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M.E. POWER ELECTRONICS AND DRIVES (PART TIME) [ 3 Year Programme]
CURRICULUM 2010
(Applicable to the Candidates joining in 2010 and after)
SEMESTER I
Subject Code Course Title L T P C
SEMESTER I :
THEORY :
10PMECC101 Applied Mathematics 3 0 0 3
10PMEPE102 Linear system theory 3 0 0 3
10PMEPE103Advanced Power Semiconductor
Devices
3 0 0 3
SEMESTER II
Subject Code Course Title L T P C
SEMESTER II :
THEORY :
10PMEPE201 Analysis of Inverter circuits 3 0 0 3
10PMEPE202 Analysis of Power Converters 3 0 0 3
10PMEPE203Microcontrollers and its
Applications
3 0 0 3
SEMESTER III
Subject Code Course Title L T P C
SEMESTER III :
THEORY :
10PMEPE301 Solid State DC Drives 3 0 0 3
10PMEPE302Modeling and Analysis of Electrical
Machines
3 0 0 3
10PMEPE303 Digital signal processing 3 0 0 3
PRACTICAL:
10PMEPE311 Power Electronics and Drives Lab I 0 0 3 2
SEMESTER IV
Subject Code Course Title L T P C
10PMEC401Research methodology, pedagogy
and Communication skills
3 0 0 3
10PMEPE402 Non Conventional Energy Systems 3 0 0 3
10PMEPE403 Solid State AC Drives 3 0 0 3
PRACTICAL:
10PMEPE411Power Electronics and Drives Lab-
II
0 0 3 2
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SEMESTER V
Subject Code Course TitleL T P C
SEMESTER V
THEORY :
10PMEPEE** ElectiveI 3 0 0 3
10PMEPEE** ElectiveII 3 0 0 310PMEPEE** ElectiveIII 3 0 0 3
PRACTICAL :
10PMEPE591 Project(Phase I) 0 0 6 3
SEMESTER VI
Subject Code Course TitleL T P C
SEMESTER VI:
PRACTICAL:
10PMEPE691 Project(Phase II) 0 0 24 12
Project(Phase I & Phase II) 0 0 30 15
LIST OF ELECTIVES
Subject Code Course Title L T P C
LIST OF ELECTIVES
10PMEPEE01 High Voltage Direct Current Transmission 3 0 0 3
10PMEPEE02 Computer Aided Design of Electrical Apparatus 3 0 0 3
10PMEPEE03 Data Communication and Networks 3 0 0 3
10PMEPEE04 Instrumentation in Electrical drives 3 0 0 3
10PMEPEE05 Intelligent Control 3 0 0 3
10PMEPEE06 Digital Signal Processors 3 0 0 3
10PMEPEE07 VLSI Design Techniques 3 0 0 3
10PMEPEE08 Special Electrical Machines 3 0 0 3
10PMEPEE09 Flexible AC Transmission Systems 3 0 0 3
10PMEPEE10 Advanced Digital System Design 3 0 0 3
10PMEPEE11 Power Quality Engineering 3 0 0 3
10PMEPEE12 Non- Linear system theory 3 0 0 3
10PMEPEE13 Embedded Systems 3 0 0 3
10PMEPEE14 Advanced Computer Architecture 3 0 0 3
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SEMESTER I
10PMECC101 APPLIED MATHEMATICS 3 0 0 3
UNITI ADVANCED MATRIX THEORY
Matrix norms Jordan canonical form Generalized eigenvectors Singular value
decompositionPseudo inverseLeast square approximationsQR algorithm.
UNITII CALCULUS OF VARIATIONS
Variation and its properties Eulers equation Functionals dependent on first and
higher order derivatives Functionals dependent on functions of several independent
variablesSome applicationsDirect methods: Ritz and Kantorovich methods.
UNIT III LINEAR PROGRAMMING
Basic conceptsGraphical and Simplex methodsTransportation problemAssignment
problem.
UNIT
IV Z
TRANSFORMSTransform of standard functions Convolution Initial and Final value problems
Shifting Theorem Inverse transform (Using Partial Fraction Residues)Solution of
difference Equations using ZTransform.
UNITV RANDOM PROCESSES
ClassificationStationary random processes Auto Correlation Cross Correlations
Power spectral densityLinear system with random inputGaussian Process.
REFERENCES
1. Venkataraman, M.K., 2000, Higher Mathematics for Engineering and Science,
National Publishing Company.
2. Bronson, R., 1989, Matrix Operations, Schaums outline Series, McGraw Hill, New
York.
3. Elsgoltis, 1970, Differential Equations and Calculus of Variations, MIR Publishers,
Moscow
4. Gupta, A.S., 1999, Calculus of Variations with Applications, Prentice Hall of India,
New Delhi.
5. Veerarajan,T., 2000, Probability, Statistics and Random Processes, Tata McGraw Hill,
New Delhi.
6. Gupta, P.K., and Hira, D.S., 1999, Operations Research, S.Chand and Co., NewDelhi.
7. Veerarajan,T., 2000, MathematicsIII, Tata McGraw Hill, New Delhi.
10PMEPE102 LINEAR SYSTEMS THEORY 3 0 0 3
UNIT-I MODERN CONTROL THEORY
Limitations of conventional control theory - Concepts of state, State variables and state
model ? State model for linear time invariant systems: State space representation using
physical-Phase and canonical variables.
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UNIT-II SYSTEM RESPONSE
Transfer function from state model - Transfer matrix - Decomposition of transfer
functions Direct, cascade and parallel decomposition techniques - Solution of state
equation - State transition matrix computation.
UNIT-III DISCRETE SYSTEM
State space representation of discrete system - Decomposition of Transfer functions -
Solution of discrete time system - state transistion matrix - Discretisation of continuous
time state equations.
UNIT-IV SYSTEM MODELS
Characteristic equation - Eigen values and Eigen vectors - Invariance of Eigen values
-Diagonalization - Jordan Canonical form - Concepts of controllability and
observability - Kalman's and Gilbert's tests - Controllable and observable phase variable
forms - Effect of pole-zero cancellation on controllability and observability
UNIT-V LIAPUNOV STABILITY
Liapunov stability analysis - Stability in the sense of Liapunov - Definiteness of ScalarFunctions Quadratic forms - Second method of Liapunov - Liapunov stability analysis of
linear time invariant systems.
REFERENCES:1. Katsuhiko Ogata., 1998, Modern Control Engineering, 3
rdEdition Prentice Hall of
India Private Ltd, New Delhi.
2. Nagrath, I.J., 2005, and Gopal M., Control Systems Engineering, New Age
International Publisher, New Delhi.3. Gopal, M., 2003, Digital Control and State Variable Methods, 2
ndEdition, Tata
McGraw-Hill Publishing Company Limited, New Delhi, India.
4. Nise S Norman., 2000, Control Systems Engineering, 3rd
Edition, John Wiley & aSons, Inc, Delhi.
10PMEPE103 ADVANCED POWER SEMICONDUCTOR DEVICES 3 0 0 3
UNITI INTRODUCTION
Power switching devices overview Attributes of an ideal switch, application
requirements, circuit symbols Power handling capability (SOA); Device selection
strategyOn-state and switching lossesEMI due to switchingPower diodesTypes,
forward and reverse characteristics, switching characteristicsrating
UNITII CURRENT CONTROLLED DEVICES
BJTs Construction, static characteristics, switching characteristics- Negative
temperature coefficient and secondary breakdown Power Darlington Thyristors
Physical and electrical principle underlying operating mode Two transistor analogy
Effect of K and ico on ia concept of latching Gate and switching characteristics
Converter grade and inverter grade and other types; series and parallel operation
Comparison of BJT and Thyristor Steady state and dynamic models of BJT and
Thyristor.
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UNITIII VOLTAGE CONTROLLED DEVICES
Power MOSFETs and IGBTs Principle of voltage controlled devices, construction,
types, static and switching characteristics Steady state and dynamic models of
MOSFET and IGBTs; Basics of GTO, MCT, FCT, RCT and IGCT.
UNITIV FIRING AND PROTECTING CIRCUITS
Necessity of isolation pulse transformer opto-coupler; Gate drive circuit for SCR,
MOSFET, IGBTs and base driving for power BJT over voltage, over current and gate
protections, Design of snuMEPEers.
UNITV THERMAL PROTECTION
Heat transferconduction, convection and radiationCoolingliquid cooling, vapour
phase cooling; Guidance for heat sink selection Thermal resistance and impedance
Electrical analogy of thermal components, heat sink types and designMounting types.
REFERENCES
1. Williams, B.W., 1992, Power ElectronicsDevices, Drivers, Applications and passive
components, Macmillan.2. Rashid, M.H., 2004, Power Electronics circuits, Devices and Applications, 3
rdEdition,
Prentice Hall India, New delhi.
3. Singh, M.D. and Khanchandani, K.B., 2001, Power Electronics, Tata McGraw Hill,
New Delhi.
4. Mohan, Undeland and Robins., 2000, Power ElectronicsConcepts, applications and
design, John Wiley and sons, Singapore.
SEMESTER II
10PMEPE201 ANALYSIS OF INVERTER CIRCUITS 3 0 0 3UNIT- I SINGLE PHASE INVERTERS
Principle of operation of half and full bridge invertersPerformance parameters
Voltage and wave form control of single phase inverters using various PWM techniques
SVM Technique.
UNIT - II THREE PHASE VOLTAGE SOURCE INVERTERS
180 degree and 120 degree conduction mode inverters with star and delta connected loads
voltage and wave form control of three phase invertersSVM Technique.
UNIT - III CURRENT SOURCE INVERTERS
Operation of six-step thyristor inverter inverter operation modes load commutated
inverters Auto sequential current source inverter (ASCI) current pulsations
comparison of current source inverter and voltage source inverters.
UNIT- IV MULTILEVEL INVERTERS
Multilevel conceptdiode clampedflying capacitorcascade type multilevel inverters
- comparison of multilevel inverters - application of multilevel inverters.
UNIT- V RESONANT INVERTERS
Series and parallel resonant inverters - voltage control of resonant inverters Class Eresonant inverterresonant DClink inverters.
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TEXT BOOKS
1. Rashid, M.H., 2004, Power Electronics Circuits, Devices and Applications, 3rd
Edition,
Prentice Hall India, New Delhi.
2. Jai P.Agrawal, 2002, Power Electronics Systems, 2nd
Edition, Pearson Education.
3. Ned Mohan, Undeland and Robins, 1995, Power Electronics: converters, Application
and design, John Wiley and sons.Inc, Newyork,.
REFERENCES
1. Sen, P.C. 1998, Modern Power Electronics, 1st
Edition, Wheeler Publishing Co, New
Delhi.
2. Bimbra, P.S., 2003, Power Electronics, 11th
Edition, Khanna Publishers.
3. Bimal K.Bose, 2003, Modern Power Electronics and AC Drives, 2nd
Edition, Pearson
Education,
4. Singh, M.D., Khanchandan, K.B., 2002, Power Electronics, Tata McGraw Hill
Publishing Limited
10PMEPE202 ANALYSIS OF POWER CONVERTERS 3 0 0 3
UNIT- I SINGLE PHASE AC-DC CONVERTER
Uncontrolled, half controlled and fully controlled converters with R-L, R-L-E loads and
free wheeling diodes continuous and discontinuous modes of operation - inverter
operation Dual converter - Sequence control of converters performance parameters:
harmonics, ripple, distortion, power factoreffect of source impedance and overlap.
UNIT- II THREE PHASE AC-DC CONVERTERUncontrolled and fully controlled converter with R, R-L, R-L-E - loads and free
wheeling diodes inverter operation and its limit dual Converter performance
parameterseffect of source impedance and over lap.
UNIT- III DC-DC CONVERTERS
Principles of step-down and step-up convertersAnalysis of buck, boost, buck-boost and
Cuk converterstime ratio and current limit control Full bridge converterResonant
and quasiresonant converters.
UNIT- IV AC VOLTAGE CONTROLLERS
Principle of phase control: single phase and three phase controllers various
configurationsanalysis with R and R-L loads.
UNIT -V CYCLOCONVERTERSPrinciple of operationSingle phase and three phase cycloconverterspower circuits
Output Voltage controlControl Schemes.
TEXT BOOKS
1. Ned Mohan, Undeland and Romepein, 1995, Power Electronics: converters,
Application and Design, John Wiley and sons.Inc, Newyork,.
2. Rashid M.H., 1995, Power Electronics Circuits, Devices and Applications ,
Prentice Hall of India, New Delhi,
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REFERENCES
1. Bimbra, P.S., 2003, Power Electronics, 11th
Edition, Khanna Publishers.
2. Jagannathan, V., 2006, Introduction to Power Electronics, Prentice Hall of India, New
Delhi.
3. Dubey, G.K., Doradla, S R., Joshi, A., Sinha, R.M K., 2004, Thyristorised PowerControllers, 1
stEdition, New Age International Pvt Ltd.
10PMEPE203 MICROCONTROLLERS AND ITS APPLICATIONS 3 0 0 3
UNIT- I MC68HC11 MICROCONTROLLER
Architecture memory organizationAddressing modesInstruction setProgramming
techniquessimple programs
UNIT -II PERIPHERALS OF MC68HC11
I/O portshandshaking techniquesreset and interruptsserial communication
interfaceserial peripheral interfaceprogrammable timeranalog / digital interfacing
cache memory
UNIT -III PIC 16C7X MICROCONTROLLER
Architecturememory organizationaddressing modesinstruction setprogramming
techniquessimple operation.
UNIT- IV PERIPHERAL OF PIC 16C7X MICROCONTROLLER
TimersinterruptsI/O portsI2C bus for peripheral chip accessA/D converter
VART
UNIT V SYSTEM DESIGN USING MICROCONTROLLERS
Interfacing LCD displayKeypad interfacingAC load controlPID control of DC
motorstepper motor controlbrush less DC motor control.
TEXT BOOKS
1. John B.Peatman , 2004, Design with PIC Microcontrollers, Pearson Education, Asia2. Michael Kheir, 1997, The M68HC11 Microcontroller Applications in control,
Instrumentation & communication, Prentice Hall, New Jersey.
REFERENCE
1. John B.Peatman, Design with Microcontrollers, MCGraw Hill.
http://www.nbcindia.com/advsearchresult.asp?txt=S%20R%20Doradla&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=A%20Joshi&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=R.M%20K%20Sinha&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=R.M%20K%20Sinha&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=A%20Joshi&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=S%20R%20Doradla&hid=auth -
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SEMESTER III
10PMEPE301 SOLID STATE DC DRIVES 3 0 0 3
UNIT - I DC MOTORS FUNDAMENTALS AND MECHANICAL SYSTEMS
DC motor- Types, induced emf, speed-torque relations; Speed control Armature and
field speed control; Water Leonard control Constant torque and constant horse power
operations.Characteristics of mechanical system dynamic equations, components of
torque, types of load; Requirements of drives characteristics multi-quadrant operation;
Drive elements, types of motor duty and selection of motor rating.
UNIT- II CONVERTER CONTROL
Principle of phase control Fundamental relations; Analysis of series and separately
excited DC motor with single-phase and three-phase converters waveforms,
performance parameters, performance characteristics. Continuous and discontinuous
armature current operations; Current ripple and its effect on performance; Operation with
free wheeling diode; Implementation of braking schemes; Drive employing dual
converter.
UNIT - III CHOPPER CONTROL
Introduction to time ratio control and frequency modulation; Class A, B, C, D and E
chopper controlled DC motor performance analysis, multi-quadrant control - Chopper
based implementation of braking schemes; Multi-phase chopper; Related problems.
UNIT - IV CLOSED LOOP CONTROL
Modeling of drive elements Equivalent circuit, transfer function of self, separatelyexcited DC motors; Linear Transfer function model of power converters; Sensing and
feeds back elements - Closed loop speed control current, hysteresis, PWM current
control and speed loops, P, PI and PID controllers response comparison. Speed controlby symmetric optimum method.
UNIT - V DIGITAL CONTROL OF DC DRIVE
Phase Locked Loop and micro-computer control of DC drives Program flow chart for
constant horse power and load disturbed operations; Speed detection and gate firing.
Simulation of converter and chopper fed dc drive.
TEXT BOOKS
1. Gopal K Dubey, 1989, Power Semiconductor controlled Drives, Prentice Hall Inc,New Yersy.
2. Krishnan, R., 2003, Electric Motor DrivesModeling, Analysis and Control,Prentice-Hall of India Pvt. Ltd., New Delhi.
REFERENCES
1. Gopal K Dubey, 2001, Fundamentals of Electrical Drives, Narosa Publishing House,
New Delhi.
2. Bimal K Bose, 2003, Modern Power Electronics and AC Drives, Pearson Education
(Singapore) Pte. Ltd., New Delhi.
3. Vedam Subramanyam, 2002, Electric DrivesConcepts and Applications, Tata
McGraw-Hill publishing company Ltd, New Delhi.4. Sen, P.C., 1981, Thyristor DC Drives, John wiley and sons, New York.
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10PMEPE302 MODELING AND ANALYSIS OF ELECTRICAL
MACHINES 3 0 0 3
UNITI ELECTROMECHANICAL ENERGY CONVERSION
Introduction Energy in Magnetic System Field energy and mechanical force
Multiply excited Magnetic field Systems- Dynamical Equations of Electromechanical
Systems- Basic concepts in Rotating machines- Elementary machines-Generated Emf-
MMF of Distributed AC windings- Rotating magnetic field- Torque in round rotor
machineOperation of basic machine types.
UNITII MODELING OF DC MACHINES
Equivalent circuit and Electro magnetic torque-Electromechanical modeling-Field
excitation: separate, shunt, series and compound excitation-commutator action. Effect of
armature mmf-State space modeling Transfer functions Measurement of motor
constants.
UNITIII DYNAMIC MODELING OF INDUCTION MACHINES
Equivalent circuits- steady state performance equations-Dynamic modeling of Inductionmachines: Real time model of a two phase induction machines, three phases to two phase
transformation-Electromagnetic torque-generalized model in arbitrary reference frames-
stator reference frames model-rotor reference frames model-synchronously rotating
reference frame model.
UNITIV BRUSHLESS DC MACHINES
IntroductionVoltage and Torque equations in Machine variablesVoltage and Torque
equations in Rotor Reference Frame Variables- Analysis of Steady State operation Dynamic Performance.
UNIT
V SPECIAL MACHINESPermanent magnet and characteristics-synchronous machines with PMs: Machine
configuration-flux density distribution-types of PMSM-Variable Reluctance Machines:
Basics-analysis-practical configuration-circuit wave forms for torque production stepping
motors.
REFERENCES
1. Krishnan, R., 2001, Electric motor & Drives: Modeling, Analysis and Control, Prentice
Hall of India.
2. Charles kingsley, Jr., Fityzgerald, A.E., Stephen D.Umans, 2002, Electric
Machinery, 6thEdition,Tata McGraw Hill, New Delhi.
3. Miller, T.J.E., 2005, Brushless permanent magnet and reluctance motor drives, Oxford.
4. Jones, C.V., 1967, The Unified Theory of ElectricalMachines: Butterworth, London.
5. Bhimbra, P.S., Generalised theory of electrical machines, Khanna Publishers.
6. Paul C.Krause, Oleg Wasynczuk, Scott D.Sudhoff, 2004, Analysis of Electric
Machinery and Drive Systems , 2nd
Edition, WileyInterscience .
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10PMEPE303 DIGITAL SIGNAL PROCESSING 3 0 0 3
UNIT- I DISCRETE TIME SIGNALS AND SYSTEMS
Representation of discrete time signal classificationsDiscrete timesystem Basic
operations on sequencelinearTime invariantcausalstablesolution to difference
equationconvolution sum correlationDiscrete time Fourier series Discrete time
Fourier transform.
UNIT- II FOURIER AND STRUCTURE REALIZATION
Discrete Fourier transformpropertiesFast Fourier transformZ-transformstructure
realizationDirect formlattice structure for FIR filterLattice structure for IIR Filter.
UNIT- III FILTERS
FIR Filterwindowing techniqueoptimum equiripple linear phase FIR filterIIR filter
Bilinear transformation technique impulse invariance method Butterworth filter
Tchebyshev filter.
UNIT -IV MULTISTAGE REPRESENTATIONSampling of band pass signal antialiasing filter Decimation by a n integer factor
interpolation by an integer factorsampling rate conversionimplementation of digital
filter banks sub-band coding Quadrature mirror filter A/D conversion
QuantizationcodingD/A conversionIntroduction to wavelets.
UNIT- V DIGITAL SIGNAL PROCESSORS
Fundamentals of fixed point DSP architecture Fixed point number representation and
computationFundamentals of floating point DSP architecture floating point numberrepresentation and computationstudy of TMS 320 C 50 processorBasic programming
additionsubtractionmultiplicationconvolutioncorrelationstudy of TMS 320
C 54 processor Basic programming addition subtraction multiplication convolutioncorrelation.
REFERENCES
1. John G.Proakis, Dimitris G.Manolakis., Digital Signal Processing: Principles,
Algorithms and Applications, PHI.
2. Salivahanan, S., Vallavaraj, A., and Gnanapriya, C., 2000, Digital Signal Processing,
Tata McGraw Hill, New Delhi,
3. Oppenheim A.V. and Schafer R.W., Englewood., 1975, Digital Signal
Processing, Prentice- Hall, Inc,.
4. Venkatramani, B., and Bhaskar, M., 2002, Digital Signal Processors architecture,
Programming and Applications, Tata McGraw Hill, New Delhi.
10PMEPE311 POWER ELECTRONICS AND DRIVES LABORATORY 0 0 3 2
1. Design, simulation and implementation of Single Phase Semi-converter with Rloads for continuous and discontinuous conduction modes.
2. Design, simulation and implementation of Single Phase Semi-converter with R-Lloads for continuous and discontinuous conduction modes.
3. Design, simulation and implementation of Single Phase Semi-converter with R-L-E loads for continuous and discontinuous conduction modes.
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4. Design, simulation and implementation of Single Phase full-converter with Rloads for continuous and discontinuous conduction modes.
5. Design, simulation and implementation of Single Phase full-converter with R-Lloads for continuous and discontinuous conduction modes.
6. Design, simulation and implementation of Single phase full- converter with R-L-Eloads for continuous and discontinuous conduction modes.
7. Design, simulation and implementation of Three phase full-converter with R-L-Eload.
8. Design, simulation and implementation of MOSFET, IGBT based Choppers.9. Design, simulation and implementation of IGBT based Single phase inverters.
SEMESTER IV
10PMECC401 RESEARCH METHODOLOGY, PEDAGOGY &
COMMUNICATION SKILLS 3 0 0 3
UNIT- I HIGHER EDUCATION AN INTRODUCTION
Historical perspectives, the objectives of higher education, role of higher education-social
focus, curricular focus, administrative focus, drivers of change in higher education-
globalization, changing demographics, structuring of employment, technological change,
demand of accountability, consumerism,. Expectations by employers, rate of knowledge
growth, campus demographics, concern for community. Restructuring and new patterns
of decision making.
UNIT- II RESEARCH PROCESSES AND METHODOLOGY
Introduction to ResearchResearch strategiesEthicsCode of conduct for Research
Health and Safety IPR Research Events Networks Outreach Activities Best
Research practices Quality assurance for Research Career Management for
ResearchersResearch seminarsJournal critiques.
UNIT- III EFFECTIVE RESEARCH SKILLS
Data collectionModelingSimulationAnalysisPrototypingPresentation Skills
Data Presentation Skills Research Writing skills (For Articles, Reports, Journals and
Thesis) Creative Skills Effective Interview Skills Team Building Skills
Communication and Interpersonal Skills knowledge Transfer skills Vivo voce
Teaching and Information Skills Effective use of Library Survey Skills Planning
and Control MethodsStatistical ToolsPatents and Copyrights Advanced ResearchTechniques and Tools.
UNIT- IV TECHNIQUES OF TEACHING AND EVALUATION
Large group techniques lecture, seminar, symposium, panel discussion-project
approaches and workshop. Small Group techniques-group discussion simulation, role
playing-Buzz techniques, brain storming, case discussion and assignmentsystem
approach in education. Individualized techniques-CAI Keller plan PSI and
programmed learning-methods of evaluation-self evaluation and student evaluation in
higher education, question banking, diagnostic testing and remedial teaching.
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UNIT- V ESSENTIALS FOR EFFECTIVE COMMUNICATION IN ENGLISH
Improving Vocabulary stock-general and technical vocabulary-British and American
vocabulary-homophones & homonyms, idioms and phrases-Different grammatical
functions of the same word-Grammar-Tenses, Voice, reported speech, Modals, spoken
English structures, formal and informal-letters, project reports, descriptions, circulars,
synopsis and summary writing. Listening skills for competitive exams-Reading skills-
skimming and scanning Reading journals, magazines and newspapers for
comprehension. Practical use of English conversation, seminars, individual speeches
and group discussions. Reference skills-Using dictionary, thesaurus and encyclopedia
effectively. Error shooting for better use of English.
TEXT BOOKS
1. Alley, Michael, 1996, The Craft of Scientific Writing, 3rd Edition, Springer.2. Alley, Michael, 2003, The Craft of Scientific Presentations, Springer.
REFERENCE BOOKS
1. Hubbuch, Susan, M., 2005, Writing Research Papers Across the Curriculum, 5 thEdition, Thompson.
2. Vedanayagam, E.G., 1989, Teaching technology for college teachers New Delhi -Sterling publishers (Pvt) Ltd.
3. Kumar, K.H., 1997, Educational technology, New Delhi- New age international(Pvt) Ltd.
4. Tony Bates.A.N., 2005, Technology, e-learning and distance education, NewYork, Rout ledge.
5. Aggarwal, J.C., 1995, Essential of educational technology; Teaching Learninginnovations in education-New Delhi Vikas publishing house (p) Ltd.
6. Crow and Crow, 1998, Educational Psychology, Erusia Publishing House, NewDelhi.7. M. Ashraf Rizvi, 2005, Effective technical communication, Tata Mc Graw Hill
Co.Ltd.
WEBSITES
www.english4engineer.com
www.learn4good.com/language/engineer
10PMEPE402 NON CONVENTIONAL ENERGY SYSTEMS 3 0 0 3
UNIT
I SOLAR ENERGYIntroduction to solar energy: solar radiation, availability, measurement and estimation
Solar thermal conversion devices and storage solar cells and photovoltaic conversion
PV systemsMPPT. Applications of PV Systemssolar energy collectors ands storages.
UNITII WIND ENERGY
Introduction Basic principles of wind energy conversion wind data and energy
estimation site selection consideration basic components of wind energy conversion
system Types of wind machines basic components of wind electric conversion
systems. Schemes for electric generations generator control, load control, energy
storageapplications of wind energyInter connected systems.
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UNITIII CHEMICAL ENERGY SOURCES
Introductionfuel cellsdesign and principles of operation of a fuel cell
Classification of fuel cells. Types of fuel cellsconversion efficiency of fuel cells. Types
of electrodes, work output and emf of fuel cell, Applications of fuel cells. Hydrogen
energy: Introduction hydrogen production electrolysis, thermo chemical methods,
Westing House Electro-chemical thermal sulphur cycle. Fossil fuel methods. Hydrogen
storage, Utilization of hydrogen gas.
UNITIV ENERGY FROM OCEANS
Introduction, ocean thermal electric conversion (OTEC), methods of ocean thermal
electric power generation, open cycle OTEC system, closed OTEC cycle. Energy from
tides: Basic principles of tidal power, component of tidal power plants, operation methods
of utilization of tidal energy, site requirements, storage, advantages and limitations of
tidal power generation. Ocean waves, energy and power from the waves, wave energy
conversion devices.
UNITV GEOTHERMAL ENERGY
Introduction, estimation of geothermal power, nature of geothermal fields, Geothermalsources, inter connection of geothermal fossil systems, prime movers for geo thermal
energy conversion. Application of geothermal energy. Energy from biomass:
Introduction, Biomass conversion technologies, photosynthesis, classification of biogas
plants. Biomass Energy conversion, Energy from waste.
REFERENCES
1. Sukatme, S.P., 1991, Solar EnergyPrinciples of thermal collection and storage, 2nd
Edition, Tata Mc Graw Hill, New Delhi.
2. Rai, G.D., Non Conventional Energy Sources.
3. Duffie, J.A., and Beckman, W.A., 1991, Solar Engineering of Thermal Processes, 2nd
Edition, John Wiley, New York.4. Goswami, D.Y., Kreith, F., and Kreider, J.F., 2000, Principles of Solar Engineering,
Taylor and Francis, Philadelphia.
5. Hall, D.D., and Grover, R.P., 1987, Bio-Mass Regenerable Energy, John Wiley,
Newyork.
6. Twidell, J., and Weir, T., 1986, Renewable Energy Resources, E&FN Spon Ltd.,
London.
10PMEPE403 SOLID STATE AC DRIVES 3 0 0 3
UNIT I CONVENTIONAL CONTROL OF INDUCTION MOTORS
Review of Induction Machine operation Equivalent circuit Performance of the
machine with variable voltage, rotor resistance variation, pole changing and cascaded
induction machines, slip power recoveryStatic Kramer Drive.
UNIT II VSI AND CSI FED INDUCTION MOTOR CONTROL
AC voltage controller fed induction machine operation Energy conservation issues
V/f operation theory requirement for slip and stator voltage compensation. CSI fed
induction machineOperation and characteristicsPWM controls.
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UNITIII FIELD ORIENTED CONTROL
Field oriented control of induction machines Theory DC drive analogy Direct or
Feed back vector control - Indirect or Feed forward vector control Flux vector
estimation - Space Vector Modulation control.
UNITIV DIRECT TORQUE CONTROL
Direct torque control of Induction Machines Torque expression with stator and rotor
fluxes, DTC control strategyoptimum switching vector selectionreduction of torque
ripple methods.
UNIT -V SYNCHRONOUS MOTOR CONTROL
Synchronous motor control - Brush and Brushless excitationLoad commutated inverter
fed drive.
REFERENCES
1. Bimal K Bose, 2002, Modern Power Electronics and AC Drives, Pearson EducationAsia.
2.Vedam Subramanyam., 1994, Electric DrivesConcepts and Applications, TataMcGraw Hill,
3. Krishnan, R., 2003, Electric Motor DrivesModeling, Analysis and Control, Prentice-
Hall of India Pvt. Ltd., New Delhi.
4. Leonhard, W., 1992, Control of Electrical Drives, Narosa Publishing House.
5. Murphy, J.M.D., and Turnbull, 1988, Thyristor Control of AC Motors, Pergamon
Press, Oxford.
6. Austin Hughes., 2006, Electric Motors and DrivesFundamentals, Types and
Applications, Elseviera division of Reed Elsevier India private Limited, New Delhi.
10PMEPE411 POWER ELECTRONICS AND DRIVES LABORATORY 0 0 3 100
1. Design, simulation and implementation of Single phase AC voltage controller.2. Design, simulation and implementation of closed loop control of converter fed
DC motor drive.
3. Design, simulation and implementation of closed loop control of chopper fedDC motor drive.
4. Design, simulation and implementation of VSI fed three phase inductionmotor drive.
5. Design, simulation and implementation of three phase synchronous motor anddrive.
6. Design, simulation and implementation of Single phase Cycloconverter.7. Design, simulation and implementation of Series inverter.8. Design, simulation and implementation of Parallel inverter.9. Design, simulation and implementation of Single phase Dual converter
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ELECTIVES
10PMEPEE01HIGH VOLTAGE DIRECT CURRENT TRANSMISSION 3 0 0 3
UNIT- I DC POWER TRANSMISSION TECHNOLOGY
Introduction-comparison of AC and DC transmission application of DC transmission
description of DC transmission system planning for HVDC transmission-modern trends
in DC transmission.
UNIT- II ANALYSIS OF HVDC CONVERTERS
Pulse number, choice of converter configuration-simplified analysis of Graetz circuit-
converter bridge characteristics characteristics of a twelve pulse converter-detailed
analysis of converters.
UNIT -III CONVERTER AND HVDC SYSTEM CONTROL
General principles of DC link control-converter control characteristics-system control
hierarchy-firing angle control-current and extinction angle control-starting and stopping
of DC link-power control-higher level controllers-telecommunication requirements.
UNIT- IV HARMONICS AND FILTERS
Introduction-generation of harmonics-design of AC filters-DC filters-carrier frequency
and RI noise.
UNIT- V SIMULATION OF HVDC SYSTEMS
Introduction-system simulation: Philosophy and tools-HVDC system simulation-
modeling of HVDC systems for digital dynamic simulation.
REFERENCES
1. Padiyar, K.R., 1990, HVDC Power Transmission System, 1st
Edition, Wiley Eastern
Limited, New Delhi.
2. Edward Wilson Kimbark, 1971, Direct Current Transmission, Vol. I, Wiley
interscience, New York, London, Sydney.
3. Rakosh Das Begamudre, 1990, Extra high voltage AC transmission engineering New
Age International (P) Ltd., New Delhi.
4. Arrillaga, J., 1983, High Voltage direct current transmission, Peter Pregrinus, London.
10PMEPEE02 COMPUTER AIDED DESIGN OF ELECTRICAL
APPARATUS 3 0 0 3
UNIT I INTRODUCTION
Conventional design proceduresLimitationsNeed for field analysis based design.
UNIT II MATHEMATICAL FORMULATION OF FIELD PROBLEMS
Electromagnetic Field Equations Magnetic Vector/Scalar potential Electrical vector
/Scalar potential Stored energy in field problems Inductance- Development of
torque/force- Lap lace and Poissons Equations Energy functional - Principle of energy
conversion.
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UNIT III PHILOSOPHY OF FEM
Mathematical models Differential/Integral equations Finite Difference method
Finite element methodEnergy minimizationVariational method- 2D field problems
DiscretisationShape functionsStiffness matrixSolution techniques.
UNIT IV CAD PACKAGES
Elements of a CAD System Pre-processing Modelling Meshing Material
properties- Boundary ConditionsSetting up solutionPost processing.
UNIT V DESIGN APPLICATIONS
Design of Solenoid ActuatorInduction MotorInsulatorsPower transformer.
TEXT BOOKS
1. Salon, S.J., 1995, Finite Element Analysis of Electrical Machines, Kluwer Academic
Publishers, London.
2. Hoole, S.R.H., 1989, ComputerAided, Analysis and Design of Electromagnetic
Devices, Elsevier, New York, Amsterdam, London.
REFERENCES
1.Silvester and Ferrari, P.P., 1983, Finite Elements for Electrical Engineers, CambridgeUniversity press,
2.Lowther, D.A., and Silvester, P.P., 1986, Computer Aided Design in Magnetics,Springer verlag, New York.
10PMEPEE03 DATA COMMUNICATION AND NETWORKS 3 0 0 3
UNIT I COMPUTER NETWORKS
Evolution of data networks, Network architecture, ISO Reference model examples ofnetworks, Application of networks, Physical layer, and communication medium
characteristics.
UNIT II MEDIUM ACCESS SUB LAYER AND DATA LINK LAYER
Local area networks, conventional channel allocation methods, pure-ALOHA, S-
ALOHA, Finite population ALOHA, Controlled ALOHA, Reservation ALOHA, Design
issues for packet radio networks IEEE Standard for LAN-Ethernet: CSMA/CD LAN,
Token passing ring. Data link layer design issues Service primitives Stop and wait
Sliding window protocolsComparison of stop and wait and sliding window protocols.
UNIT III NETWORK AND TRANSPORT LAYERS
Network layer design issues Routing algorithm - Congestion control algorithms
internetworking. Transport layer design issues Connection management A simple
transport protocol on top of X.25.
UNIT IV QUEUING THEORY AND CAPACITY ASSIGNMENT
M/M/I Queues/G/I Queues, priority queuing capacity assignment for terminal networks
and distributed networks, concentration and buffering for finite and infinite buffers ad
block storage.
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UNIT V PRESENTATION LAYER AND APPLICATION LAYER
Design issuesAbstract syntax notationData compression techniquesCryptography
Remote procedure call - Design Issues File transfer access and management,
Electronic mailVirtual terminalsOther applications.
TEXT BOOKS
1. Andrew S.Tanenbaum, 2003, Computer Networks, 4th
Edition, Prentice Hall ofIndia.
2. Bertsekas, D and Gallager, R., 2003, Data networks, 2nd
Edition, Prentice Hall of
India.
REFERENCES
1.Godbole and Kahate, 2003, Computer Communication Networks (Ascent Series),Tata McGraw Hill, New Delhi.
2. Schwartz, M., 2002, Computer Communications, Tata McGraw Hill, New Delhi.
3. Achyut S Godbole, 2002, Data Communications and Networking, Tata McGraw Hill.
4. Stallings, W., 1998, Data and Computer Communication, 2
nd
Edition, New York,Macmillan.
10PMEPEE04 INSTRUMENTATION IN ELECTRICAL DRIVES 3 0 0 3
UNIT - I
Review of Transducers - Introduction, measurement of translational and rotational
displacement. Resistive potentiometers, strain gauges; differential transformer, synchros,induction potentiometers, piezoelectric transducer; Electro-optical devices, Digital
displacement transducers (Translational and rotary encoders).Magnetic and photoelectric
pulse counting for speed. Transducers for Torque voltage; current; power; frequency;power factor; and phase angle measurement.
UNITII
Signal Conditioning - Necessity, Instrumentation amplifiers, chopper stabilized
amplifiers, Impedance converters, Noise problems, shielding and grounding. Concept of
filters; Low pass filters; high pass filters; band pass filters ;band rejection filters; digital
filters. Integration and differentiation of signals, Dynamic compensation, Linearization,
Concept of A/D and D/A Converters (voltage to frequency and frequency to voltage
converter) sample/hold amplifiers, Microprocessor applications in signal conditioning.
UNIT
IIIData Transmission And Recording- Cable transmission of analog voltage and current
signals, cable transmission of digital data, Fiber optic data transmission, FM/FM radio
telemetry, synchro position repeater systems.
UNITIV
Measurement and sensing in solid state drives-measurement techniques in DC and AC
drives recording of waveforms- Microprocessor based measurement of frequency, phase
angle; power factor; voltage; current; reactance; resistance; KVA; KW; KWh and KVAR.
sensing: sensing of voltage, current, Power and speed etc.,
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UNITV
Computerized Data Acquisition System - Elements of data acquisition systems, data
loggers, instrument interconnection systems; Block diagram and details of computerized
data acquisition systems Instrumentation schemes for close loop control of Dc drives and
AC drives.
REFERENCES
1. Jones, B.E., 1987, Instrument Technology, Vol.3 Butter worth and Co.,Publishers.
2. Andrew Parr, 1998, Industrial Control Handbook, Newnes Industrial press New Delhi.
3. Ernest O. Doebelin, 1990, Measurement Systems, McGraw-Hill Publishing Co.4. James Dally, W., 1993, Instrumentation for Engineering Measurements, John
Wiley & sons, Inc.
5. Dubey, G.K, S R, Joshi, A, Sinha, R.M K., 2004, Thyristorised PowerControllers, 1
stEdition, New Age International Pvt Ltd.
10PMEPEE05 INTELLIGENT CONTROL 3 0 0 3
UNIT- I INTRODUCTION
Approaches to intelligent control. Architecture for intelligent control. Symbolic reasoning
system, rule-based systems, the AI approach. Knowledge representation. Expert systems.
UNIT- II ARTIFICIAL NEURAL NETWORKS
Concept of Artificial Neural Networks and its basic mathematical model, McCulloch-
Pitts neuron model, simple perceptron, Adaline and Madaline, Feed-forward Multilayer
Perceptron. Learning and Training the neural network. Data Processing: Scaling, Fourier
transformation, principal-component analysis and wavelet transformations. Hopfield
network, Self-organizing network and recurrent network. Neural Network based
controller
UNIT - III GENETIC ALGORITHM
Basic concept of Genetic algorithm and detail algorithmic steps, adjustment of free
parameters. Solution of typical control problems using genetic algorithm. Concept on
some other search techniques like tabu search and ant-colony search techniques for
solving optimization problems.
UNIT- IV FUZZY LOGIC SYSTEM
Introduction to crisp sets and fuzzy sets, basic fuzzy set operation and approximatereasoning. Introduction to fuzzy logic modeling and control. Fuzzification, inferencing
and defuzzification. Fuzzy knowledge and rule bases. Fuzzy modeling and control
schemes for nonlinear systems. Self-organizing fuzzy logic control. Fuzzy logic control
for nonlinear time-delay system.
UNIT- V APPLICATIONS
GA application to power system optimization problem, Case studies: Identification and
control of linear and nonlinear dynamic systems using Matlab-Neural Network toolbox.
Stability analysis of Neural-Network interconnection systems. Implementation of fuzzy
logic controller using Matlab fuzzy-logic toolbox. Stability analysis of fuzzy control
systems.
http://www.nbcindia.com/advsearchresult.asp?txt=A%20Joshi&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=R.M%20K%20Sinha&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=R.M%20K%20Sinha&hid=authhttp://www.nbcindia.com/advsearchresult.asp?txt=A%20Joshi&hid=auth -
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REFERENCES
1. Jacek.M.Zurada, 1999, Introduction to Artificial Neural Systems, Jaico Publishing
House.
2. KOSKO, B., 1994, Neural Networks and Fuzzy Systems, Prentice-Hall of India Pvt.
Ltd.
3. KLIR G.J. and FOLGER T.A., 1993, Fuzzy sets, uncertainty and Information,
Prentice- Hall of India Pvt. Ltd.4. Zimmerman H.J., 1994, Fuzzy set theory-and its Applications, Kluwer Academic
Publishers.
5. Driankov, Hellendroon, Introduction to Fuzzy Control, Narosa Publishers.
10PMEPEE06 DIGITAL SIGNAL PROCESSORS 3 0 0 3
UNIT- I INTRODUCTION
Algorithms for signal processingBasic architecture of DSPs.
UNIT- II TEXAS PROCESSORSArchitectureAddressing modesInstruction setProgramming
UNIT- III PERIPHERALS INTERFACES OF DSP
PeripheralsmemoryApplications.
UNIT -IV EXTERNAL INTERFACE
Digital and analog Interface Host interface Memory interface DMA ports Serial
ports.
UNIT-V SPECIAL PROCESSORS FOR MOTOR CONTROL
ArchitectureSpecial featuresPWM generationcontroller implementation
REFERENCES
1. Padmanabhan et al, K., 2001, A Practical approach to Digital Signal Processing, New
Age Publications.
2. Venkataramani et al, B., 2002, Digital Signal ProcessorArchitecture, Programming
and Applications, TMH, New Delhi..
3. Texas InstrumentsManuals.
10PMEPEE07 VLSI DESIGN TECHNIQUES 3 0 0 3
UNITI OVERVIEW OF VLSI DESIGN TECHNOLOGY
The VLSI design processArchitectural designLogical designphysical design
Layout stylesFull customSemi custom approaches. Basic electrical properties
Of MOS and CMOS circuits: Ids versus Vds relationshipsTransconductancepass
TransistornMOS inverterDetermination of pull up to pull down ratio for an nMOS
InverterCMOS inverterMOS transistor circuit model.
UNIT-II VLSI FABRICATION TECHNOLOGY
Overview of wafer fabricationwafer processingoxidationpatterningDiffusion
Ion implantation Deposition Silicon gate nMOS process nwell CMOS process-Pwell CMOS processTwin tub processSilicon on insulator.
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UNIT-III MOS AND CMOS CIRCUIT DESIGN PROCESS
MOS layersStick diagramsnMOs design styleCMOS design styleDesign
Rules and layoutLambda based design rulesContact cutsDouble metal MOS
Process rulesCMOS lambda based design rulesSheet resistanceInverter
DelayDriving large capacitive loadsWiring capacitance.
UNIT
IV SUBSYSTEM DESIGN
Switch logicpass transistor and transmission gatesGate logicinverterTwo
Input NAND gateNOR gateother forms of CMOS logicDynamic CMOS logic
Clocked CMOS logicCMOS domain logicsimple combinational logic design
ExamplesParity generatorMultiplexers.
UNITV SEQUENTIAL CIRCUITS
Two phase clockingCharge storageDynamic shift registerprecharged bus
General arrangement of a 4 bit arithmetic processorDesign of a 4 bit shifter
FPGAs and PLDs.
REFERENCES
1. Eshranghian, E., Pucknell D.A., and Eshraghian, S, 2005, Essentials of VLSI circuits
and systems, PHI.
2. Neil H.E. Weste, David Harris and Ayan Banerjee, 2006, CMOS VLSI Design, A
circuits and Systems Perspective, (3/e), Pearson.
3. Wolf, W., 2002, Modern VLSI Design, (3/e), Pearson.
4. S.M. Sze, 1988, VLSI Technology,(2/e), McGraw Hill.
10PMEPEE08 SPECIAL ELECTRICAL MACHINES 3 0 0 3
UNIT- I SYNCHRONOUS RELUCTANCE MOTORS
Constructional features: axial and radial air gap Motors. Operating principle, reluctance
torquephasor diagram, motor characteristics.
UNIT -II SWITCHED RELUCTANCE MOTORS
Constructional features, principle of operation. Torque equation, Power controllers,
Characteristics and control Microprocessor based controller.
UNIT- III PERMANENT MAGNET SYNCHRONOUS MOTORS
Principle of operation, EMF, power input and torque expressions, Phasor diagram, Power
controllers, Torque speed characteristics, Self control, Vector control, Current controlschemes.
UNIT- IV PERMANENT MAGNET BRUSHLESS DC MOTORS
Commutation in DC motors, Difference between mechanical and electronic commutators,
Hall sensors, Optical sensors, Multiphase Brushless motor, Square wave permanent
magnet brushless motor drives, Torque and emf equation, Torque-speed characteristics,
Controllers-Microprocessor based controller.
UNIT- V STEPPING MOTORS
Constructional features, principle of operation, modes of excitation torque production in
Variable Reluctance (VR) stepping motor, dynamic characteristics, Drive systems andcircuit for open loop control, closed loop control of stepping motor.
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TEXT BOOKS
1. Miller, T.J.E., 1989, Brushless permanent magnet and reluctance motor drives,
Clarendon Press, Oxford.
2. Kenjo, T., 1989, Stepping motors and their microprocessor control,
Clarendon Press, Oxford.
REFERENCES
1. Kenjo, T and Naganori, S., 1989, Permanent Magnet and brushless DC motors,
Clarendon Press, Oxford.
2. Kenjo, T., 1989, Power Electronics for the microprocessor Age.
3. Bose, B.K., 1997, Modern Power Electronics & AC drives, Prentice Hall, New Jersey.
10PMEPEE09 FLEXIBLE AC TRANSMISSION SYSTEM 3 0 0 3
UNIT-I INTRODUCTION
Reactive power control in electrical power transmission lines-Uncompensatedtransmission line- series compensation-Basic concepts of static var Compensator (SVC) -
Thyristor Switched Series capacitor (TCSC) - Unified power flow controller (UPFC).
UNIT-II STATIC VAR COMPENSATOR (SVC) AND APPLICATIONS
Voltage control by SVC Advantages of slope in dynamic characteristics influence of
SVC on system voltageDesign of SVC voltage regulatorApplications: Enhancement
of transient stability steady state power transfer Enhancement of power system
damping- prevention of voltage instability.
UNIT-III THYRISTOR CONTROLLED SERIES CAPACITOR (TCSC) AND
APPLICATIONSOperation of the TCSC, Different modes of operation - Modelling of TCSC - Variable
reactance model - Modelling of stability studies. Applications: Improvement of the
system stability limit - Enhancement of system damping - Voltage collapse Prevention.
UNIT-IV EMERGING FACTS CONTROLLERS
Static synchronous compensator (STATCOM) Principle of operation V-I
CharacteristicsUnified power flow controller (UPFC)Principle of operationModes
of operationApplicationsModelling of UPFC for power flowstudies.
UNIT-V CO-ORDINATION OF FACTS CONTROLLERS
Controller interactions SVC SVC interaction Co-ordination of multiple controllersusing linear control techniquescontrol coordination using genetic algorithms.
REFERENCES
1. Mohan Mathur.R., Rajiv.K.Varma, Thyristor-Based Facts Controllers forElectrical Transmission Systems, IEEE press and John Wiley & Sons, Inc.
2. John, A.T., Flexible A.C. Transmission Systems, 1999, Institution of Electricaland Electronics Engineering (IEEE).
3. Narain G.Hingorani, Laszio. Gyugyl, 2001, Understanding FACTS Concepts andTechnology of Flexible AC Transmission Systems, Standards publishers-Delhi
4. Narin G.Hingorani, Flexible AC Transmission ", IEEE Spectrum, April 1993,pp40-45.
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5. Narin G. Hingorani, 1998, High Power Electronics and Flexible AC TransmissionSystems IEEE High Power Engineering Review.
6. Einar V.Larsen, Juan J. Sanchez-Gasca, Joe H.Chow, Concepts for design ofFACTS Controllers to damp power swings, IEEE Trans On Power Systems,
Vol.10, No.2, May 1995.
7. Gyugyi L., Unified power flow control concept for flexible AC Transmission ,IEEE Proc-C Vol.139, No.4, July 1992.
10PMEPEE10 ADVANCED DIGITAL SYSTEM DESIGN 3 0 0 3
UNITI SEQUENTIAL LOGIC OPTIMIZATION
Sequential Circuit Optimization Using State Based Models, Sequential Circuit
Optimization Using Network Models, Implicit Finite State machine Traversal
Methods, Testability Considerations for Synchronous Circuits.
UNITII ASYNCHRONOUS FINITE STATE MACHINES
Scope, Asynchronous Analysis, Design of Asynchronous Machines, Cycle andRaces, Plotting and Reading the Excitation Map, Hazards, Essential Hazards Map
Entered Variable, MEV Approaches to Asynchronous Design, Hazards in Circuit
Developed by MEV Method.
UNITIII SYSTEM DESIGN USING VHDL
Specification of combinational systems using VHDL, Basic language element of
VHDL, Types of Modeling, Design of serial adder with accumulator, State graph for
Control network, Design of Binary Multiplier and Binary Divider, Flip-Flops,
Registers, Counters, Sequential Machines, Combinational Logic Circuits.
UNIT
IV DIGITAL SYSTEM TESTING
Fault Models, Fault Equivalence, Fault Location, Fault Dominance, Single and
Multiple Stack Faults, Testing for Single Stack Faults, Algorithms, Random test
Generation, Adhoc Design for Testability Techniques, Classical Scan Designs,
Boundary Scan Standards, Built-In-Self-Test, Test Pattern Generation, BIST
Architecture examples.
UNITV HIGH SPEED DIGITAL DESIGN
Frequency, Time and Distance, Capacitance and Inductance Effects, High Speed
Properties of Logical Gates, Speed And Power, m e asurement Techniques, Rise
Time and Bandwidth of Oscilloscope probes, Self Inductance , Signal pickup andloading effects of probes, clock distribution, clock skew and methods to reduce skew,
Controlling crosstalk on clock lines, Delay adjustments, Clock oscillators and clock
jitter.
REFERENCES
1. Fletcher . 2004, An Engineering Approach to Digital Design, PHI.
2. Parag K Lala, 1997, Digital Circuit Testing and Testability, Academic.
3. Miron Abramovici et. al, 2001, Digital System Testing And Testable Design,
Jaico Publishing House.
4. Howard Johnson and Martin Graham, High Speed Digital Design:Handbook
of Black Magic, PHI PTR.
5. Masakazu Shoji, High Speed Digital Circuits, Addison Wesley Publishing Co.
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6. J.Bhaskar, 1999, A VHDL Primer, Addison Wesley.
7. C.H.Roth, Digital System using VHDL, PWS Publishing.
8. Z.Navabi, VHDL-Analysis and Modeling of Digital Systems, MGH.
10PMEPEE11 POWER QUALITY ENGINEERING 3 0 0 3
UNITI INTRODUCTION
Definitions Power quality, Voltage quality Power quality issues : Short duration
voltage variations, Long duration voltage variations, Transients, Waveform distortion,
Voltage imbalance, Voltage fluctuation, Power frequency variations, low power factor
Sources and Effects of power quality problemsPower quality termsPower quality and
Electro Magnetic Compatibility (EMC) Standards.
UNITII SHORT INTERRUPTIONS & LONG INTERRUPTIONS
IntroductionOrigin of short interruptions: Voltage magnitude events due to re-closing,
Voltage during the interruption Monitoring of short interruptions Influence on
induction and Synchronous motors, Adjustable speed drives, Electronic equipments Single phase tripping: Voltage during fault and post fault period, Current during fault
period Prediction of short Interruptions. Definition Failure, Outage, Interruption
Origin, Causes of long interruptions Principles of regulating the voltage Voltage
regulating devices, Applications: Utility side, End-User side Reliability evaluation
Cost of interruptions.
UNITIII VOLTAGE SAG & TRANSIENTS
IntroductionDefinitionMagnitude, DurationCauses of Voltage SagThree Phase
UnbalancePhase angle jumps Load influence on voltage sags on Adjustable speed
Drives, Power electronics loads, Sensitive loads - Stochastic assessment of voltage sags -
Overview of mitigation methods. DefinitionPower system transient modelPrinciples
of over voltage protection - Types and causes of transients Devices for over voltage
Protection - Capacitor switching transientsLightning transientsTransients from load
Switching.
UNITIV WAVEFORM DISTORTION, WIRING AND GROUNDING
Introduction Definition and terms Harmonics, Harmonics indices, Inter harmonics,
Notching Voltage Vs Current distortion Harmonics Vs Transients Sources and
effects of harmonic distortion System response characteristics Principles of
controlling harmonics Standards and limitation - Definitions and terms Reasons for
grounding National Electrical Code (NEC) grounding requirements Utility Powersystem groundingEnd-User power system groundingWiring and grounding problems.
UNITV POWER QUALITY SOLUTIONS
IntroductionPower quality monitoring : Need for power quality monitoring, Evolution
of power quality monitoring, Deregulation effect on power quality monitoring Power
factor improvement Brief introduction to power quality measurement equipments and
power conditioning equipments Planning, Conducting and Analyzing power quality
surveyMitigation and control techniques - Active Filters for Harmonic Reduction
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REFERENCES
1. Roger, C., Dugan, Mark, F., McGranaghan and Wayne Beaty, H., 2002, Electrical
Power Systems Quality, 2nd Edition, McGraw-Hill, New York,
2. Barry W.Kennedy, 2000, Power Quality Primer, McGraw-Hill, New York.
3. Sankaran, C., 2002, Power Quality, CRC Press, Washington, D.C.,
4. Math H.J.Bollen, 2000, Understanding Power Quality Problems: Voltage Sags and
Interruptions, IEEE Press, New York.5. Arrillaga, J., Watson, N.R., and Chen, S., 2000, Power System Quality Assessment,
John Wiley and Sons Ltd., England.
6. Short, T.A., Distribution Reliability and Power Quality, CRC Press Taylor andFrancis.
10PMEPEE12 NON- LINEAR SYSTEM THEORY 3 0 0 3
UNIT-I INTRODUCTION
Autonomy - Equilibrium points of nonlinear systems - Linearization of nonlinearsystems - Taylor's, Euler and Adams method - Runga Kutta
method.
UNIT-II SERIES APPROXIMATION METHODS
Poincare perturbation method ? Avoidance of secular terms - Krylov and Bogoliubov
method - Stability of limit cycles - Approximate solutions for the nonlinear
elements.
UNIT-III DESCRIBING FUNCTION
Describing function for different nonlinearities ideal relay hysteresis dead zone
saturation - Stability analysis of systems by describing function - Stable and unstablelimit cycle - Duel Input Describing Function - DIDF for typical nonlinearities -
Subharmonic responses.
UNIT-IV PHASE PLANE ANALYSIS
Singular points - Construction of phase plane using Isocline, Lienard, Delta and Pell's
methods - Poincare index and Bendixon theorems - Stability, determination - Limit
cycles - Closed loop trajectory - Nonlinear performance analysis of piecewise linear
system.
UNIT-V ON - OFF AND SLIDING MODE CONTROL SYSTEM
Solution of equation - Relay with lead circuit - Popov method - Generation of Liapunov
function - Gradient, Lure and Krasoviski method.
Variable structure systems - Basic concepts - Sliding modes in variable structure system
conditions for existence of sliding regions - Sliding mode approach to speed control of dc
motors.
REFERENCES
1.John E Gibson, "Non linear Automatic Control", McGraw Hill, 1963.
2.Nagrath I.J, Gopal. M., Control Systems Engineering", New Age InternationalPublishers, New Delhi 2005.
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3.Hasen K Khalil, "Nonlinear Systems", Prentice Hall Inc., New York, 1996.
4.Greensite,A.L.,?Elements of Modern Control Theory? Spartan Books, New York, 1970
10PMEPEE13 EMBEDDED SYSTEMS 3 0 0 3
UNIT-I INTRODUCTION TO EMBEDDED SYSTEM
An embedded system, functional building block of embedded system, Characteristics of
embedded system applications, Challenges in embedded system design, embedded system
design processes.
UNIT-II ARCHITECTURE OF EMBEDDED SYSTEM
Computer architecture taxonomy, CPUs programming input and output, Supervisor
mode, exceptions & traps, Coprocessors, memory system mechanisms - CPU bus -
memory devices - I/O devices - component interfacing - Assembly and linking - basic
compilation techniques.
UNIT-III OS FOR EMBEDDED SYSTEMS
Introduction to RTOS, multiple tasks and multiple processes, context switching, operating
system, scheduling policies, interprocess communication mechanisms. Introduction to
C/ OS II
UNIT-IV PERFORMANCE ISSUSES OF EMBEDDED SYSTEMS
CPU Performance, CPU Power consumption, Analysis and optimization of execution
time, program size, energy and power, Evaluating operating system performance, poweroptimization strategies for processes, Hardware accelerators.
UNIT-V DESIGN & IMPLEMENTATIONDevelopment and debugging, manufacturing Testing, Program validation and testing,
Need of Distributed embedded architecture, I2
C Bus, CAN Bus, Design examples: GPS
Moving map, Personal Digital Assistant, Elevator controller.
TEXT BOOKS:
1. Wayne Wolf, 2001, Computers as Components: Principles of EmbeddedComputer Systems Design, The Morgan Kaufmann Series in Computer
Architecture and Design, Harcourt Asia Pvt Ltd.
2. Rajkamal, 2003, Embedded Systems, Tata McGraw-Hill Publishing CompanyLtd., New Delhi.
REFERENCES:
1. David E Simon, 2004, An Embedded software primer, Pearson education India,New Delhi.
2. Sriram V Iyer, Pankaj Gupta, 2004, Embedded Real-time Systems Programming,
Tata McGraw-Hill Publishing Company Ltd, New Delhi.
http://www.amazon.com/s/ref=si3_rdr_bb_author?index=books&field%2dauthor%2dexact=Wayne%20Wolfhttp://www.amazon.com/s/ref=si3_rdr_bb_author?index=books&field%2dauthor%2dexact=Wayne%20Wolf -
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10PMEPEE14 ADVANCED COMPUTER ARCHITECTURE 3 0 0 3
UNIT-I INTRODUCTIONComputer architectural classification: Flynns classification Data flow versus Control
flow computers Parallelism in uniprocessor systems Balancing of subsystem
bandwidthParallel processing applications.
UNIT-II MEMORY AND INPUT/OUTPUT SUBSYSTEMS
Hierarchical Memory Structure: Memory hierarchyOptimisationAddressing schemes
for main memoryMultiple module memoriesMemory interleavingVirtual Memory
System: Concepts Paged Memory System Segmented memory System Memory
with Paged Segments Memory allocation and Management: Classification of memory
PoliciesOptimal Load Control Memory Management Policies Cache Memory and
Management: CharacteristicsCache Memory OrganisationFetch and Main Memory
Update Policies Block Replacement Policies Performance evaluation and
enhancement Input Output Subsystems: Characteristics Interrupt Mechanisms and
Special HardwareI/O Processors and I/O Channels.
UNIT-III PIPELINING AND VECTOR PROCESSING
Principles of pipeliningInstruction and Arithmetic pipelinesInstruction prefetch and
branch handling Data buffering and Busing structures Internal forwarding and
Register tagging Hazard detection and resolution Job sequencing and Collision
preventionVector Processing: CharacteristicsPipelined Vector Processing methods
Vectorization and optimization methods.
UNIT-IV ARRAY PROCESSINGSIMD Array Processors Masking and data routing mechanisms Inter PE
communicationsInterconnection networksParallel Algorithms for Array Processors
Associative ArrayProcessing.
UNIT-V MULTIPROCESSOR AND RISC ARCHITECTURE
Functional structures: Loosely coupled multiprocessorsTightly coupled multiprocessors
Processor characteristics for multiprocessing Multiprocessor scheduling strategies
Interconnection networks Parallel memory organization Parallel Algorithms for
Multiprocessors
Instruction execution characteristics Instruction execution charts Register files
Register optimization Reduced Instruction Set Architecture RISC pipelining RISC
versus CISC.
TEXT BOOKS
1. Hwang K, and Briggs F A, 1989, Computer Architecture and Parallel Processing,McGrawHill, New Delhi.
2. Stallings W, 2006, Computer Organization and Architecture, 7th Edition, PearsonEducation, New Delhi.
REFERENCES
1. Patterson, D A., and Hennessy, J L., 2005, Computer Organisation and Design: TheHardware/Software Interface, 3
rdedition, Morgan Kaufmann Publishers.
2. Hwang, K., 2006, Advanced Computer ArchitectureParallelism, Scalability andProgrammability, Tata McGrawHill, New Delhi.