism – Diamagnetic, Paramagnetic, Ferromagnetic materials, Hysteresis, Soft & hard magnetic materials, Ferrite MODULE-III (11 Hours) Optical materials: optical properties – scattering, refraction, reflection, transmission & absorption, Laser – principles and applications, Optical fibres – principles and applications Polymeric materials: Types of polymers, Mechanism of polymerization, Mechanical behaviour of polymers, Fracture in polymers, Rubber types and applications, Thermosetting and thermoplastics, Conducting polymers Composite Materials: Microcomposites & Macrocomposites, fibre reinforced composites, Continuous fibre composites, Short fibre composites, Polymer matrix composites, Metal-matrix composites, Ceramic-matrix composites, Carbon-carbon Composites, Hybrid composites. Ceramics: Types, structure, properties and application of ceramic materials Other materials: Brief description of other materials such as Corrosion resistant materials, Nano phase materials, Shape memory alloy, SMART materials Text Books: 1. Material Science for Engineers, James F. Shackelford & Madanapalli K Muralidhara, Pearson Education 2. Materials Science and Engineering, W.D.Callister, Wiley and Sons Inc. Reference Books 1. Materials Science by M.S. Vijaya , G.Rangarajan, Tata MacGraw Hill 2. Materials Science by V. Rajendra, A. Marikani, Tata MacGraw Hill 3. Materias Science for Electrical and Electronic Engineers, I.P.Jones, Oxford University Press 4. Elements of Material Science and Engineering, L.H.Van Vlack, Addison Wesley 5. The Science and Engineering of Materials, Donald R. Askeland and Pradeep P Phule, Thomson Learning (India Edition) 6. Materials Science and Engineering, V.Raghavan, Prentice Hall of India Pvt.Ltd. 7. Materials Science and Engineering in SI units, W.F.Smith, J.Hashemi and R.Prakash, Tata MacGraw Hill 8. Engineering Materials, Properties and Selection, Kenneth G. Budinski and Michael K. Budinski, Prentice Hall of India 9. Material Science & Engineering, Vijaya M. S., Rangarajan G, Tata McGraw Hill. 10. Material Science & Enginnering, S.K.Tripathy, A.K.Padhy & A. Panda, Scitech publication. 3 BSCP 1207 Module-I Physics of Semiconductor Devices (10 Hours) 1. Introduction to the quantum theory of solids: Formation of energy bands, The k-space diagram (two 2. Electrons and Holes in semiconductors: Silicon crystal structure, Donors and acceptors in the band and three dimensional representation), conductors, semiconductors and insulators. model, electron effective mass, Density of states, Thermal equilibrium, Fermi-Dirac distribution function for electrons and holes, Fermi energy. Equilibrium distribution of electrons & holes: derivation of n and p from D(E) and f(E), Fermi level and carrier concentrations, The np product and the intrinsic carrier concentration. General theory of n and p, Carrier concentrations at extremely high and low temperatures: complete ionization, partial ionization and freeze-out. Energy-band diagram and Fermi-level, Variation of EF with doping concentration and temperature. 3. Motion and Recombination of Electrons and Holes: Carrier drift: Electron and hole mobilities, Mechanism of carrier scattering, Drift current and conductivity. Module II (11 Hours) 4. Motion and Recombination of Electrons and Holes (continued): Carrier diffusion: diffusion current, Total current density, relation between the energy diagram and potential, electric field. Einstein relationship between diffusion coefficient and mobility. Electron-hole recombination, Thermal generation. 5. PN Junction: Building blocks of the pn junction theory: Energy band diagram and depletion layer of a pn junction, Built-in potential; Depletion layer model: Field and potential in the depletion layer, depletionlayer width; Reverse-biased PN junction; Capacitance-voltage characteristics; Junction breakdown: peak electric field. Tunneling breakdown and avalanche breakdown; Carrier injection under forward biasQuasi-equilibrium boundary condition; current continuity equation; Excess carriers in forward-biased pn junction; PN diode I-V characteristic, Charge storage. 6. The Bipolar Transistor: Introduction, Modes of operation, Minority Carrier distribution, Collector current, Base current, current gain, Base width Modulation by collector current, Breakdown mechanism, Equivalent Circuit Models - Ebers -Moll Model. Module III (12 Hours) 7. Metal-Semiconductor Junction: Schottky Diodes: Built-in potential, Energy-band diagram, I-V characteristics, Comparison of the Schottky barrier diode and the pn-junction diode. Ohmic contacts: tunneling barrier, specific contact resistance. 8. MOS Capacitor: The MOS structure, Energy band diagrams, Flat-band condition and flat-band voltage, Surface accumulation, surface depletion, Threshold condition and threshold voltage, MOS C-V characteristics, Qinv in MOSFET. 9. MOS Transistor: Introduction to the MOSFET, Complementary MOS (CMOS) technology, V-I Characteristics, Surface mobilities and high-mobility FETs, JFET, MOSFET Vt, Body effect and steep retrograde doping, pinch-off voltage, Text Books: 1. Modern Semiconductor Devices for Integrated Circuits,ChenmingCalvinHu,PearsonEducation/Prentice Hall, 2009. 2. Semiconductor Physics and Devices, 3rd Edition, Donald A. Neamen, Tata McGraw Hill Publishing Company Limited, New Delhi. Reference Books: 1. Fundamentals of Semiconductor Devices, M.K. Achuthan and K.N. Bhatt, Tata McGraw Hill Publishing Company Limited, New Delhi. 2. Solid State Electronics Devices, 6th Edition, Ben. G. Stretman and Sanjay Banarjee, Pearson Education, New Delhi. 3. Physics of Semiconductor Devices, 3rd Edition, S.M. Sze and Kwok K. Ng, Wiley India Pvt. Limited, New Delhi. 4. Physics of Semiconductor Devices, 2nd Edition, Dillip K. Roy, University Press (India) Pvt. Ltd., Hyderabad. 5. Solid State Electronics Devices, D.K. Bhattacharya and Rajnish Sharma, Oxford University Press, New Delhi. 4 HSSM3204 Engineering Economics & Costing Module-I: (12 hours) Engineering Economics – Nature and scope, General concepts on micro & macro economics. The Theory of demand, Demand function, Law of demand and its exceptions, Elasticity of demand, Law of supply and elasticity of supply. Determination of equilibrium price under perfect competition (Simple numerical problems to be solved). Theory of production, Law of variable proportion, Law of returns to scale. Module-II: (12 hours) Time value of money – Simple and compound interest, Cash flow diagram, Principle of economic equivalence. Evaluation of engineering projects – Present worth method, Future worth method, Annual worth method, internal rate of return method, Cost-benefit analysis in public projects. Depreciation policy, Depreciation of capital assets, Causes of depreciation, Straight line method and declining balance method. Module-III: (12 hours) Cost concepts, Elements of costs, Preparation of cost sheet, Segregation of costs into fixed and variable costs. Break-even analysis-Linear approach. (Simple numerical problems to be solved) Banking: Meaning and functions of commercial banks; functions of Reserve Bank of India. Overview of Indian Financial system. Text Books: 1. Riggs, Bedworth and Randhwa, “Engineering Economics”, McGraw Hill Education India. 2. D.M. Mithani, Principles of Economics. Himalaya Publishing House Reference Books : 1. Sasmita Mishra, “Engineering Economics & Costing “, PHI 2. Sullivan and Wicks, “ Engineering Economy”, Pearson 3. R.Paneer Seelvan, “ Engineering Economics”, PHI 4. Gupta, “ Managerial Economics”, TMH 5. Lal and Srivastav, “ Cost Accounting”, TMH 5 Radha R Sharma” Organizational Behaviour” . Training and Development. Personality and OB. TATA McGraw. Alderfer’s ERG Theory. Robbins.Srivastava & A. Leader Behaviour theory. Evaluations. McGraw-Hill. Oxford University Press 6. Khandelwal. Why do people join groups. Module-III : Organization : Organizational Culture – Meaning and Definition. Keith Davis. Orientation. Effective Team Building. Steven L McShane. “Organizational Behaviour” India Tech 7. Module II : Organizational Behaviour Process : Communication – Importance. 5. “Organizational Behaviour”. Leadership and Follower ship. International Organisational Behaviour – Trends in International Business. Kavita Singh. How Learning occurs. Motivation – Nature and Importance. Introduction to Human Resource Management-Selection. Organisational Behaviour. Organisational Behaviour. TATA McGraw-Hill. Communication as a tool for improving Interpersonal Effectiveness. Types. Mary Ann Von Glinow.K. Perception – Meaning and Definition. Why Study OB Learning – Nature of Learning. Contingency Theory. Maslow’s Need Hierarchy Theory. 4. McGraw-Hill. Reference Books : 1. Organizational Behaviour. Leadership-Leadership & Management. How to be an effective Leader. D. Learning and OB. “Organizational Behaviour”. Culture and Organizational Effectiveness. Groups in Organizations – Nature. 3.HSSM 3205 Organizational Module I : Behaviour The study of Organizational Behaviour : Definition and Meaning. Theories of Leadership-Trait theory. Determinants of Personality. Himalaya Publishing House. Cultural Differences and Similarities. Foundations of Individual Behaviour : Personality – Meaning and Definition.Samantaray. New Delhi. 2. Planned Change and OB techniques. Performance Appraisal. Organisational Behaviour. Herzberg’s Two Factor Theory. Importance of Perception in OB. Bhattachayya.Aswathappa. Types.B. Perceptual Process. Pearson 6 .K. “Organizational Behaviour”. Gateways and Barriers to Communication. Stephen P. Text Books : 1. Prentice Hall of India 2. Individual and Interpersonal Behaviour in Global Perspective. K.L.Hill. New Delhi. Pradip N. Personality Traits. Group Cohesiveness and Group Decisionmaking Managerial Implications. An Introduction to Transactional Analysis (TA). Uma Sekaran. Incentives Organizational Change – Importance of Change. Conflict-Nature of Conflict and Conflict Resolution. K. I (14 Hrs) 1. Inverse Laplace transform. 6. Compensation theorem. Band Width and Q-factor for series and parallel resonant circuits. R-C and L-C functions in Cauer-I. Realization of simple R-L. FOURIER SERIES & ITS APPLICATION: Fourier series. Network Analysis and Synthesis – Franklin F. New Delhi. MODULE. Reciprocity theorem. 4. PHI. Network Functions. Band pass and Band elimination) and their frequency response. Restriction on location of Poles and Zeros. Kuo – Wiley Student Edition. Laplace transform of periodic functions. 7 . Interrelation of two-port parameters. LAPLACE TRANSFORM & ITS APPLICATION: Introduction to Laplace Transform. Fourier transform of some functions. Foster-I and Foster-II forms. 3. Tellegen’s theorem. Concepts of network synthesis.II (13 Hrs) 3. NETWORK THEOREMS & COUPLED CIRCUITS: Substitution theorem. Application of Laplace transform: Circuit Analysis (Steady State and Transient). S P Ghosh and A K Chakraborty – Tata McGraw Hill. Dot Convention for representing coupled circuits. Time domain behaviour from Pole-Zero plots. Fourier analysis and evaluation of coefficients. Smarajit Ghosh. ABCD and h-parameters. Fundamentals of Electric Circuits – Alexander & Sadiku – Tata McGraw Hill. 7. Reference Book(s): 2. 4. 5. Significance of Poles and Zeros. Formulation and solution of network equilibrium equations on loop and node basis. Tie-set matrix. Network Synthesis – M E Van Valkenburg – Pearson Education. Interconnection of two-port networks. Concept of tree. Millman’s theorem. Reciprocity and Symmetry. Fourier transform and convergence. P Kabisatpathy. 6. 2. TWO PORT NETWORK FUNCTIONS & RESPONSES: z. Cut-set matrix. 5. Incidence matrix. Network Theory.BEES2211 Network Theory MODULE. y. Cauer-II.III (13 Hrs) Text Book: 1. NETWORK TOPOLOGY: Graph of a network. Laplace transform of some basic functions. Coupled Circuits. NETWORK SYNTHESIS: Hurwitz polynomial. Maximum power transfer theorem. Steady state response of network to periodic signals. Coefficient of coupling. Positive real functions and their properties. Network Theory – P K Satpathy. Brief idea about network filters (Low pass. Linear Circuits Analysis and Synthesis – A Ramakalyan – Oxford University Press. High pass. 8. MODULE. Network Analysis – M E Van Valkenburg – Pearson Education. Properties of Hurwitz polynomial. Problems & Solutions in Electric Circuit Analysis – Sivananda & Deepa – Jaico Book. 2. namespaces. pure virtual functions. Namespaces: user defined namespaces. Oxford Mastering C++ . copy constructor. static members. Getting started with C++ syntax. public. constructor and destructor execution. Static polymorphism: Function Overloading. multiple. destructors.Venugopal. Inheritance: Class hierarchy. new and delete operators. member data. 3. Ambiguity in function overloading. object copying. Pearson Education Reference Books: 1. Object Oriented Programming with C++ .Ashoke N. member and non member operator function. unions. method overriding with virtual functions.BECS2212 C++ & Object Oriented Programming Module I (08 hrs) Introduction to object oriented programming. Operator Overloading: This pointer. constructors. operator overloading. polymorphism. I/O operators. functions. user defined types. applications of this pointer. Static binding.Wiley India C++: The Complete Reference. operators. Template: template classes. encapsulation. strings. McGraw-Hill Education (India) 8 . throw. PHI Learning. single inheritance. 5. ANSI and Turbo C++ . Module III (08 hrs) Dynamic memory management. base initialization using derived class constructors. Module II (16 hrs) Abstraction mechanism: Classes. Object Oriented Programming with C++ . hybrid inheritance. and references. and catch. function exception declaration. template functions.Schildt. multilevel. role of virtual base class. McGraw-Hill Education (India) C++ and Object Oriented Programming – Jana. arrays and pointers. Big C++ . inline function. assignment operator. Dynamic binding. virtual destructor. object slicing. late binding. structures.Rajiv Sahay. McGraw-Hill Education (India) 2. Kamthane. default values in functions. member functions. variables. Operator function. friend functions. abstract classes. derived classes.E. Polymorphism: Binding. Dynamic polymorphism: Base class pointer. namespaces provided by library. Exception handling: Try. exceptions and derived classes. recursion. flow control. data-type. Text Books: 1. 4. private. Balagurusamy. DC Bias with Voltage Feedback. CC. Practical Feedback Circuits. Pearson Education. Complimentary MOS. CB Amplifier with and without RE. 5.PCEC4201 MODULE – I 1. Instrumentation amplifier. Voltage (4 Hrs) Divider Bias and Design MODULE – II 4. (12 hours) Feedback and Oscillators: Feedback Concepts. Analysis of Source Follower and Cascaded System using FETs.. Phase Shift and Crystal Oscillator Circuits. Power Dissipation and Conversion Efficiency of Power Amplifiers. Slew rate. Fixed Bias and Self Bias. 5. Square Wave Testing. Bias Stabilization. Boylestad and L. Oxford University Press. R.. 11. Multistage Frequency Effects. MOS Field-Effect Transistor: Principle and Physical Operation of FETs and MOSFETs. Neamen. Electronic Devices and Circuits. 10. Darlington Connection and Current Mirror Circuits using BJTs. (3 Hrs) Electronic Devices and Circuits theory. Differentiator and Integrator. and 14). Basic Principle of Sinusoidal Oscillator. 13. 8. New Delhi. 8. (6 Hrs) Small Signal Analysis of FETs: Small-Signal Equivalent-Circuit Model. (6 Hrs) High Frequency Response of FETs and BJTs: Low and High Frequency Response of BJTs and FETs. Effect of RSIG and RL on CS Amplifier. Analysis of Cascade. (For Problem Solving) Electronics Circuits Analysis and Design. Tata McGraw Hill Publishing Company Ltd. 9 . 3rd Edition. 9. Operating Points. Graphical Determination of h-parameters Small Signal Analysis of CE.MOSFETS and D-MOSFETS. CD. 2. and 14). (4 Hrs) Operational Amplifier: Ideal Op-Amp. New Delhi. International Student Edition Sedra and Smith (Selected portion of Chapter 2. 6. Tata McGraw Hill Publishing Company Ltd.4. New Delhi. 3rd Edition. Small Signal Analysis of BJTs: Small-Signal Equivalent-Circuit Model. (5 Hrs) Power Amplifier: Classifications. 9. 3. 12. Small Signal Analysis of CS. Microelectronics Circuits. 7. Miller Effect Capacitance. Four Basic Feedback Topologies. Frequency Response of CS Amplifier. Emitter Follower. Wein-Bridge.Nashelsky (Selected portions of Chapter 4. Analog Electronics Circuit (12 Hours) 3. Text Books: 1. The Unit gain – frequency (ft). 8. (4 Hrs) Biasing of FETs and MOSFETs: Fixed Bias Configuration and Self Bias Configuration. Effect of Finite Open-loop and Closed-loop Gain. (17 Hours) 5. Effect of RS and RL on CE Amplifier. V-I Characteristics of E. Donald A. Frequency Response of CE Amplifier. CG Amplifier with and without RS. 6.L. New Delhi. Design Operation. 5th Edition. Op-Amp Parameters. Cathey adapted by Ajay Kumar Singh. 6. Noninverting Configurations. Reference Books: 1. Class-A and Class-B Amplifier Circuits.(5 Hrs) MODULE – III 7. 9th/10th Edition. Jimmie J. PChannel and N-Channel MOSFET. 2. MOSFETS as an Amplifier and a Switch (4 Hrs) Biasing of BJTs: Load lines (AC and DC). µA 741-Op-Amp . Feedback Amplifier Stability using Nyquist Plot. Transfer Characteristics. Differential Amplifier. Tata McGraw Hill Education Pvt. 5. New Delhi. Microelectronic Circuits: Analysis and Design. Verification of Network Theorems (Superposition. 3. 3. J. Frequency response of Low pass and High Pass Filters. C. Jit.(1 class) 4. mutual inductance and coupling coefficient of a single phase two winding transformer representing a coupled circuit. Rashid.2. Ltd. Thevenin.(1 class) 3. Programs on dynamic memory management using new. 10. BECS7212 C++ & Object Oriented Programming Lab 1. Spectral analysis of a non-sinusoidal waveform... 8. Programs using inheritance.. Halkias. M. delete operators. 6. Norton. J. 9. Study of resonance in R-L-C parallel circuit. BEES7211 Network and Devices Lab Select any 8 experiments from the list of 10 experiments 1. New Delhi Integrated Electronics: Analog and Digital Circuits and Systems. 4.(1 class) 10 . Halkias. India Edition. Tata McGraw Hill Publishing Company Ltd. Determination of self inductance. Determination of circuit parameters: Hybrid and Transmission parameters. Milliman. 2nd Edition. 2. PWS Publishing Company. Programs on dynamic polymorphism. Maximum Power Transfer).(1 class) 5.(1 class) 7. Programs on concept of classes and objects. 4. Programs using static polymorphism. Study of resonance in R-L-C series circuit. Milliman’s Electronics Devices and Circuits. a division of Thomson Learning Inc. Programs on copy constructor and usage of assignment operator.H. C. Frequency response of Band pass and Band Elimination Filters. 7. Study of DC and AC Transients. Milliman. Determination of circuit parameters: Open Circuit and Short Circuit parameters. Programs on operator overloading.(1 class) 6. S.(1 class) 2. assemble and test of BJT emitter-follower – D. 11 . Square wave testing of an amplifier. OP-Amp Frequency Response and Compensation. Design. 8. Study of Darlington connection and current mirror circuits. 6. input impedance and output impedance with bypassed and un-bypassed emitter resistor.C and A. 5. assemble and Test of JFET/MOSFET common-source and common-drain amplifiers – D. 7.(1 class) 10. square wave generator. voltage gain. 11. integrator.C and A.8. Design. BJT bias circuit – Design. 13.(1 class) 9. 4.C phase shift oscillator/Wien-Bridge Oscillator using OP-Amp/Crystal Oscillator. 10. JEET/MOSFET bias circuits – Design.C. input impedance and output impedance.C bias and A. 12.(1 class) PCEC7201 Analog Electronics Circuit Lab List of Experiments (At least 10 out of 13 experiments should be done) 1. 9. Design. 3. 2.C performance: A. Differential amplifiers circuits: D. high frequency and mid frequency response.C operation without and with current source.C performance: Voltage gain. input impedance and output impedance.C and A. Class A and Class B Power Amplifier. R. assemble and test. Programs on generic programming using template function & template class.C performance: Voltage gain. assemble and test. Programs on file handling. Frequency response of a common-emitter amplifier: low frequency. assemble and test of BJT common-emitter circuit – D. Application of Op-Amp as differentiator. Programs on exception handling . Reflection and Transmission of Uniform Plane Waves. Introduction to Electromagnetic Fields. New Delhi. Rectangular Waveguide and Cavity Resonator. 2nd Edition. Reference Book(s): 1. Gauss’s Law for Magnetic Field. Electric Field. Ampere’s Circuital Law. Gauss’s Law for Electric Field. Tata McGraw Hill Publishing Company Ltd. Paul. (11 Hours) MODULE – II 10. Curl and Stoke’s Theorem. adapted by Vishnu Priye. Nasar. 9. E. Divergence and Divergence Theorem. Electromagnetics. Scalar and Vector Fields. Engineering Electromagnetics. Boundary Conditions. Tata McGraw Hill Publishing Company Ltd. Electromagnetic Waves and Radiating Systems. Successive Solution of Maxwells’s Equations. N. (10 Hours) MODULE – III 12. Maxwell’s Equations in Differential Form: Faradays Law. 13.4th Semester PCEC4205 Electromagnetic MODULE – I 7. 3rd Edition. New Delhi. Rao. Sadiku. a division of Thomson Learning Inc. Gauss’s Law for Electric Field. Electromagnetic Field Theory Fundamentals. William H. N. Poynting Vector and Energy Storage. Poisson’s and Laplace’s Equations. PWS Publishing Company. Pearson Education. Fundamentals of Electromagnetics for Engineering. 5.R. Transverse Electric Waves in a Parallel-Plate Waveguide. New Delhi.G. Hayt.S. 6th Edition. Magnetic Field Adjacent to the Current Sheet. Wave Equation and Solution. Edminister. N. Joseph A. Dielectric Slab Guide. Wave Equation and Solution. New Delhi.C. B. Faradays Law. Short Circuited Line and Frequency Behavior. Keith W. Guru and H. 8. Oxford University Press. Wave Propagation in Material Media: Conductors and Dielectrics. 3. 11. New Delhi.. Uniform Plane Waves in Dielectrics and Conductors. 2nd Edition. Surface Integral. Tata McGraw Hill Publishing Company Ltd. 10. 11.O. Jordan and K. Gauss’s Law for Magnetic Field. Pearson Education. Sinusoidally Time-Varying Fields. Reflection and Refraction of Plane Waves. Cartesian Coordinate System. New Delhi. Fields and Waves (11 Hours) Vectors and Fields: Vector Algebra. Uniform Plane Waves. New Delhi. Elements of Electromagnetics. Hiziroglu. N.. Pearson Education. First Impression – 2009.. Wave Propagation in Free Space: Infinite Plane Current Sheet. (For Problem Solving) Elements of Engineering Electromagnetics. 2. Low Frequency Behavior via Quasistatics. Transmission Line Analysis: Gradient and Electric Potential. Ampere’s Circuital Law. Dispersion and Group Velocity. Mathew N. 4. Maxwell’s Equations in Integral Form: Line Integral. Magnetic Materials. 12 . Clayton R. Whites and Syed A. Balman. Wave Guide Principles: Uniform Plane Wave Propagation in an Arbitrary Direction. Magnetic Field. Rao. Text Book(s): 9. 7th Edition. 2. MODULE. Turns Ratio. (ii) Swinburne’s Test (Indirect method). Back to Back test). Theory and Performance of AC Machines – M G Say 3. Conditions for Self Excitation. Equivalent Circuit.II (13 Hrs) 3. EMF Equation. Electrical Machinery – P S Bimbhra – Khanna Publishers. (iii) DC Series Motor. MODULE. Open Circuit Test and Short Circuit Test. Characteristics for Self Excited DC Shunt Generator (No-Load and Load). Electric Machinery And Transformers – Guru & Hiziroglu – Oxford University Press. Critical Resistance and Critical Speed. Interpoles. Cogging.K. Armature Reaction. 5. 6. Auto Transformers and their application. Per Unit Calculation. Voltage Regulation. Voltage Regulation. Methods of Excitation. Crawling and Electrical Braking of Induction Motors. DC MOTOR CHARACTERISTICS: Characteristic for Speed~Armature Current. Torque~Armature Current and Speed~Torque of (i) Separately Excited DC Motor. DC MOTOR STARTING and PERFORMANCE: Necessity of a Starter. Text Book : 1. SINGLE PHASE TRANSFORMERS: Constructional Features. Electric Machines – D P Kothari and I J Nagrath – Tata McGraw Hill. Electric Machines – Charles Hubert – Pearson Education. The Performance and Design of DC Machines – A E Clayton. 4. Electric Machinery – Fitzgerald. THREE PHASE INDUCTION MACHINES: Constructional Features of Squirrel Cage Rotor type and Slip Ring/Wound Rotor type of Induction Motors. D. 6. Efficiency Evaluation from Direct and Indirect Methods (i) Brake Test (Direct method). Expression for EMF Induced and Torque Developed in the Armature. 2. Series and Compound Motors.I (12 Hrs) 1. Commutation. Compensationg Windings. Parallel Operation of DC Shunt Generators and DC Series Generators. Concept of Slip. Slip Speed. Phasor Diagrams at No-Load and Load Conditions. (iii) Regenerative/Hopkinson’s Test (Indirect method). Principle of Operation. Speed Control of DC Shunt and Series Motors.Mukherjee & S. GENERAL PRINCIPLES OF DC MACHINES: Armature Windings (Simplex Lap and Simplex Wave).I Electrical Machines. 4. Losses and Efficiency. DC GENERATOR CHARACTERISTICS: Characteristics for Separately Excited DC Generator (No-Load and Load).Chakravorti–Dhanpat Rai Publications. Brief Idea on Induction Generators. Starting of Squirrel Cage Rotor type and Slip Ring/Wound Rotor type of Induction Motors. Equivalent Circuit and Phasor Diagram. Charles Kingsley Jr. Umans – Tata Mc Graw Hill. 7. Speed Control of Induction Motors. (ii) DC Shunt Motor. Electrical Machines –P. Reference Book(s): 1. 13 . Comparison Between Different types of DC Motors and their Application. Precautions During Starting of DC Series Motor. No-Load and Blocked Rotor tests. Classification of Losses.. Starting of DC Shunt. Determination of Parameters From Tests (Polarity Test.PCEE4203 MODULE. Brush Shift and its Effects. S. Determination of Parameters.III (15 Hrs) 5. Losses and Efficiency. and (iv) DC Compound Motor. Counter Torque and Counter or Back EMF. Slip~Torque Characteristics and Effect of Rotor resistance on it. 2. Tata McGraw Hill. and Ballistic Galvanometer. and 13). Electronic Instrumentation – H C Kalsi – 2nd Edition. and AC Potentiometers (Drysdale-Tinsley & Gall-Tinsley Potentiometer). and as Self Inductance. 10.-1. Measurement of Medium Resistance. & Deflectional Potentiometer). 3. 7. 4. XXI & XXII). AC Voltmeters using Rectifiers. Elements of Electronic Instrumentation and Measurement – Joshep Carr – 3rd Edition. (14 Hrs) 14 . 7 to 9: Selected Portions from Ch. Delay Line. MEASUREMENT OF RESISTANCE. Digital Voltmeters (Block Diagrams only). Galvanometer Constants. Phase Angle. Introduction to Analog and Digital Storage Oscilloscopes. GALVANOMETER: Construction. Electrical Standards. COUNTERS and ANALYZERS: Introduction to Wave. ELECTRONIC INSTRUMENTS FOR MEASURING BASIC PARAAMETERS: Amplified DC Meters. INTRODUCTION: (a) Measurement and Error: Definition. Influence of Resistance on Damping. Measurement of Mutual Inductance by Felici’s Method. Accuracy and Precision. Types of Errors. (14 Hrs) MODULE. 6. Harmonic Distortion and Spectrum Analyzers. Measurement of Frequency. XIX. Pearson Education. Considerations for choosing an Analog Voltmeter. Oscilloscope Techniques. Theory and Principle of operation of (a) Electro-Dynamometer and Induction type Wattmeters. 2. OSCILLOSCOPE: Block Diagrams. 5. A Course in Electrical and Electronic Measurements and Instrumentation – A K Sawhney – Dhanpat Rai & Co. Reem Publication (For sections 2 to 6: Selected Portions from Ch. Logarithmic decrement. VII. Measurement of Flux and Magnetic Field by using Galvanometers. Construction. AMMETER and VOLTMETER: Derivation for Deflecting Torque of. Theory and Principle of operation of D’Arsonval. 8. FREQUENCY and POWER FACTOR: Measurement of single phase and three phase power by wattmeter. Measurement of Resistance of Earth Connections. Hay’s. Electro Dynamometer and Induction type Ammeters and Voltmeters. Electrical Measurements and Measuring Instruments – Golding & Widdis – 5th Edition. ENERGY. PMMC. Screening of Bridge Components and Wagnor Earthing Device. and Time Delay using Oscilloscope. MI (attraction and repulsion types). 4.II 3. (c) Capacitance: Measurement of Capacitance by Ammeter and Voltmeter. (b) Inductance: Measurement of Self Inductance by Ammeter and Voltmeter. Modern Electronic Instrumentation and Measurement Techniques – Helfrick & Cooper – Pearson Education (For sections 1. 5. (b) Standards of Measurement: Classification of Standards. Multiple Trace. Significant Figures. Measurement of Insulation Resistance when Power is ON. Vernier. Characteristics and Testing of CTs and PTs. MEASUREMENT OF POWER. Schering & Wien’s Bridge). Frequency Counters. Q-meter. and AC Bridges (Owen’s.III Text Book(s) : 1. and AC Bridges (Maxwell’s. Portable Resistance Testing set (Megohmmeter). MODULE. Oscilloscope Probes. Measurement of High Resistance. CURRENT TRANSFPRMER and POTENTIAL TRANSFOMER: Construction. 6. and (d) Power Factor Meters.I Electrical and Electronics Measurement (14 Hrs) 1. & Anderson Bridge). Computer Controlled Test Systems: Testing an Audio Amplifier.-VI. (b) Single Phase and Polyphase Induction type Watt-hour meters.PCEE4204 MODULE. POTENTIOMETER: Construction. XX. Vibration (Moving Magnet & Moving Coil types). True RMS Voltmeter. Calibration of Galvanometers. INDUCTANCE and CAPACITANCE: (a) Resistance: Measurement of Low Resistance by Kelvin’s Double Bridge. 9. Theory and Principle of operation of DC Potentiometers (Crompton. (c) Frequency Meters. 7. Reference Book(s): 3. Theory. IEEE Standards. 6. 10. Electronic Measurement and Instrumentation – Oliver & Cage – Tata McGraw Hill. 9. IX. Constant Resistance. Measurement of Resistance of Insulating Materials. Structural and Combinational Modelling. Lithography and Patterning. India Edition. Cells. Reference Books: 1. Jain.P. Introduction to VLSI: Introduction. 4. Three and Four variable K-maps. 3rd Edition. Extension to other Logic Gate. Arithmetic Operation using 1’s and 2`s Compliments. 2. A general 4-input Logic Gate. Extracting Canonical Forms. (5 Hours) MODULE – III (16 hours) 7. and Hierarchical Design. New Delhi. Pearson Education. Latches. Libraries. EX-OR Equivalence Operations. Analysis of Sequential Networks: Single State and Multivariable Networks. Tata McGraw Hill Publishing Company Ltd. NOR and NAND Gates. Complete Logic Sets. CMOS Logic Circuits: Voltages as Logic Variables. Leach. Number System: Introduction to Binary Numbers. Logic Components: Concept of Digital Components. C-MOS Memories. Widemer and Gregory L. Donald P. Digital Principles and Applications. Binary Adders. Octal.L. RAM and ROMs. (6 Hours) Sequential Network: Concepts of Sequential Networks. Logic Array. Floyd and R. T. (2 Hours) 2. Logic Cascades.. Defining Module in VHDL. Principles and Integrated Circuit. C-MOS Electronics. Binary Words. 9.PCEC4202 MODULE – I (11 Hours) Digital Electronics Circuit 1. Dueck. Hexadecimal and Decimal Number System and their Conversion. NAND and NOR Logic Implementations. Wiley India Edition. Ronald J. (6 Hours) 6. Mano. An Equality Detector. Signed Binary and Floating Point Number Representation. Sequential Network Design. Complex Logic Gates in C-MOS: 3-input Logic Gates. Concepts in VHDL: Basic Concepts. Subtraction and Multiplication. Combinational Logic Design: Specifying the Problem. Digital Design. Pearson Education. CENGAGE Learning. Digital Fundamentals. Binary. Fan-In and Fan-out. Canonical Logic Forms. Multiplexers and De-multiplexers. Data Representation. Algebraic Laws. (5 Hours) Memory Elements and Arrays: General Properties. 2. Libraries. Moss. Anil K. New Delhi. Binary Counters. Useful Boolean Identities. (4 Hours) 5. C-MOS Logic Connection. MasterSlave and Edge-triggered Flip-flops. Moris M. 8. 5th Edition. Uyemura. 15 . Basic Circuit Layout. 3. Jain. The NOT Function in C-MOS: Complimentary Pairs and the C-MOS Invertors. John P. Floor Plans and Interconnect Wiring. (4 Hours) 3. 6th Edition. (5 Hours) MODULE – II (15 Hours) 4. Digital Design. 3. Using a Hardware Description Language. Neal S. MOSFET Arrays and AOI Gates. Importance of state machine. Clock and Synchronization. Digital Systems – Principles and Applications. Logic Formation Using MOSFETS: the NAND and NOR Gate. Albert Paul Malvino and Goutam Saha. MOSFETS. (5 Hours) Text Books: 1. Learning VHDL. PWS Publishing Company. Pearson Education. K-Maps: Two. Algebraic Reduction. A First Course in Digital System Design: An Integrated Approach. MOSFET Design Rules. Propagation Delay. 10th Edition. Robert K. Digital Electronics. Boolean Algebra and Logic Gates: Basic Logic Operation and Identities. Line Decoder. a division of Thomson Learning Inc. Registers. Logic Delay Times: Output Switching Times. Tocci. Measurement of Self Inductance and Capacitance using Bridges. 6. Determination of Efficiency and Voltage Regulation by Open Circuit and Short Circuit test on single phase transformer. Determination of Efficiency. Determination of parameters of three phase induction motor from No load Test and Blocked Rotor Test. Plotting of Torque-Slip Characteristics of Three Phase Induction motor by Brake Test. 10. PCEE7204 Electrical and Electronics Measurement Lab Select any 8 experiments from the list of 10 experiments 1. 5. Study of Galvanometer and Determination of Sensitivity and Galvanometer Constants. Polarity test and Parallel operation of two single phase transformers. 16 . 2. 8. Determination of efficiency of DC machine by Hopkinson’s Test. 2. 4. 3. Measurement of Low Resistance by Kelvin’s Double Bridge Method. 6. Back-to Back test on two single phase transformers. Measurement of Iron Loss from B-H Curve by using CRO. Measurement of Power and Power Factor in a three phase AC circuit by two-wattmeter method. 5. 4. Calibration of Voltmeters and Ammeters using Potentiometers. 10. Determination of critical resistance & critical speed from no load test of a DC shunt generator. Measurement of Power in a single phase circuit by using CTs and PTs. 8. Plotting of external and internal characteristics of a DC shunt generator. Study of Spectrum Analyzers. 7. Determination of efficiency of DC machine by Swinburne’s Test and Brake Test. 9. Speed control of DC shunt motor by armature voltage control and flux control method. 7.PCEE7203 Electrical Machines Lab-I Select any 8 experiments from the list of 10 experiments 1. 9. 3. L. Measurement of R. and C using Q-meter. Testing of Energy meters (Single phase type). Binary counter with parallel load. No. Parallel adder and accumulator: design. 17 . OR. test and investigate operation of SR. EX-NOR. Clock-pulse generator: design. 12. 5. 2. 1 and 2 are compulsory and out of the balance 8 experiments atleast 3 experiments has to be implemented through both Verilog/VHDL and hardware implementation as per choice of the student totaling to 6 and the rest 2 can be either through Verilog/VHDL or hardware implementation. Gate-level minimization: Two level and multi level implementation of Boolean functions. D & J-K flip-flops. Verilog/VHDL simulation and implementation of Experiments listed at Sl. implement and test. 7. 4. 3 to 12. Digital Logic Gates: Investigate logic behavior of AND. Experiment No. implement and test a given design example with (i) NAND Gates only (ii) NOR Gates only and (iii) using minimum number of Gates. 6. use of Universal NAND Gate.PCEC7202 Digital Electronics Circuit Lab List of Experiments: (Atleast 10 experiments should be done. 3. Memory Unit: Investigate the behaviour of RAM unit and its storage capacity – 16 X 4 RAM: testing. simulating and memory expansion. Design. EX-OR. assemble and test various ripple and synchronous counters . NOR.decimal counter. 11. Counters: Design. Binary Multiplier: design and implement a circuit that multiplies 4-bit unsigned numbers to produce a 8-bit product. gray code to binary and 7 segment display.) 1. code converters. Invert and Buffer gates. Flip-Flop: assemble. 10. 13. Combinational Circuits: design. assemble and test: adders and subtractors. NAND. implement and test. 8. 9. Shift Registers: Design and investigate the operation of all types of shift registers with parallel load. Design with multiplexers and de-multiplexers. Practice activities for all four skills can be designed around these or similar situations. ii. ii. oral or written. Briefing subordinates / juniors : explaining duties and responsibilities etc. are listed below. Expressing / recording appreciation. i. iii. In-house communication Superior/ Senior subordinate / junior (individual individual / group) i. Welcoming new entrants to the organization. Gaining entry into an organization Preparing job-applications and CVs Facing an interview Participating in group discussion (as part of the recruitment process) 2 a. Instructing/ directing subordinates/ juniors iv. 1. ii. iii. praising / rewarding a subordinate or junior v Reprimanding / correcting / disciplining a subordinate/junior (for a lapse) . asking for an explanation etc. Some typical forms of work-related communication. introducing the workplace culture etc. ii. Lab 30 hours This course will focus on communication in professional (work-related) situations of the kind that BPUT graduates may expect to encounter on entering the professional domain. Motivating subordinates / juniors (‘pep talk’) iii. Subordinate / Junior Superior / Senior Responding to the above Reporting problems / difficulties / deficiencies Offering suggestions b. i.HSSM7203 Communication & Interpersonal skills for Corporate Readiness Lab. ***************************** 18 . PCEL7301 Power Electronics Lab. PCEL7302 Electrical Machines Lab-II 19 18 PCEL7303 Microprocessor & Microcontroller Lab 0-0-3 PCEC7304 Digital Signal Processing Lab. PCEE7304 Communication Engineering Lab. ORISSA ELECTRICAL & ELECTRONICS ENGINEERING (EEE) 5th Semester Code Theory HSSM3303 Environmental Engineering & Safety OR HSSM3302 Optimization in Engineering 3-0-0 3-0-0 3-0-0 3-1-0 3-0-0 3 3 3 4 3 6th Semester L-T-P Credit Code Theory HSSM3302 Optimization in Engineering HSSM3303 Environmental Engineering & Safety PCEL4303 Microprocessor & Microcontrollers PCEC4304 Digital Signal Processing PCEE4304 Communication Engineering PEME5305 Robotics & Robot Applications PEEE5301 Optoelectronics Devices & Instrumentation PEEL5303 Electric Drives PEEC4304 ComputerNetworks& Data Communication PCCS4304 Operating Systems FEEE6301 Industrial Process Control and Dynamics Theory Credits Practical/ Sessional 0-0-3 0-0-3 0-0-3 2 2 2 Free Elective-II (Any one) Professional Elective-II (Any one) OR 3-0-0 3 3-0-0 3 3-0-0 3 3-0-0 3 3-0-0 3 Subjects Subjects L-T-PCredit PCEC4303 Control Systems Engineering PCEL4301 Power Electronics PCEL4302 Electrical Machines-II PEEL5302 Renewable Energy Systems PEEL5301 Sensors and Transducers PEEC4301 Advanced Electronic Circuits FESM6301 FEEC6301 PCCS4301 PCIT4303 Professional Elective-I (Any one) Free Elective-I (Any one) Numerical methods Data Base Management Systems Computer Organization Java Programming 3-0-0 3 3-0-0 3 Theory Credits Practical/ Sessional PCEC7303 Control & Instrumentation Lab. 0-0-3 0-0-3 2 2 2 Practical/ Sessional Credits 06 Practical/ Sessional Credits 06 TOTAL SEMESTER CREDITS TOTAL CUMULATIVE CREDITS 25 136 TOTAL SEMESTER CREDITS TOTAL CUMULATIVE CREDITS 24 160 .BIJU PATNAIK UNIVERSITY OF TECHNOLOGY . Activated sludge treatment: Anaerobic digestion. G. Colling. E. EU.A. Environmental Engineering by Arcadio P. Sincero & Gergoria A. An Introduction to Environmental Engineering and Science by Gilbert M. Extinguishing Fire. Pharmaceutical industry. L. criteria pollutants.G. Electrical Safety. Hazardous waste management.5th Semester   HSSM3303 ENVIRONMENTAL ENGINEERING SAFETY (3-0-0) & Module – I Ecological Concepts: Biotic components. TMH. Mohapatra. Food Chain.K. Curringham & Saigo. Man and Environment by Dash & Mishra 5. Sincero PHI Publication 2. (b)Air Pollution : Air pollution and pollutants. Inorganic waste treatment. Global climate change –greenhouse gases. 4.I. (c) Solid waste. Reuse and recycling. Safety procedures. Prevention of Accidents involving Hazardous substances. primary and secondary treatment of waste water. Chemistry in Environmental Engineering: Atmospheric chemistry. 2004 3.Safety Handling and Storage of Hazardous Materials. Atmospheric dispersion. M. . Reference Books 1. L. Water treatment processes. Oxygen cycle. 1997. US and Indian Environmental Law. Conventional process. Environmental Science. M. Product Safety. Hazard Control Measures in integratednsteel industry. Industrial Air Emission Control. Bottling. Reactor configurations and methane production. Transportation and treatment: Incinerators. Module – III Occupational Safety and Health Acts. Ela . measurement and control. J. Nitrogen cycle etc. D A – Prentice Hall. Pre-treatment of water. Principles of Environmental Engineering and Science. Chemical and Heat Burns. Ground water. Solid Waste Management.. Kiely. Personal Protective Equipments. Environmental auditing. 2. Hazardous waste and their generation. McGraw Hill International Edition.. Dhanpat Rai & Co Publication Industrial Safety Management. Source classification and composition of MSW: Separation. Safety Management.P. Environmental gradients. Environmental Engineering by Prof B. Type of Accidents. Water cycle. Noise pollutionNoise standards. 6. Waste Minimization Techniques. Hydro Carbons and Wastes. Ecosystem Process: Energy. Fire Prevention – Detection.PHI Publication. 3. Gas Cylinders. Acid deposition. Tolerance levels of environment factor. Masen. air pollution meteorology. Deshmukh. Tata McGraw Hill Publication. Environmental Engineering Irwin/ McGraw Hill International Edition. Module – II (a)Waste Water Treatment: DO and BOD of Waste water treatment process. Water Treatment: water quality standards and parameters. Hazardous Waste Management. NOx removal. storage and transportation. New Delhi. Petroleum Refinery. non-criteria pollutants. Fugitive emissions. Advanced water treatment process. Soil chemistry. Flue gas desulphurization. Industrial Safety Management and Technology. Text Book : 1. pretreatment. Human error and Hazard Analysis. L. Corrosive Substances. Davis and S. Masters & Wendell P. Linear programming: Formulation of LPP. “ Optimization for Engineering Design”. Wiley India Pvt. Wiley India Pvt Ltd 2. G. M/M/1 model.K. D. Duality theory and its application.Ragsdell. Multiple server. . Unconstraint optimization: Fibonacci and Golden Section Search method.Hiller. Eighth Edition. McGraw Hill 2. Constrained optimization with equality constraint: Lagrange multiplier. P. Least Cost rule. F.M. Vogel’s approximation method. Nash.Balasubramanie.Taha. Graphical solution. D.Reklaitis. Modeling of problems and principle of modeling. “Operations Research”.J. MODI method. Sensitivity analysis in linear programming Unit-II (10 Hours) Transportation problems: Finding an initial basic feasible solution by Northwest Corner rule. Stephen G. Second edition. Eighth Edition. J. K. Markovian queuing model.Gupta.Principle and Practice”.A. Dual simplex method .Ravindran. Queue discipline. Revised simplex method. Quadratic programming Introduction to Genetic Algorithm. Recommended text books 1.Chand and Company Ltd. G. Second edition. “Operations Research”. Ravindran. Finite sources. A. PHI Learning Pvt Ltd Recommended Reference books: 1.Lieberman.V.M. Degeneracy.A.Natarajan. Kalyanmoy Deb. H. Simplex method. “ Operations Research. Ltd 3.Hira. Limited queue capacity. “ Linear and Non-linear Programming”. P. A. Stepping stone method Assignment problems: Hungarian method for solution of Assignment problems Integer Programming: Branch and Bound algorithm for solution of integer Programming Problems Queuing models: General characteristics.S. Sofer.S.Tamilarasi. Pearson Education 4.HSSM3302 OPTIMIZATION IN ENGINEERING (3-0-0) Unit-I (10 Hours) Idea of Engineering optimization problems.” Engineering Optimization”. Tata McDraw Hill 5. Philips. A. Unit-III (10 Hours) Non-linear programming: Introduction to non-linear programming. Projected gradient method Constrained optimization with inequality constraint: Kuhn-Tucker condition. T. Optimality test. S. Solberg. “ Operations Research”. Classification of optimization algorithms. BigM method. A. . Stability and Algebraic Criteria. Control Systems (Principles and Design) by M. Chand Co. 1st Edition (2004). Servomotors.J. concept of stability. Constant N-Circles. Signal flow Graphs. Modern Control Systems by Richard C. Synchros. correlation between Time and Frequency Response with respect to second order system. Mathematical Models of Physical Systems: Differential Equations of Physical Systems: Mechanical Translational Systems. Derivation of Transfer functions. C. Electrical Systems. Hostetter. Systems with transportation lag. Time Response of Second order systems to unit step input. Regulators. 2. Design of Feedback Control Systems by R. Regenerative feedback. Block Diagram Algebra. A. Bode plot. Module-II : (15 Hours) Time response Analysis : Standard Test Signals : Time response of first order systems to unit step and unit ramp inputs. 11th Ed (2009). P. Stefani. Text Books : 1. Control Systems Engg. Module-III : (13 Hours) Frequency Response Analysis : Frequency domain specifications. I. Ltd. Gear Trains. bandwidth. Pearson Reference Books : 1.N. Sivanandam and S. A. Rules of Construction of Root locus. Problems and solutions in Control System Engineering by S. Effect of adding open loop poles and zeros on Root locus. Analysis of Linear Control Systems by R.L. Control Systems Engineering by S. Routh stability criterion. Polar plots. Open loop and closed loop systems. PD.J. Eugene Xavier and J.Gopal. Determination of Gain Margin and Phase Margin from Bode plot.K. Savator. Shahian. Servo Mechanism/Tracking System. by I. TMH. Josheph Cyril Babu. Mechanical Acceloroments. Hurwitz stability criterion. 2. Stepper Motors. Releative stability by shifting the origin in s-plane. Bishop. Determination of Roots from Root locus for a specified open loop gain.H. fluid systems. Time Response specifications. linearizing effect of feedback. Deepa.P. 3. Steady State Errors and Static Error Constants of different types of systems. Closed loop frequency response : Constant Mcircles. 5th edition PHI. 5th Edition.PCEC4303 CONTROL SYSTEM ENGINEERING (3-0-0) Module-I : (12 Hours) Introduction to Control Systems : Basic Concepts of Control Systems.C. Analogy between Mechanical and electrical quanties. 5. Feedback characteristics of Control Systems: Effect of negative feedback on sensitivity.C. Ogata. Jaico Publishing House. New Age International Publishers (2010). Root contours. Application of Nyquist stability criterion for linear feedback system. Tachometer. Oxford University Press. 3. Thermal systems. S. Zeigler-Nichols method of tuning PID controllers.N. Servomotors. Modern Control Engineering by K. Necessary conditions of stability. Root locus Technique: Root locus concepts. Generalised error series and Gensalised error coefficients. Nagrath and M.C. PI. Retational systems. Narasimham. Disturbance. G. Nyquist stability criterion. Control Components : D. PID controllers. B.Gopal 3rd edition (2008). Fourth Edition (2009). Mason’s Gain Formula. Nichol’s chart.T. International Publications 4. Controllers : Concept of Proportional.Dorf and Robert H. Derivative and Integral Control actions. Application of the Routh stability criterion to linear feedback system. Stability in frequency domain : Principle of argument. 4. 1.4 .8.2.2. .8. Static VAR Compensator. Taylor and Francis.8. Bridge Converter. 7. 120 deg. 6. Single phase Bridge Inverters.2. conduction.Power Electronics: Circuits. 10. Power Transistor: MOSFET Gate drive.7.2. IGBT and power MOSFET. 13. Ch: (10. IGBT gate drive. 3. Ch: (6. TMH Edition 2. 14. Ch: (14.5.9. Power Electronics: Converters . dv/dt.7. Wiley Student Edition. TRIAC. CRC. 18. Switching mode regulators: Buck regulators.10. 4.1. 2. Power Converter Circuits by W Shepherd and L Zhang.8. single phase cycloconverters.14. 8.5.2. Forward converters.5. 6. di/dt. 10. third and fourth quardrant. over current.5.3. first and second quardrant. 3rd Edition. Push Pull Converters. Ch: (10. 17.9) 4. 3-Phase Inverters-180 deg. 14. Isolation of gate and base drive. dv/dt & di/dt limitation. space vector modulation.2.6. 4. 10.6. Isolated Types: Fly Back Converters.2. 11.3 phase full converter with R-L and R-L-E load . 4.8) Controlled rectifiers : Principle of phase controlled converter operation. 10.1.8.4) 3(d) DC to AC converter: Inverters: PWM inverters. Undeland and Robbins. 4.3.PCEL4301 POWER ELECTRONICS (3-0-0) Module-1 12 Lecturers 1.4. 18. 3. Pearson Reference Books: 1.2.MCT. Gate Protection.4. Zero Current Switching resonant inverters.8. 3. (a) Triggering Methods: SCR: UJT and R-C triggering scheme.3.2.3.8.8.10) Module-2 12 Lectures 3(a). 3 phase semi converter with R-L and R-L-E load.5. 18.6. 7. IGBT. Ch: (17. Cuk regulators.10. Applications. Zero Voltage Switching resonant inverter. Special Indian Edition.5.9.4.single phase semi converter with R-L and R-L-E load. SMPS.10) Module 3 12 Lectures 3(c).7.3.AC –AC converter : AC voltage controller: Single phase bi-directional controllers with R and R-L load. Three phase PWM rectifier.8. 11. 18. 17. fourth quardrant converter. 3.6. and Design by Mohan.3. Applications: UPS.4. and MOSFET. 6. 8. Current Source Inverter.2. second quardrant. 4.1. Ch: (5.3.2. (b) Protection of Devices: SCR: Over voltage. 7.2. voltage control of 3-Phase Inverters: Sinusoidal PWM .4) Text Books: 1.8. 6.3. 10. single phase full converter with R-L and R-L-E load.RCT. 10. Battery Chargers.10) Single phase PWM rectifier. 3.5).4.3. DC to DC converter: Classification: First quadrant.8. 7.9. Transistor: protection of power BJT.3 phase bridge rectifier with R-L and R-L-E load Ch: (3. 11.5). Power semiconductor devices: Switching and V-I characteristic of devices Thyristor family: SCR.Devices and Applications by M H Rashid. Buck-Boost regulators.2.17. BJT base drive. and Transistor Family: BJT. Boost regulators.4.2. Ch: (11. Power Electronics: Principles and Applications by J. Electronic Ballast. 8.5. ac-voltage controllers with PWM control.6.2. 14. 4.4.5) 3(b).5.GTO. Vithayathil.1. Ch:(1. Ch: (18. conduction.4. AC to DC converter: Un controlled Diode rectifier : Single phase half wave and full wave rectifiers with R-L and R -L-E load . C. [M. 5.C. 5. 4. T-Connection (Scott Connection) of Two Single-Phase Transformers to convert Three-Phase balanced supply to Two-Phase balanced supply. 5. 6. 10. Torque and Power Equations of Salient Pole Synchronous Generator (Power Angle Equation and Power Angle Characteristic with stator resistance neglected). 10.5.G. Cylindrical Rotor type Three Phase Synchronous Generators (4+2=6 hours) (a) The Phasor Diagram of a Synchronous Generator. Machines.15] (2 hours) 3. The Short Circuit Ratio). Salient Pole type Three Phase Synchronous Generators (3+1=4 hours) Two Reaction Concept.2. Synchronous Generators and Synchronous Motors. Steady State Synchronous Motor operation. Machines. Operation of generators in parallel with other Generators of the same size. Distributed Windings in A. Synchronous Reactance and Impedance). 2.Real Power and Voltage – Reactive Power Characteristics of a Three Phase Synchronous Generator. B. 6. [Chapman: Ch.15] (1hour) MODULE-II [12 HOURS] 4.Say: Ch.11. The Rotating Magnetic Field. Two Single-Phase Transformers connected in Open Delta (V-Connection) and their rating.). Induced voltage in A. [Chapman: Ch. 10. Voltage Regulation and Speed Regulation. The Internal Generated Voltage of a Synchronous Generator. The Speed of Rotation of a Synchronous Generator.5.1.4.4] 2. 5. Voltage Regulation by Synchronous Impedance Method.8] (4 hours) (b) Zero Power Factor characteristic.6. Synchronous Generators (4 hours) The Conditions Required for Paralleling. Machines.2] (3 hours) Slip Test for determination of Direct axis and Quadrature axis Reactances. Synchronous Motor Ratings. Potier Reactance (Zero Power Factor = ZPF) Method. Development of the Equivalent Circuit of a Salient Pole type Three Phase Synchronous Generator (Direct axis and Quadrature axis Reactances.2. 5. Potier Reactance. B.10. Three-Phase Transformer connections. Parallel operation of Three Phase A. 5.3. Transformer Ratings and Related problems.C.4. The per unit system for Three Phase Transformer.1.[Chapman: Ch. Starting Synchronous Motors.9] 5.2. Measuring Synchronous Generator Model Parameters (Open Circuit and Short Circuit Tests and Determination of Synchronous Impedance and Reactance. 6. [Chapman: Ch. Three Phase Transformers (5+3=8 hours) Constructional features. Frequency .C.12] (5 hours) .6.7. The Effect of Coil Pitch on A. 4. Phasor Diagram for various load power factors.10.G.1. Operation of Generators in Parallel with large Power Systems. [Chapman: Ch. [M. Three Phase Synchronous Generators (5 hours) Synchronous Generator Construction (both Cylinderical Rotor and Salient Pole type). 4. 6.C. [Chapman: Appendix C. The Equivalent Circuit of a Synchronous Generator (Armature Reaction Reactance.4.10. 5.3.2.3.2. 2. The General Procedure for Paralleling Generators.1. Three Phase Synchronous Motors (8 hours) Basic Principles of Motor operation.Say: Selected Portions of Ch. Power and Torque in Synchronous Generators (Power Angle Equation and Power Angle Characteristic).5] MODULE-III [13 HOURS] 6.PCEL4302 ELECTRICAL MACHINES-II (3-1-0) MODULE-I [15 HOURS] 1.2. Say-‘Alternating Current Machines’. The Circuit Model of a Single Phase Induction Motor.R.S. Parallel operation of three phase transformers. Wiley India Reprint.5.2. 10.3. Introduction to Single Phase Induction Motors. REFERENCE BOOKS: (1) P. English Language Book Society (ELBS) /Longman.10.Say: Ch.5. Other types of Motors: Reluctance Motors.C. 10. Dd6. Yd1. [Chapman: Ch.McGraw Hill International Edition. Yz11). 2010. Dy1.Transformer Three phase Connections: Various Phase Displacements (0o. Dd0. Connection Diagrams and Phasor Diagrams of various Vector Groups (Yy0.G. (2) M.Sen-‘Principles of Electric Machines and Power Electronics’-2nd Edition. Single Phase and Special Purpose Motors (5 hours) The Universal Motor. Starting of Single Phase Induction Motors. 10. Dz0. [M.6] TEXT BOOKS: (1) Stephen J. 2005. .Hiziroglu-‘Electric Machinery & Transformers’-3rd Ed-Oxford Press. Yz1. (Fourth Edition).15] (3 hours) 7. Yd11.Guru & H. Dy11.+30o and -30o). Reprinted 1990.9. Speed Control of Single Phase Induction Motors.4. Dz6. Stepper Motors.G. John Wiley and Sons. 10. 10. 5. (2) B. 2007. 5th Edition.1. 180o. Yy6. Chapman-‘Electric Machinery and Fundamentals’. Renewable Energy Sources and Emerging Technologies. Singal. Anaerobic digester. R. Lighting. array. D. A. . Applications. Banerjee. Wood stoves. Applications. Case studies of Diesel-PV. Types and performance characteristics. N. Distributed energy systems and dispersed generation (DG) Module II: (20 Hours) Solar Photovoltaic systems: Operating principle. New Delhi. P. Pumping. Press. Peltier cooling Solar processes and spectral composition of solar radiation. 2006. Solar collectors. electric and hybrid electric vehicles Text Books: 1. Abbasi. 2005. Applications: Module III (15 hours) Biomass Power:Operating principle. Bio diesel. constant voltage and constant frequency generation with power electronic control. S. B. Wind Electrical Systems. Microhydel-PV. Prentice Hall of India. Series and parallel connections. reactive power compensation. aerodynamics of wind rotors. N.Professional Elective-I PEEL5302 RENEWABLE ENERGY SYSTEMS (3-0-0) Module I (5 Hours) Introduction: Fossil fuel based systems Impact of fossil fuel based systems. Kothari. Wind-PV.H. Hybrid energy systems. Reference Books: 1. Kastha. S. New Delhi. Tata McGrawHill. Pyrolysis. Photovoltaic cell concepts. Application. Non-Conventional Energy Resources. D. Hybrid Systems Need for Hybrid Systems. Bhadra. grid connected and self excited induction generator operation. Combustion and fermentation.Khan. wind turbine control systems. Combustion engine. 2. Wood gassifier. module. Characteristics of wind power plant. efficiency limit for wind energy conversion. 2009 3. types of converters. S. Ranjan. 2008. Applications Wind Energy:Wind energy conversion. Oxford Univ. power ~ speed and torque ~ speed characteristics of wind turbines. Abbasi. Renewable Energy Sources and Their Environmental Impact. Battery charging. conversion to electrical power: induction and synchronous generators. Bio gas. C. Biomass-Diesel systems. Cell. Renewable energy – sources and features. single and double output systems. Range and type of Hybrid systems. Non conventional energy – seasonal variations and availability. Prentice Hall of India. New Delhi. K. Maximum power point tracking. Radiation flux at the Earth’s surface. G. Springer. thermistors. Resistance Temperature Detector (RTD). London. Thermoelctric sensing elements: laws.1 to 9. Introduction to Measurement and Instrumentation. Transducers and Instrumentation. filters.C. bellows. step and frequency response of first and second order elements.R.T. Reference Books: 1. instrumentation amplifier. inverting. area and dielectric. cold junction compensation.PEEL5301 SENSORS AND TRANSDUCERS (3-0-0) Module –1 10 lectures Elements of a general measurement system.J. 2000.3. Riley and K. carrier systems. W.6. Industrial Instrumentation. push-pull configuration for improvement of linearity and sensitivity Amplifiers: Operational amplifiers-ideal and non-ideal performances. Instrumentation for Engineering Measurements. Module-3 10 lectures Signal Conditioning Elements: Deflection bridges: design of resistive and reactive bridges. Pearson Education. Capacitive sensing elements: variable separation. Inductive sensing elements: variable reluctance and LVDT displacement sensors. and diaphragms for pressure sensing. force and torque measurement.P. Ghosh: Section 10. Dally.D. phase sensitive demodulators and its applications in instrumentation. Bentley (3/e).O. 2003.1 to 8. A. NY. Murthy (2/e). New Delhi. calibration. 2.W. Measurement Systems Application and Design. (Bentley: Sections 9. McConnel (2/e). 2009. Text Books: 1. Doeblin (4/e). PHI Learning.4). NY.J. New Delhi. Dynamic characteristics of measurement systems: transfer functions of typical sensing elements. Electromagnetic sensing elements: velocity sensors. statistical characteristics.1 and 15.A. 3.V. (Bentley: Chapters 14) Module-2 14 lectures Sensing elements: Resistive sensing elements: potentiometers. strain gages. 2009. dynamic error in measurement systems. installation problems. Principles of Measurement Systems. New Delhi. 2. 3. thermocouple characteristics. PHI Learning.3 to 10. Ghosh: Sections 15.F. noninverting and differential amplifiers. IC temperature sensor Elastic sensing elements: Bourdon tube.K. Static Characteristics: systematic characteristics.2) . Ghosh(3/e).E. McGraw-Hill. Padmanabhan. John Wiley. International. 2007. .S. (Bentley: Sections 8. PEEC4301 ADVANCED (3-0-0) ELECTRONIC CIRCUIT MODULE-I (10 Hours) 1: Active Filters :Active Filters. Frequency response of Major Active filters. Pulse. Shunt Compensation of a Transistor Stage in a Cascade. All-Pass filter. Loading. 2. Emitter-coupled Astable multivibrator. Transistor miller time base generator. PHI. Frederick F. General features of a Time-base signal. Triggering the binary. Narrow Band-Pass Filter. limitations of Op-Amp as comparators. Exclusive-OR phase detector. Phase Locked Loop: Operating principle of PLL. Second-order low-pass Butterworth filter: First-order high-pass Butterworth filter. Low frequency Compensation. Phase detectors. Frequency Scaling. Common-emitter Model. 5: Monostable and Astable Multivibrator: Monostable Multivibrator. 9: Specialized IC Applications: IC 555 Timer: IC 555 Timer as a Monostable Multivibrator and its applications. Driscoll (Pearson Education Publication). RC-Coupled Amplifier. First order lowpass Butterworth filter: Filter Design.Robert F. 2: Oscillators: Oscillators: Oscillator Principles. 9. self-biased transistor binary. Linearity Correction through adjustment of driving waveform. 8: Voltage and Current Time Base Generators: Time-Base Generators. commutating capacitors. Pearson Education. Quadrature Oscillator. 8. Miller and bootstrap time base generators-Basic principles. (Selected portion from Chapter 3. Cascaded C E Transistor Stages. Gate Width of a Collector-Coupled Monostable Multivibrator. Herbert Taub and Mothiki S Prakash Rao (TMH Publication). Second Edition . voltage limiters.Ramakant A. fixed-bias bistable multivibrator. Narrow Band-Reject Filter. Anand Kumar. Pulse & Digital Circuits by K. Text Books: 1. Rise-time Response of Cascaded Stages. K Rama Sudha & G Manmadha Rao. Triggering Unsymmetrically through a Unilateral Device. Oscillator Types. Second-order high-pass Butterworth filter. Bandreject filters: Wide Band-Reject Filter. 12 and 13) 2. 2010. Transient Response of a Transistor Stage. Monostable Astable. Triggering of the Monostable Multivibrator. 11. Transistor Amplifier Response taking Source Impedance into Account. Transistor current time base generator. Small-signal. 8 and 9) 3. Current Gain with Resistive Load. High-frequency. MODULE-III (12 Hours) 7: Negative Resistance Switching Devices: Voltage Controllable Negative resistance devices. Voltage controlled Negative Resistance Switching Circuits. Coughlin. Exponential sweep circuit. 6: Wideband amplifiers: Wideband amplifiers: The Hybrid-π . 10. . Tunnel Diode operation and characteristics. Emitter-Coupled Monostable Multivibrator. Sawtooth wave generator. Band-pass filters: Wide band-pass Filter. Digital and switching Waveforms. zero-crossing detector. OP-Amps and Linear Integrated Circuits . (Selected portions) Reference Books: 1. Rise Time of Cascaded Compensated Stages. Frequency Response of a Transistor StageThe Short-Circuit Current Gain. Astable Collector-Coupled Multivibrator. A Simple Current sweep.Jacob Millman.Venkata Rao. Schmitt Trigger Circuit (Emitter-coupled Bistable Multivibrator). comparator characteristics. OP-Amps and Linear Integrated Circuits. Monolithic phase detector. Current Time-Base Generators. Pulse and Digital Circuits by A. Schmitt trigger. Unsymmetrical Triggering of the bistable multivibrator. Voltage-controlled oscillator. (Selected portion from Chapter 7. Bistable circuits using tunnel diode. Gayakwad (PHI Publication). Instrumentation Amplifier and its applications. Methods of generating a voltage time-base waveform. Waveforms of the Collector-Coupled Monostable Multivibrator. 3: Comparators: Comparators: basic comparator. Symmetrical Triggering. Triggering of a Bistable Multi Symmetrically without the Use of Auxiliary Diodes. MODULE-II (14 Hours) 4: Bistable Multivibrator: Bistable Multivibrator. IC 555 Timer as Astable Multivibrator and its applications. Transistor bootstrap time base generator. Thomson/ Cengage India 2. Round off errors.” Numerical analysis. Newton-Raphson method. Atkinson.E. The matrix inversion. General methods for boundary value problems. Multi step methods. Reference Books 1. Chapra. Numerical integration: The Trapezoidal rule. Runge-Kutta methods. Spline interpolation. Gauss quadrature Unit-III(10 Hours) Ordinary differential equation: Euler method. Romberg integration. Error definition. Total numerical error Roots of equation: Bisection ethos.” Second edition. Secant method. Eigen value problems (Algorithm and error analysis of all methods are included ) Text Book: 1. John Wiley & Sons. Lagrange interpolating polynomial.II FESM6301NUMERICAL METHODS (3-0-0) Unit –I (10 hors) Approximation of numbers. Error propagation. Fifth edition. Fixed point iteration. S. Improvement of Euler’s method. R. System of equations. Convergence and error analysis. S. Significant figures. Gauss-Siedel method Unit-II (10 hours) Interpolation: Newton’s divided difference interpolating polynomial.Free Electives .” Numerical methods for Engineers”. Error analysis and system conditions. System of non-linear equations Linear algebraic equation: LU decomposition. “ Numerica methods”.Canale. Accuracy and precision. THM Publication. . False-position method. Simpson’s rule. K. Kalavathy. Newton-Cotes algorithm for equations.P.C. Relational Algebra and Relational Calculus. Lightstone. Korth (McGraw-Hill Education ) 2. Normal Forms. Data models . Galgotia Publications (2) Database System: concept. Database Recovery System: Types of Data Base failure & Types of Database Recovery.Pearson Education References Books: (1) An introduction to Database System – Bipin Desai.Data Abstraction. (4) Fundamentals of Database Management System – Gillenson.Entity Relationship(ER). Sam S. Data Definitions and Data Manipulation Languages. 4 Ed. Armstrong's Axioms. Mapping ER Model to Relational Model.FEEC6301Database Management System (3-0-0) Module I : (10 hours) Database System Architecture . Fundamentals of Database System By Elmasari & Navathe. New Delhi th . Relational Database Design: Domain and Data dependency. Recovery techniques Text Books: 1. Dependency Preservation. Wiley India (5) Database Modeling and Design: Logical Design by Toby J. Query Processing Strategy. Elsevier India Publications. Module III: (10 hours) Transaction processing: Recovery and Concurrency Control.. Integrity Constraints and Data Manipulation Operations. and Tom Nadeau. Lossless design. SQL. Teorey.Singh (Pearson Ed) (3) Database management system by leon &leon (Vikas publishing House). Design & Application by S. 2005. Data Independence. Locking and Timestamp based Schedulers.Relational and Object Oriented Data Models. Module II : (12 hours) Relation Query Languages. Network .K. Database System Concepts by Sudarshan. Mc Graw Hill. 3. Instructions and instruction Sequencing. Software. Hayes Mc Graw Hill introduction. execution of complete Instructions. operational concepts. Addressing modes. Design principles and Application: B. Computer Architecture and Organization: William Stallings. Heuring Willey India. 5. 5th Edition. Paging and Page replacement policies. Multi bus organization. Oxford University Press 4. Computer Architecture: Parhami. Multiplication of positive Numbers. 4th Edition. Assembly Language. Integer Division. Module – III 12 Hrs Basic Processing units: Fundamental concepts. secondary storage. Reference Book : 1.S. Module – II 12 Hrs Arithmetic : Addition and subtraction of signed Numbers. Computer Architecture vs Computer Organization. Safwat Zaky. Bus structures. Floating. cache Memory. Basic Input/output operations. PHI 7. (IEEE754 s…) and operations. 2. subroutine. Computer system Architecture: Morris M. Design of Fast Adders. Hennessy. Signed-operand multiplication . Text Books: 1. Cache memory mapping policies. Hardwired control. Zvonkovranesic. 2. Memory Management requirement. 1st Edition. performance consideration. Elsevier.PCCS4301COMPUTER ORGANIZATION (3-0-0) Module –I 12 Hrs Basic structures of Computers: Functional units. Virtual memories. Big-endian and Little-endian representation. John L. Micro programmed control. Memory Operations. Govinda Rajalu. Cache updating schemes. Tanenbum. Murdocca. Pearson Education. additional Instructions. Machine Instruction and Programs: Memory location and addresses. Computer Architecture and Organization: John P. Mano PHI NewDelhi. . Computer Organization and Design Hardware/ Software Interface: David A. Memory System: Basic Concepts. Patterson. 6. Structured Computer Organization: A. Computer Architecture and Organizations. Computer Organization: Carl Hamacher.point Numbers. Computer Architecture And Organization: An Integrated Approach. Performance. Tata McGraw-Hill Publishing company Ltd. Fast multiplication. RISC vs CISC architecture. Using Exiting Classes building your own classes. Character Extraction. Java The complete reference: Herbert Schildt. Creating Multiple threads. Concept of Objects and Classes. statement. object (using clone () and the cloneable Interface).II 12 Hrs Multi Threading: Java Thread Model. Packages & Interfaces : Packages. Networking: Basics. Typecasting Arrays. Thread Priorities. switch. Nested loop). Remote method Invocation (RMI) Swing: J applet. while. Thread. Byte streams. Serialization. Multiple catch. The Object Class. reflection. Programming with Java: Bhave &. Deitel & Paul J. 3. 2. constructor overloading. Java I/O: Classes & Interfaces. Creating a frame window in an Applet . Reference Books: 1. component. Icons & Labels. Event Handing: Delegation Event model. container. Java’s Built in exceptions. Using final with inheritance. Text fields.PCIT4303 JAVA Programming (3-0-0) Module – I 12 Hrs Introduction to Java and Java programming Environment. Stream classes. TCP/IP Server Sockets. Creating a thread. panel. Control Fundamentals . Socket overview. Cengage Learning. The HTML APPLET Tag. th . Willey India. URL format. Implementing Interfaces. Pearson Education. 5. Unchecked exceptions. 4. Exception Handling: Fundamentals. Deitel. Object Oriented Programming. whois. String Comparison. Handling Events by Extending AWT components. Frame . Big Java: Horstman. Adapter classes. Fundamental Programming Structure: Data Types. static . Using isAlive ( ) and join ( ). Java Programming Advanced Topics: Wigglesworth. Core java API package. 8 Edition. Module . Patekar. Runtime memory management. variables in Interfaces. Java How to Program: H. Type I. Control Flow: Java’s Selection statements (if. Dynamic method Dispatch. Importing package. dowhile. Exploring Java-lang: Simple type wrappers. Buttons. Scroll panes. Introduction to Java Programming: Liang. user defined exception. Programming with JAVA. throw . AWT: AWT Classes window fundamentals. Method overriding. Canvas. Pearson Education. Access Protection. 7th Edition. Synchronization. TMH. Operators and their precedence. Thread Group. Event Classes. String length. TCP/IP client sockets. for. Runnable. 2nd Edition. Skeleton. String Handling: String constructors. TMH. final. Passing Parameters to Applets.III 12 Hrs Applets: Basics. Trees. Window. Interface. Interfaces can be extended. 5th Edition. URL connection. this keyword . Architecture. Modifying a string. variable. Balguruswamy. Inheritance: Using Super to Call Super class constructor. 2. Tables. Combo boxes. Type II. Layout managers. working with Graphics . iteration. wait () & notify ( ). Types Checked . throws. Event Listener Interfaces. Type III. PHI. Networking classes. JDBC: Fundamentals. finally. Applet context and show documents (). Type IV drivers. Using Abstract Classes. Text Books: 1. Tabbed panes. Module .M. Using try & catch. Character streams. & interfaces. To determine the transfer function of a system(network) using transfer function analyser. Study of a dc motor driven position control system 2. 11. 2. Study of the forward converter (Buck converter) and flyback converter(boost converter) operation. PI and PID control and apply PID control to servomotor 5. Study of the single phase half wave controlled rectifier and semi converter circuit with R and R-L Load 6. To measure the latching and holding current of a SCR 4. 6. Study the performance of three phase VSI with PWM control. inductance and capacitance using bridges 2. Study of the single phase pwm voltage source inverter. TRIAC and MOSFET. (b) Study of the cosine controlled triggering circuit 5. Study of the V-I characteristics of UJT 3. Obtain the frequency response of a lag and lead compensator 4. 10. Study of the resonant inverter.PCEC7303 Control and Instrumentation laboratory(0-0-3) List of Experiment : Control: (Any five) 1. 9. To observe the time response of a second order process with P. . To study and validate the controllers for a temperature control system 7. PCEL7301 Power Electronics laboratory (0-0-3) List of Experiment : (any ten) 1. To study the position control system using Synchros Instrumentation:(Any five) 1. Study of the V-I characteristics of SCR. Study of three phase full wave controlled rectifier circuits(Full and Semi converter) with R and R-L Load 8. Study of speed torque characteristics of two phase ac servomotor and determination of its transfer function 3. Measurement of unknown resistance. To study on the interface of PLC with PC for data acquisition applications 7. To plot the displacement-voltage characteristics of the given LVDT 3. Measurement of temperature-voltage characteristics of J-type thermocouple 4. (a)Study of the synchronized UJT triggering circuit. Study the performance of single phase AC Voltage controller with R and R-L Load 12. Study of single phase full wave controlled rectifier circuits(mid point and Bridge type) with R and R-L Load 7. Use a strain gauge to plot the curve between strain applied to a beam and the output voltage 5. Study of resistance-voltage characteristics of Thermistors 6. Measurement of speed by using magnetic pick up. 11. Measurement of transient and sub transient reactance of a salient pole alternator 10. Measurement of direct and quadrature axis reactance of a salient pole synchronous machine 9. . Speed control of a three phase induction motor using variable frequency drives 4. Study of parallel operation of two alternators 8. Determination of voltage regulation of alternator by synchronous impendence method. Determination of the V and inverted V curves of a synchronous motor 3. Delta and Scott).PCEL7302 Electrical Machines laboratory-II (0-0-3) List of Experiment: (any ten) 1. Determination of the voltage regulation of an alternator by zero power factor (zpf) method 2. Determination of parameter of a single phase induction motor and study of (a) Capacitor start induction motor (b) Capacitor start and capacitor run induction motor (c) Universal motor (d) Shaded pole motor 7. Determination of parameters of synchronous machine (a) Positive sequence reactance (b) Negative sequence reactance (c) Zero sequence reactance 5. Three phase transformer connections ( Star. Performance of grid connected induction generator. 12. Determination of power angle characteristics of an alternator 6. Protected Mode Operation.1 to 6.1 to 7. Physical Memory Organisations. Instruction Set. Passing Parameters to Procedures.1. Pins & Signals. ch. register Banks and Stack . Programmable Interrupt Controller 8259A. Interrupt Programming. Programming Assembling and Running an 8051 Program.1 to 3. Programmable Communication Interface 8251USART DMA. Maximum Mode System and Timings 8086 Instruction Set and Assembler Directives: Machine Language Instruction Formats. The Program Counter and ROM Space in the 8051 8051 data types and Directives.10. Architecture. The Keyboard/Display Controller 8279.7. Memory & I/O Addressing.1. Stack & Subroutines.8. Interfacing I/O Ports. Handling Programs of Size More than 64k. Bus Operation. Minimum Mode System and Timings.4.4. Interfacing EPROM & RAM Memories: 2764 & 6264.ch. Architecture. Timing & Control Module. Overview of the 8051 family 8051 Hardware Connection: Pin description of the 8051 8051 Assembly Language Programming: Inside the 8051. Stepper Motor Interfacing . Assembler Directives and Operators Assembly Language Programming with 8086: Machine Level Programs.2.5. Interfacing Analog to Digital Data Converters. PIO 8255]. Special Purpose Programmable Peripheral Devices and Their Interfacing Programmable Interval Timer 8253.9) MODULE –III (15 HOURS) 8051 Microcontrollers: Microcontrollers and embedded processors. Assembly. Pin Diagrams and Timing Diagrams: Register Organisation.Non Maskable Interrupt.1 to 1. Registers.1 to 2.ch.6th Semester PCEL4303 MICROPROCESSOR & MICRO CONTROLLERS MODULE . CRT Controller 8275 80386 Microprocessor: Introduction.4. Dynamic RAM Interfacing.4 & 7) MODULE – II (15 hours) 8086 Microprocessor: Architectures.5. 10. Paging Technique.Programming with an Assembler Special Architectural Features and Related Programming: Stack.ch.DMA Transfers and Operations. ch. Interrupt Cycle.3. Interrupts and Interrupt Service Routines. Programmable DMA Interface 8237. (Book-2: Ch.9.6. 8085 Instruction Timing & Execution.3. 8085 Interrupts (Book 1: Ch. ch.2. Addressing Modes. Assembly language programming. Timings and Delays Basic Peripherals and Their Interfacing with 8086: Semiconductor Memory Interfacing.1 to 10. PSW Register.10.1 to 5. ch. Floppy Disk Controller 8272. Register Organization. Machine Coding the Programs . Pins & Signals. Signal Description.1 to 4. Memory Management. Assembly Language Programming of 8085: Instruction set of 8085.7. Interfacing Digital to Analog to Converters.3. I/O Addressing Capability.Modes of Operation of 8255. Special Processor Activities.I (10 hours) Microprocessor Architecture: Microprocessor and Microcomputer Architecture.10.3.MACROS. Maskable Interrupt. Memory System. Floppy Disk and CRT Controllers DMA Controller 8257. Rafiqzzaman.13. Logic and Compare Instructions.15.3.1 to 11. (Intel & Motorola ). Pogramming for the 8255 Motor Control: RELAY. Roy & K.6.1 to 2.1. Accessing memory using various Addressing Modes. Programming & Interfacing) by Pearson . Stepper Motor Interfacing.10.2.0000 to 8085–Introduction to Microprocessor for Scientists & Engineers.ch.M. Accessing External data Memory 8051 Interfacing with the 8255: 8255 Interfacing.1. The 8051 Microcontroller & Embedded Systems– Pearson / PHI publication . Bit Addresses for I/O and RAM Arithmetic & Logic Instructions and Programs: Arithmetic Instructions.1 to 10. 5.17.ch.3. A.1.1 to 5.15. TMH 4. Signed number concepts and Arithmetic Operations.1.ch.S. BCD. Ghosh & Sridhar. DAC.3) TEXT BOOKS 1. 8051 connection to RS232.1 to 6.ch. programming & application with 8085.11. DAC Interfacing Sensor Interfacing and Signal Conditioning Interfacing to External Memory: Semiconductor Memory.ch. 8051 Serial port Programming in Assembly. Time Delay for Various 8051 chips 8051 I/O Port Programming: I/O Programming.Triebel and Avtar Singh. Programming timer Interrupts. Gaonkar. Ayela 3.The 8086 Microprocessor: Programming & Interfacing the PC by Keneeth J.3. Rotate Instruction and data Serialization. (India) Pvt. B The Intel Microprocessor – (Architecture. Programming external hardware Interrupts. 8051 Data Memory space. Interfacing with External ROM. Programming & Interfacing)– TMH Publication 3.ch. DC. and other Application Programs 8051 Serial Port Programming in Assembly: Basic of Serial communication. and Sensor Interfacing: Parallel and Serial ADC. Advanced Microprocessor and Peripherals (Architecture.ch. Programming the second Serial port Interrupts Programming in Assembly: 8051 Interrupts. “Microprocessors and Interfacing: Programming and Hardware”.ch. Microprocessor architecture. Bhurchandi. M. PHI 2.Hall. Interrupt Priority in the 8051 ADC.5. PHI 2. REFERENCE: 1. Mazidi & Mazidi. I/O Bit Manipulation Programming. DC Motor Interfacing and PWM (Book-3: Ch.W.1.1 to 3.14. 8051 Addressing Modes: Immediate and register Addressing Modes.Jump.4. Barry B.ch.4. and Call Instructions: Loop and Jump Instructions. Call Instructions.2. The 8088 and 8086 Microprocessors. and Stepper Motors: Relays and Opto-isolations. loop. R.4. Ltd.2.5. ASCII.2.ch.5.K.A.4. Microprocessor – Theory & Applications.1 to 13. Memory Address Decoding.3.1 to 14.ch. Pearson Education 6.7. Douglas V. PWM. Penram International Publishing.1 to 17. Programming the Serial Communication interrupt. Pole-Zero Cancellations. 3.2.1.3.3. Causality and Stability. Structure for FIR Systems: Direct-Form Structure. Relationship of the DFT to other Transforms. 9.PCEC4304 DIGITAL SIGNAL PROCESSING (3-0-0) Module – I The Z-Transform and Its Application to the Analysis of LTI Systems: (10 hours) The Z-Transform: The Direct Z-Transform. Selected portions from Chapter 3 (3. 9. Structure for IIR Systems: Direct-Form Structures. The Discrete Cosine Transform: Forward DCT. The Inversion of the Z-Transform by Partial-Fraction Expansion.5.3.2. Transient and Steady-State Responses.2. 3. Analysis of Linear Time-Invariant Systems in the z-Domain: Response of Systems with rational System Functions. Filtering of Long Data Sequences. Parallel-Form Structures.5. Inversion of the Z-Transforms: The Inversion of the Z-Transform by Power Series Expansion. Linear Filtering Methods Based on the DFT: Use of the DFT in Linear Filtering. 3.3. Linearity. 3. Cascade-Form Structures.3. 3. Multiplication of Two DFTs and Circular Convolution.2. Module – II Implementation of Discrete-Time Systems: Structure for the Realization of Discrete-Time Systems. 9. 9.2. Inverse DCT. and Symmetry Properties.1. Chapter – 7 of Textbook – 1. Frequency-Sampling Structures.2.2. 3.4) of Textbook – I (10 hours) . 3. 9.5.1. The Discrete Fourier Transform.1. Cascade-Form Structures. The Inverse Z-Transform.4.3. The DFT as a Linear Transformation.4) of Textbook – I The Discrete Fourier Transform: Its Properties and Applications Frequency Domain Sampling: Frequency-Domain Sampling and Reconstruction of Discrete-Time Signals.3.3.5. Properties of the Z-Transform. Additional DFT Properties. DCT as an Orthogonal Transform.2. Frequency Analysis of Signals using the DFT. Properties of the DFT: Periodicity. 3.1.1. Selected portions from Chapter 9 (9.1. Signal Flow Graphs and Transposed Structures. 9. 9.4.2. Selected portions from chapter 13 (13.2.2. The LMS Algorithm.K. G. 10.1.3. 8. Selected portions from Chapter 10 (10. Applications of FFT Algorithms: Efficient Computation of the DFT of two Real Sequences.2.3.1.5. 8. Characteristics of Practical Frequency-Selective Filters.3. Selected portions from Chapter 8 (8. Reference Book : 1. Adaptive Channel Equalization.2. Mitra.2. Digital Signal Processing – Principles.2. 13. G. 10.3) of Textbook – I Adaptive Filters: Application of Adaptive Filters: System Identification or System Modeling. 10. IIR Filter Design by the Bilinear Transformation.1. 10.2.1.3) of Textbook – I Module. Use of the FFT Algorithm in Linear Filtering and Correlation.1.1.III Efficient Computation of the DFT: Fast Fourier Transform Algorithms (15 hours) Efficient Computation of the DFT: FFT Algorithms: Direct Computation of the DFT.2) of Text book –I Text Books 1. Adaptive Direct-Form FIR Filters-The LMS Algorithm: Minimum Mean Square Error Criterion. Efficient Computation of the DFT a 2N-Point Real Sequence. 10. 10. 13. Proakis and D.2. Decimation-In-Time (DIF). Design of IIR Filters from Analog Filters: IIR Filter Design by Impulse Invariance.2.1.Design of Digital Filters: General Considerations: Causality and Its Implications.2.1. 13.2. Radix-2 FFT Algorithms: Decimation-In-Time (DIT). 4th Edition.1.2. Adaptive Line Enhancer. Design of FIR Filters: Symmetric and Antisymmetric FIR Filters. Algorithms and Applications by J.1.1. Pearson.2. Manolakis.1. 13. Digital Signal Processing – S. Adaptive Noise Cancelling.6. 8.2.1. 13.3. Design of Linear-Phase FIR Filters by using Windows. TMH .1.4. 10. 8. Design of Linear-Phase FIR Filters by the Frequency-Sampling Method. New Delhi. Schilling.PCEE4304 Communication Engineering(3-0-0) MODUE-I INTRODUCTION: Elements of an Electrical Communication System. Reference Book: 1. R. Limitations of DM..P. TMH.2 and 3 for module MODULE-I and MODULE-II of the course. Bandwidth of PCM system. Radio and Television broadcasting MODULE-III PULSE MODULATION SYSTEMS: Pulse amplitude modulation. by B. New Delhi.India: PHI Learning Private Limited. Taub. Intersymbol interference. Taub’s Principles of Communication Systems. S-Ary System Text Book: 1.Proakis. COMMUNICATION SYSTEMS ENGINEERING. 2009. 2. 2nd ed. India: Tata McGraw Hill Education Private Limited. Saha. Salehi. Modern Digital and Analog Communication Systems. Pulse Time Modulation PULSE CODE MODULATION: PCM system.D Sapre. Eye patterns. Angle Modulation. Companding. Mathematical Models for Communication Channels FREQUENCY DOMAIN ANALYSIS OF SIGNALS AND SYSTEMS: Fourier series. Noise in Delta Modulation. 2nd ed.M. Delta Modulation (DM). 2. Delta or Differential PCM (DPCM). Oxford . Selected portions from Chapter 7 and 8 of the book for MODULE-III. Line codes. Fourier Transforms. 2009. John G. Time Division Multiplexing of PCM signals. Band pass signals MODULE-II ANALOG SIGNAL TRANSMISSION AND RECEPTION: Introduction to modulation. Selected portion from Chapter 1. Amplitude Modulation (AM). Lathi. Adaptive Delta Modulation. Communication Channels and their Characteristics. Sampling and Band limited signals. Comparison between PCM and DM. COMMUNICATION SYSTEMS Analog & Digital.P Singh and S. Equalization. Noise in PCM systems. Power and Energy. K. Introduction to Robotics: Mechanics and control. Thermocouples. Robot assembly. Jacobian singularity. 5.PEME5305 ROBOTICS Module – I & ROBOT APPLICATIONS (3-0-0) 1.D. Definition of industrial robot. Inverse Kinematics: Manipulator workspace. Work volume and work envelope.Niku. PHI 3. Vision and Intelligence. Oxford University Press 8. Robot Anatomy.Spong and M. Drive selection. Sensing. Tata McGraw Hill 2. Robotics: Control. TMH. Module – II 3. Applications of Robotics: Capabilities of robots.J. Classification. Inspection. R. Joint space planning. T. Manipulator Transformation matrix. Manipulation and control. PHI 10.K. PHI 9. PHI 7. Resolution. Ghosal. Keramas. Nagrath.C. R.W. Design and control issues. Introduction to Robotics. Vidyasagar . Electrical actuators. Robotics. Mathematical modeling of a robot: Mapping between frames. 5. Dynamic modeling: Lagrangian mechanics. J. Applications. Systems. Schilling. Stepper motor. Robot Actuators: Hydraulic and pneumatic actuators. Fundamentals of Robotics: Analysis and Control. Cengage Learning . S. G. S. Appuu Kuttan K. Kinematic modeling of the manipulator. 4.Groover.S. 2. Introduction to Robotics: Analysis. Jacobian inverse. Cartesian space planning. R. programming and application.Dynamic model. Robotic Engineering: An Integrated Approach.G. Denavit-Hartenberg Notation. Chmielewski. Negin. Economic and social issues. Description of links and joints. I. international 4. Robot Dynamics and Control. Robotics and Control. Tata McGraw Hill 2. McGraw Hill 3. Module – III 6. Micro motor. Mittal and I. Text Books: 1. Brushless permanent magnet DC motor. Machine loading and unloading. accuracy and repeatability. KLAFTER.K. Wiley India. K.S. Material handling. Newton-Euler formulation. M. Manipulator Jacobian. A. Performance characteristic of a robot. Micro gripper. Robot configuration. Present and future application. Static analysis.P.Fu. Trajectory Planning: Definition and planning tasks.K. Fundamentals of Robotics: Evolution of robots and robotics. Micro actuator. Deb. Laws of Robotics.Gonzalez and C. A. Direct Kinematic model: Mechanical Structure and notations. 2D.B. S. Servomotor. Human arm characteristics.Deb and S. Solvable of inverse kinematic model. Description of objects in space. R. force sensors. Robot Technology: Fundamentals: J. Robot Sensors: Internal and external sensors. M. 8. Lagrange-Euler formulation. Welding. Kinematic relationship between adjacent links.R. 6. Industrial Robotics Technology. 7. Robotics: Fundamental Concepts and Analysis. TMH Reference Books: 1.. Obstacle avoidance. Robotics Technology and Flexible Automation. and M. Transformation of vectors. Saha.Lee. John J Craig. 5. Sections 4. Sections 4. transmission of light through slab and cylindrical waveguides. Module –2 12 Hrs Fiber optic components: couplers.3-8.P. New Delhi.3.K. single mode and multimode fibers. Section 11. New Delhi. polarizer. Laxmi Publications.F. R. Sections 8.OTDR and OFDR principles. current and voltage measurement. PIN and APD. loss and dispersion characteristics. N. interference. Chapter 10) Reference Books: 1.2-7.8.1-3.2.2. A. Optical Fiber: Construction of step and graded index fibers. splicer. 5. Mukhopadhyay (ed. 5. Sections 3.6.PN. New Delhi.). 2004. 2001. 17.8.Principles of Optical Communications and Optoelectronics (2/e).2. Oxford University Press. acceleration.3.Measurement and Instrumentation: Trends and Applications. Ghatak and K. 2007.6. New Delhi. Ravi Kumar. New Delhi.Sen and S.1-5. pressure. S. Ghosh.PEEE5301 Optoelectronics Devices & Instrumentation (30-0) Module –1 Wave Optics: 12 Hrs Wave properties of light: Propagation.10. 4.4. interference. Distributed fiber optic sensors.2.2. Hawkes: Optoelectronics: An Introduction (2/e). 7. polarization.2.3. 11.6. electro-optic. Ane Books. 8. Bala Saraswathi and I. electromagnetic. New Delhi. Text Books: 1. Detectors: photodiodes.7. diffraction. Pearson Education. Chapter 3. Lasers-fundamentals. Fiber optic gyroscope. 2. Module –3 Optoelectronic Instrumentation 12 lectures Modulation techniques: intensity.Khare: Fibre Optics & Optoelectronics. Sections 7. 3.1-8.Principles of Measurement Systems (3/e). . 8. Tyagrajan: Introduction to Fiber Optics: Cambridge University Press. (Chapter 1.8. J. (Chapter 2. Wilson and J. Sensing techniques for displacement. conditions for oscillations. Sections 3.4. flow. 2007. construction and principle of operation of gas and semiconductor.B. Chapter 18) 2.P. 3. Sources and Detectors : Sources: LED. 17. pulsed and continuous type lasers. PHI. M. Bentley. J. polarization. 3. 2010. 2008. Chapter 12. Braking. 1. Ch.K. 8.Synchronous Motor Drives: Synchronous Motor Variable Speed Drives.Dubey. Sugar Mills.14.1. 7. 2.16. 2. Speed Torque Conventions and Multi-quadrant Operation. Reference Book: (1) Modern Power Electronics and AC drives.5. 10.4. Coal Mines. 10. Cement Mills. Ch.13. Microprocessors and Control of Electrical Drives: Dedicated Hardware Systems versus Microprocessor Control. Ch.5. Ch. Starting.K. Ch. 6.4. 5.15. Tata McGraw Hill Publication. 2. 5. Text Books: (1) Book-1: Fundamentals of Electrical Drives-By G. 5.1. Pole Amplitude Modulation.20. Transient Analysis. Control of DC Drives using Microprocessors. 6. Pole Changing.6.19. Ch. Ch.3. 6. Ch. Ch.3. Ch.9. Ch. Ch. Calculation of Traction Drive Ratings and Energy Consumption. Ch. Load Equalization. Ch. 8. Cranes and Hoist Drives. Ch. Speed Control. 5. Ch. DC Traction employing Polyphase AC Motors.7. Book-1:Ch.18. Ch. 7.by B. 2. Ch. Components of Load Torques. Methods of Armature Voltage Control. Ch. Steady State Stability. Ch. 7. Ch. Ch.21.1. Thermal Model of Motor for Heating and Cooling.2. 4. Ch.15. Pangbourne.2.3. Steel Rolling Mills. Tractive Effort and Drive Ratings. 7.9. 6. 2010-11.Book-1:Ch. 10.4. Ch. 1. Drives for Specific Applications: Drive Considerations for Textile Mills. Nature and Classification of Load Torques. Ch.Bose.5.2.2. Transformer and Uncontrolled Rectifier Control. 7.16. 3.Book-2:Ch. Classes of Motor Duty. 6.3.4. 5. Ch. 6. 7. Book-2:Ch. Ch. Equivalent Values of Drive Parameters. .PEEL5303: Electric Drives (3-0-0) Module-I (12 Hours) Study of Motor Drives: Electrical Drives.13. Ch. Ch. Determination of Motor Rating. 6. AC Traction employing Polyphase AC Motors. 2. Ch. 5. Ch. 6. Ch.3. Ch. 6. Second Edition. Ch. Ch.Book-1:Ch. Electrical Motors. Ch. 5. Module-II (14 Hours) Steady State Performance of DC/AC Drives: Closed Loop Control of Drives. 7. 5.2. 5. 6. Ch. Conventional DC and AC Traction Drives.12. Advantages of Electrical Drives. Ch. Ch. Ch. Ch.6. Second Edition. 5. Choice of electrical Drives. 5. 5. Ch. 2.12. DC Motors and their Performances. Ch. 25 kV AC Traction using Semiconductor Converter Controlled DC Motors. Specific Energy Consumption.6. Variable Frequency Control from Voltage Source. Alpha Science International Limited. 5. 7. 10. Power Modulators. 2. Calculation of Time and Energy Loss in Transient Operations. Centrifugal Pumps. 5.1. Ch. 10. 6. Induction Motor Drives: Speed Control. Voltage Source Inverter Control.2. 7. 1.8.10.3. Slip Power Recovery. Pearson Education.4. (2) Book-2: Electric Drives-Concepts and Applications. Ch.1. Stator Voltage Control. Ch. Current Regulated Voltage Source Inverter Control. 4. 8. 10.9. Application Areas and Functions of Microprocessors in Drive Technology. Ch. Ch. 5.6. Ch. Variable Frequency Control of Multiple Synchronous Motors. 7. Module-III (12 Hours) Traction Drives: Nature of Traction Load. 4.By Vedam Subramanyam. Machine Tools.8. 1. Ch. 5. Control of Electrical Drives.3. 5. 2. Ch. Paper Mills. Rotor Resistance Control.1. Ch.20. 2001.18.10. 7.11. Controlled Rectifier Fed DC Drives.7. Chopper Controlled DC Drives. Ch.11. 7. Ch. Ch.2. Ch.2. Variable Frequency Control from Current Source. Ch.1. Fundamentals of Torque Equations.17.3. Ch. Ch. Current Source Inverter Control. Ch.10.8.3.21. Ch.4. 5.12. UK.8. Maximum Allowable Tractive Effort. Point Protocol. Willey India th 3. Digital Transmission: Line coding. 4. Oxford University Press 6. Analog Signals. Computer Networks: Natalia Olifer. Controlled Access. Analog versus Digital. Stop-and-wait ARQ. TCP congestion control and Quality of service. Point-to –Point Access: PPP Point –to. Imprint of Pearson. Forouzan.PEEC4304 COMPUTER NETWORK & DATA COMMUNICATION (3-0-0) Module – I 12 Hrs Overview of Data Communications and Networking. Tata McGraw-Hill. Computer Networks: A. Telephone network. Transmission mode. Cengage Learning . Transmission Impairment. Application Layer : Client Server Model. Local area Network: Ethernet. Wetherall.Elsevier. Digital Signals. Computer Networks:A system Approach:Larry L. Data Rate Limits. Tannenbum. IPV4. D. Data and Computer Communications: William Stallings. Data Communications and Networking: Behrouz A. Prentice Hall of India 5. Selective Repeat ARQ. Text Books: th 1. S. Data communication & Computer Networks: Gupta. Traditional Ethernet. Data Communications and Networking: White. Gigabit Ethernet. Bluetooth virtual circuits: Frame Relay and ATM. Sampling. Peterson and Bruce S. Module –II 12 Hrs Data Link Layer Error Detection and correction: Types of Errors. Analog Transmission: Modulation of Digital Data. Network for Computer Scientists & Engineers: Zheng. Imprint of Pearson 5 Ed Reference Book : . HDLC. Fast Ethernet. 9 Ed. Token bus. PPP Stack. WDM . TDM . Prentice Hall. Domain Name System (DNS): Electronic Mail (SMTP) and file transfer (FTP) HTTP and WWW. IPV6 ad ICMPV6 Transport Layer: Process to Process Delivery: UDP. Victor Olifer. addressing and Routing Network Layer Protocols: ARP. 4 Ed th 3. token ring Wireless LANs: IEEE 802. Telephone modems. More about signals. Davie. 4 Ed 2. Multiplexing : FDM . ICMP. Multiple Access Random Access. Block coding. Physical Layer : Analog and Digital.11. Channelization. Module – III 12 Hrs Network Layer: Host to Host Delivery: Internetworking. Unguided media (wireless) Circuit switching and Telephone Network: Circuit switching. th 1. Go-Back-N ARQ. modulation of Analog signals. Error Correction Data Link Control and Protocols: Flow and Error Control. Socket Interface. Transmission Media: Guided Media. Detection. Prentice Hall. Tanenbaum. Overview of Mass Storage Structure. Interprocess communication. 3rd Edition. Pearson . Kernel I/O Subsystem. MEMORY MANAGEMENT: Memory Management strategies. Parallel Systems. File System Implementation. Operating System Structures: Operating System Services. J. PHI 3. Demand Segmentation. Thread Scheduling. Recovery. Protection system. Greg Gagne. Application I/O Interface. I/O Hardware. Access Methods. Transforming I/O Request to Hardware Operation. MODULE-II 12 Hours PROCESS COORDINATION: Synchronization: The Critical section problem. MODULE-III 11 Hours STORAGE MANAGEMENT: File System Concept. 8th edition. Segmentation. Virtual Memory: Background. Windows XP. 3rd Edition. McHoes. R. Operating Systems – Pabitra Pal Choudhury. D. Operating Systems: A Spiral Approach – Elmasri. 2. recovery from Deadlock. Paging. Semaphores. contiguous Allocation. TMH Edition REFERENCE BOOK: 1. Operating Systems – Flynn. Classical problems of synchronization. I/O System Overview. Page Replacement Algorithms. Operating System Services. Mordern Operating Systems – Andrew S. Operating System Concepts – Abraham Silberschatz. Multiprogramming and Time Sharing systems. scheduling criteria. Swap-Space Management. Disk Structure. Deadlocks: System model. Peter Baer Galvin. Synchronization hardware. swapping. Deadlock Detection. Operating Systems – William Stallings. CASE STUDIES: The LINUX System. Allocation of frames. Levine. Deadlock Characterization Methods for Handling Deadlocks. performance of Demand paging. Multithreading Models. Examples of IPC Systems. system calls PROCESS MANAGEMENT: Process Concept. System components. File System Structure. scheduling algorithms. P. Peterson’s solution. Deitel. Process Scheduling. Distributed Systems and Real time Systems. Threading Issues. Deitel. Thrashing. Operating Systems – H. Windows Vista TEXT BOOK: 1. Deadlock avoidance. Carrick. PHI 3.M. Operation on Processes. Process Scheduling Basic concepts. Monitors. Disk Scheduling. Prentice Hall 4. Wiley-India. Page Replacement. File System Structure. Demand paging. Directory implementation. Deadlock Prevention.PCCS4304 OPERATING SYSTEM (3-0-0) MODULE-I 12 Hours INTRODUCTION TO OPERATING SYSTEM: What is an Operating System? Simple Batch Systems. Choffnes. Cengage Learning 2. Personal Computer Systems. Efficiency and Performance. Logical versus Physical Address space. 2009. Disk Management. inverting Amplifier. Book-1-Ch-5. Other Thermal Sensors. Comparators.6. Multiplexer and De-multiplexer.3.5.3. Op Amp Circuits in Instrumentation. Active Filters.2. Bridge Circuits. Integrator. Level changing.2.5. Digital recorder. Review of Digital Fundamentals.4.2.Applications.6. Metal Resistance versus Temperature Device. Zero adjustment. Strain Sensors.5.2.4.3. Digital-to-Analog Converters (DCA). Module-2 (20 Hrs) Thermal Sensors Definition of Temperature. Pulse modulations. Position Sensors. Boolean Algebra. Differential Amplifier. Pyrometry.2.6. RC Filters. Flow Sensors.4. Book-1-6.3.1.4. Digital Information. decoder and encoder. Final Control .6. Programmable Logic Controllers. Mechanical Sensors Displacement. Signal-Level Changes.7.3.5. Pressure Sensors. Passive Circuits.6. Book-1-Ch-3. Divider Circuit. Current-to-Voltage Converter.6.4.5. Busses and Tri-State Buffers. Analog-to-Digital Converters (ADCs). Book-1-Ch-4.5.4.3.2. Op Amp Specifications.6 Optical Sensors Photodetectors. Digital Electronics. Design Consideration. Converters. Book-1-Ch-2. Digital Signal Conditioning Introduction. AC/DC Power supply. Non. Conversions.4.6.5.FEEE6301 INDUSTRIAL PROCESS CONTROL AND DYNAMICS (3‐0‐0)  Module‐I  (10 Hrs))  Analog Signal Conditioning Introduction.3.4. Filtering and Impedance Matching. Thermocouples.4. Principles of Analog Signal Conditioning. Span adjustment.4. Thermistors. inverting Amplifier. Op Amp Characteristics.5. Linearization.3. Motion Sensors. Protection Voltage-to –Current Converter.2. Fractional Binary Numbers. Voltage Follower. Operational Amplifiers.2. Sample and Hold. Linearization.4. Leser Principles.3.5.1.2. 2.10.7.8. Module-3 (10 Hrs) Controller Principles Process Characteristics.4.3. Book-1-Ch-8.2.8.7. Selective and Adaptive Control Systems Selective Control.Adaptive Control Configuration. Book-1-Ch-7.5.8.1.2.Feedfrrward Control.5.Ratio Control.4.6.4. Ch-11.3.2. Signal Conversions.!0.!0. Switching and Control Devices.Oxford Publication Reference:Process control Systems and Instrumentation By-Terry Bartelt .4. Composite Control Modes.9. Relay Controllers and Ladder diagrams.3. Discrete-State Process Control Characteristics of the System. and Ratio Control Casecade Control.7. Actuators.2.3.4.11.!0.5.PHI Publication.10.1. control Elements.5. Discontinuous and Continuous Controller Modes.-PROCESS CONTROL INSTRUMENTATION TECHNOLOGY BY-Curtis D.5.11. PLCs.3. Analog Controllers Electronic controllers. 2-PROCESS CONTROL PRINCIPLES AND APPLICATIONS BY-Surekha Bhanot.10. Cengage Learning Publication . Book-1-10. Book-1-Ch-9.2. Book-2.4. pneumatic controllers. Book-2. Ch-!0. Control System Parameters.4.9. TEXT BOOK 1.7.Feedforward.9.Johnson.9.!0.11.Final Control Operation.8.6. Casecade.3.Feedforward-feedback cControl Configuration. design consideration. Adaptive Control. Binary to Gray code.Addition . Marking a specific bit of a number using look-up table 3. 2’s complement of a 16 bit number Optional (any one) 1. Study of Mode0. subtraction. register. Study of traffic light controller 2. subtraction . Mode3) 5.Mode1 and BSR Mode operation of 8255 6. Study of 8253 and its operation(Mode0. triangular and saw tooth wave using D to A Converter 4. Sorting an array of numbers in ascending/descending order . To separate the odd and even numbers from a given data array 5. Largest/smallest number of a given data array 4.Microprocessor & Microcontroller Laboratory List of Experiment : 8085 1. Finding a particular data element in a given data array 2. Study of stepper motor and its operations Optional (any two) 1. Generate square wave on all lines of 8255 with different frequencies 2. Generation of square. direct and indirect Addressing mode Optional (any one) 1. Multiplication and division of two 16 bit numbers 3. Study of elevator simulator 3. Addition and subtraction of 16 bit numbers 2.multiplication and division of 16 bit numbers. Addition. Transfer a block of data to another memory location using indexing 4. Hexadecimal to decimal conversion Interfacing 1. Initialize data to registers and memory using immediate. Mode2. multiplication and division of two 8 bit numbers 2. Operation of 8255 using 8051 microcontroller 8086 1. Study of 8279 (keyboard and display interface) 7. Study of 8259 Programmable Interrupt Controller 8051 Microcontroller 1. Smallest/largest number among n numbers in a given data array. Finding the convolution of periodic sequence using DFT and IDFT 6. Implementation of FFT (Fast Fourier Transform) algorithm (i) Decimation in Time (DIT) (ii) Decimation in Frequency (DIF) 7. Convolution of long duration sequences using overlap add. high pass and band pass) using windowing technique(harming window. Working with DSP processor (fixed point-TMS320C-5X/Floating point) series (i) Implement convolution (Linear and circular convolution) FIR and IIR implementation . Circular convolution of two sequences. Comparison of result with that of Linear convolution 4. (a) Finding auto correlation of a sequence (b) Finding cross correlation of two sequences ( c ) Finding power spectral density of a sequence 5. Design of FIR filter(low pass. rectangular window and Kaiser window) 8. Design of IIR filter (Design of Butterworth and Chebyshev filter) 9. Linear convolution of sequences (without using the inbuilt function ‘conv’ available in MATLAB) 3.Digital Signal Processing Laboratory (0-0-3) List of Experiment: 1. Different types of signal generation using MATLAB 2. haming window. overlap save meter 10. SSBSC) Experiment objective: Demonstrate the process of modulation and demodulation using AM. 4. 50Khz. SSB. • • Experiment objective: Analysis of spectrum of different signals. square.20MHz. DSBSC. square. saw-tooth. Equipment Required: • Frequency division multiplexing/ de-multiplexing experiment board. Equipment Required: . • CRO 2. Observer the process of PAM. Study of FM modulation and Demodulation Techniques. Analyze the spectrum of modulated signals. 100KKz and 1 MHz. Experiment objective: Demonstrate the process of modulation and demodulation using FM. 1MHz maximum frequency • CRO . Experiment objective: Demonstrate the process of PAM. Measurement of power associated with different harmonics in signals. Experiment objective: Demonstrate the process of multiplexing in time domain. dual trace • Spectrum analyzer. Analyze the process of frequency division multiplexing and frequency division demultiplexing. Equipment Required: Signal/ function generator. • Function generator (sine.20MHz. 1MHz maximum frequency • CRO . PWM and PPM. signal types: square. triangle wave. Equipment Required: • FM modulator/ demodulator experimental board. saw-tooth wave of frequencies 1KHz. Experiment objective: Demonstrate the process of multiplexing of signals in time and frequency domain. Measure different parameters associated with modulated signals. square wave. Analyze the spectrum of FM modulated signals and compare with theoretical bandwidth. Study and design of AM modulator and demodulator. Equipment Required: • Experiment board for PAM/ PPM/ PWM signal generation and detection • Multiplexing board • CRO 5. Measure the spectrum of the PAM. • Function generator (sine. (Full AM.frequency range upto 1MHz. Measure different parameters associated with modulated signals. sinusoidal. dual trace • Spectrum analyzer. Multiplex 2-4 PAM/ PPM and PWM signals. 3. quantization and determination of quantization noise. modulating signal). modulating signal). PPM and PWM signals. 10Khz. triangle.Communication System Engineering Lab (0 0 2 ) Analyze and plot the spectrum of following signals with aid of spectrum analyzer: Sine wave. Equipment Required: • AM modulator/ demodulator experimental board. Spectrum analyzer Upto 100MHz atleast 1. DC offset signal. • For experiment 7/8 MATLAB of current version/ scilab is required. Using Lab-View software simulate AM modulation and demodulation system. 10. Using MATLAB/ SCILAB generate a carrier and a modulating signal. 12. Experiment objective (for simulation exercises): Verify the process of modulation and demodulation in simulation environment. • AM and FM receiver ICs. • For experiment 9/10 Lab-View of current version is required. Show the waveform in time domain and analyze its frequency spectrum. Study the functioning of PCM and Delta modulator Experiment objective: Demonstrate the process of PCM modulation and Delta modulation.• • • Experiment board for PAM/ PPM/ PWM signal generation and detection Multiplexing board CRO 6. triangular and other forms waveform. • Computer of good configuration 9. Design a receiver to demodulate and receive the signal from the local FM radio station. 8. Using Lab-View software simulate FM modulation and demodulation system. Equipment Required: • Experiment board for PCM/ Delta Modulation/ Adaptive Delta Modulation generation and detection • Signal generator • CRO 7. triangular and other forms waveform. Repeat the simulation for modulating signal being square. ************ . • For experiment 11/12 following equipment is required • CRO • Components of assorted values. Analyze frequency spectrum of the signal after modulation and demodulation. Show the waveform in time domain and analyze its frequency spectrum. Modulate the carrier using AM. Observe the modulated and demodulated signals for different forms of modulation signal. Using MATLAB/ SCILAB generate a carrier and a modulating signal. Design a receiver to demodulate and receive the signal from am AM radio station. Repeat the simulation for modulating signal being square. Modulate the carrier using FM. • Computer of good configuration 11.
Copyright © 2024 DOKUMEN.SITE Inc.