COMPULSORY COURSES FOR B. TECH. (ELECTRICAL · COMPULSORY COURSES FOR B. TECH. (ELECTRICAL): ----- ... Beer and Lambert’s law (definition and units of terms involved, numerical

COMPULSORY COURSES FOR B. TECH. (ELECTRICAL): -----------------------------------------------------------------------

AC – 111 Applied Chemistry

Credits : 04 Total No. of Lectures: 48

UNIT – I: METHODS OF CHEMICAL ANALYSIS (8 L)

• Qualitative and quantitative analysis, principle of gravimetry and steps involved in gravimetric analysis, volumetric titration,

titrant, analyte, primary and secondary standards, basic requirements of a titrimetric method, types of titrations (acid-base,

oxidation – reduction, precipitation and chelometric titrations with examples).

• Absorption spectrophotometry, Beer and Lambert’s law (definition and units of terms involved, numerical problems), block

diagram of single beam uv – visible spectrophotometer.

• Definition of chromatography and chromatographic system (stationary and mobile phases), classification of chromatography

on the basis of physical mode (planar and column chromatography) and mechanism (sorption, partition and ion exchange

chromatography), RF value.

UNIT – II: WATER TREATMENT (8 L)

• Requirements of water for municipal use, municipal water treatment methods, plain sedimentation, sedimentation with

coagulation and filtration (gravity filters).

• Disinfection, types of disinfecting agents (bleaching powder, liquid chlorine, ozone, uv radiations and chloramine), break

point chlorination.

• Requirements of water for industrial use, hardness of water (units of hardness, calculation on hardness, determination of

hardness by soap and EDTA methods).

• Boiler defects (sludge and scale formation, priming and foaming), boiler corrosion and caustic embrittlement (causes and

prevention).

• Removal of hardness (by lime-soda process, zeolite process, ion-exchange process), calculations based on lime – soda

process.

UNIT-III: FUELS AND COMBUSTION CALCULATIONS (8 L)

• Definition of fuels, classification of fuels, calorific value and its determination by bomb calorimeter and Dulong’s formula,

numerical problems.

• Coal and its analysis (proximate analysis and ultimate analysis).

• Petroleum, important fractions of petroleum and their uses (petrol, diesel, lubricating oils), synthetic petrol (synthesis by

polymerization, by cracking, Fisher Tropsch process, Bergius process).

• Gaseous fuels (CNG, LPG).

• Combustion calculations.

UNIT-IV: LUBRICANTS AND LUBRICATION (8 L)

• Definition and classification of lubricants, Lubrication (types and mechanisms of lubrication).

• Liquid lubricants (mineral oils, fatty oils, compounded oils, silicone fluids).

• Types of greases and conditions for their use.

• Solid lubricants and conditions for their use.

• Testing of lubricants (viscosity and viscosity index, flash and fire points, cloud, pour and setting points, saponification

value, aniline point, drop point of grease).

UNIT-V: CORROSION AND ITS PREVENTION (8 L)

• Definition, significance and classification of corrosion.

• Electrode potential, electrochemical cell, Nernst equation, electrochemical corrosion, electrochemical and galvanic series.

• Corrosion control (by design and selection of materials, galvanizing, tinning, paints)

UNIT – VI: POLYMERS (8 L)

• Definition and classification of polymers (on the basis of origin, synthesis, thermal response, physical state, applications,

structure).

• Polymerization (addition and condensation), mechanism of free radical addition polymerization of vinyl chloride.

• Thermoplastics (PE, PVC, nylons, PTFE), thermosettings (Bakelite, polyester), elastomers (NR, BUNA rubbers,

vulcanization).

BOOKS RECOMMENDED FOR APPLIED CHEMISTRY COURSES (AC-111)

1. Analytical Chemistry by G.D. Christian, John Wiley and Sons, New York.

2. Quantitative Analysis by R.A. Day and A.L. Underwood.

3. A Text Book of Engineering Chemistry by S.S. Dara, S. Chand & Co., New Delhi (India).

4. Engineering Chemistry by B.K. Sharma, Krishna Prakashan Media (P) Ltd., Meerut (India).

5. Engineering Chemistry by P.C. Jain, Dhanpat Rai Publishing Company, New Delhi.

AM-111 (Mathematics – I)

Unit-I: Rank of a matrix with applications to consistency of a system of linear equations, Eigen – values and Eigen vectors of a

matrix, Cayley – Hamilton theorem.

Unit-II: Asymptotes and simple curve tracing. Successive Differentiation, Leibniz’s theorem, Taylor and Maclaurin series with

remainder terms.

Unit-III: Applications f integration to lengths of curves, surfaces and volumes of solids of revolution.

Unit-IV: Solution of exact differential equations, Linear differential equations of second and higher order constant coefficients.

Homogeneous differential equations. Simultaneous linear differential equations, Applications to physical problems.

ME 101: BASIC THERMAL SCIENCE

Unit-I

Dimensions and units, system, boundary, types of systems and boundaries, property, cycle, thermodynamic equilibrium and

quasi-static process.

Unit-II

Thermodynamic and mechanics’ definition of work and its expression, engine indicator and indicated work, introduction to 2-

stroke and 4-stroke engine, heat, work and heat as energy interactions, Joule’s experiment & mechanical equivalent of heat, first

law of thermodynamics for cyclic and non cyclic processes, definition of energy as a property, internal energy, enthalpy, specific

heats, first law for a control volume, steady flow energy Equation (SFEE), and it’s applications

Numerical problems.

Unit-III

Pure substance, different phases of pure substance, two-property rule, property diagrams, tables and charts, equation of state of an

ideal gas,t~ , t~p, p~v, and t~v diagrams, phase boundaries , S-L-V region , CP and TP, dryness fraction and its measurement

using throttling calorimeter , limitations of throttling calorimeter, separating & throttling calorimeter, numerical problems.

Unit-IV

Limitations of first law, heat engine, heat pump, refrigerator, second law of thermodynamics- Kelvin Planck’s and Clausius

statement and their equivalence, efficiency of heat engine and coefficient of performance of heat pump and refrigerator,

reversible and irreversible processes, Carnot cycle and its efficiency, corrolaries of second law, the thermodynamic temperature

scale. Inequality of calusius, entropy, principle of increase of entropy , isentropic processes, t~s and h~s diagrams (Mollier chart),

second law applications, air standard otto, diesel, dual, simple Brayton and steam power cycles(Rankineycle), numerical

problems.

Unit V

Modes of heat transfer, Faurier’s law of steady state heat conduction (one dimensional conduction), thermal conductivity and its

unit, conduction through slab or plane wall, conduction through composite wall and hollow cylinders, convective heat transfer,

Newton’s law of cooling, combined heat transfer, electrical analogy and overall heat transfer coefficient, radiation, black body,

emissive power, emissivity, Kirchoff’s law, Stefen Boltzman’s law, numerical problems.

BOOK:

1. Thermodynamics, An Engineer Approach by yunus A. Cengel and Michael A Boles

2. Engineering Thermodynamics by D.B. Spalding and E.H.Cole.

3. Engineering Thermodynamics by R.Joel

4. Engineering Thermodynamics by P.K. Nag

5. Engineering Heat Transfer by C.P. Gupta and R.Prakash

EE-111 Basics of Electrical and Electronics Engineering

Category: ESA Credits: 4 L T P : 31 0

PART A

Unit I

Circuits and Transformers: Review of dc circuits and theorems, 1- phase ac circuits, superposition theorem,

thevenin’s theorem and 3orton’s theorem for ac circuits, RLC series & parallel circuits, 3-phase balanced ac

circuits.

Magnetic circuits, magnetization curve, hysteresis & eddy effect/losses.

Transformer construction, equivalent circuit, calculation of losses and efficiency.

Unit II

Introduction to Electrical machines, instruments and power system: Fundamentals of 3-phase alternators,

3-phase induction motors and 1-phase induction motors.

Basic elements of an instrument: MC & MI instruments, dynamometer wattmeter, digital energy meter.

Elements of power system, layout of thermal, hydro, nuclear and gas plants.

Introduction to renewable energy sources and recent trends in generation.

PART B

Unit III

Diode and BJT: Terminal characteristics of diodes, Diode models; Ideal, constant voltage and piecewise linear, load line concept, Diode applications; Rectifiers, logic gates, Zener diode; Operation, characteristics, voltage regulation. Bipolar Junction Transistor; Construction, operation, configurations, characteristics of common emitter configuration, DC load line analysis.

Unit IV

MOSFET and Opamp: Introduction to MOSFET; Depletion MOSFET construction, operation,

Enhancement MOSFET construction, Operation, amplifiers, Operational Amplifier; equivalent circuit, ideal

behavior, open loop and closed loop concept, concept of virtual short, simple Opamp applications; Unity gain

amplifier, inverting, non-inverting, integrator, differentiator, subtractor, summer.

Books:

1. *Ashfaq Husain Fundamentals of Electrical Engineering, 3rd edition, DhanpatRai& Sons

2. Hughes Electrical Technology, 7th edition, Addison Wesley

3. A.K.Sawhney A Course in Electrical & Electronics Meas. & Inst., DhanpatRai& Sons

4. B.R.Gupta Electronic Devices and Circuits, Prentice Hall,1995

5. *R.Boylestad&L.Nashelsky Electrical Power Systems (Wiley Eastern)

6. Mathur, Chadda and Kulshrestha Electronic Devices, Applications and Integrated Circuits, Umesh Publications

AP-111 APPLIED PHYSICS ( 3L+ 1T) / Week : (Total 52 Periods Course )

UNIT I: (13 PERIODS)

Semiconductors: Elemental and compound semiconductors (S,1.1), Energy bands (S,3.1.2) Direct and indirect

semiconductors (S, 3.1.4), Electrons and holes (S, 3.2.1), Effective mass (S, 3.2.2), Intrinsic material (S, 3.2.3),

Extrinsic material (S, 3.2.4), Fermi level (S,3.3.1), Electron and hole concentration at equilibrium (S,3.3.2)

Temperature dependence of carrier concentrations (S, 3.3.3.), Compensation and space charge neutrality (S, 3.3.4),

Conductivity and mobility (S, 3.4.1), Hall effect in semiconductors (S,3.4.5)

Superconductivity: Zero resistivity, Meissner effect, Type I and Type II Superconductors, High Temperature

Superconductors (B,10.9), BCS theory (qualitative) (B,10.10), Josephson effect (W,9.19), SQUIDS (W,9.20 &

B.10.10/ 24 to 26)

UNIT II : ( 13 PERIODS )

Masers and Lasers: Basic principle, Einstein coefficients for Induced absorption, Spontaneous

Emission and induced emission, Ammonia maser and its applications(W,4.12), Ruby and He-Ne

Lasers(B,4.9), Semiconductor laser(W,9.15), Spatial and temporal coherence (W4.12), Characteristics of lasers and its

applications based on these characteristics (W4.13/4.42 to 4.45) (such as in Industry, Science, Medicine,

Communications, Surveying, Holography, Fusion reactors, Isotope separation, etc.)

Fibre Optics: Basic principle (S, 7.2), Fibre construction ( S, 7.2.2) and dimensions (S, 7.2.3), Light Propagation in

fibres ( S,7.2.4/1), Numerical aperture of the fibre ( S, 7.2.4), Step index and graded index fibres ( S,7.2.4), Signal

distortion in optical fibres ( S, 7.2.5), Transmission losses ( S, 7.2.6), Light wave communication in optical fibres ( S,

7.3), Fibre Optics in medicine and industry ( S, 7.4).

UNIT III : ( 13 PERIODS )

Particles and Waves: Mechanism of X- ray production (continuous and characteristic X- rays, Duane- Hunt limit) (B,

2.5/20,21), Compton effect (B, 2.7/25 to 38 ), Pair production ( B, 2.8/39 to 50), Phase and group velocities ( B,3.4/ 13

to 22), Uncertainty principle ( B, 3.7/30-40)

Quantum Mechanics: Introduction to quantum mechanics, Wave function, Conditions necessary for physically

acceptable wavefunction, Probability density and probability (B, 5.1/ 1 to 5), Schrödinger equation (Time dependent

form and steady state or time independent form), Eigen values and eigen functions (B 5.3 and 5.7/11), Expectation

values (B, 5.5), Particle in a box (Infinite potential well) (B, 5.8/12 to 23), Tunnel effect (B, 5.10 / 37 & 38).

UNIT IV : ( 13 PERIODS )

Statistical Mechanics : Statistical distributions ( B, 9.1), Maxwell–Boltzmann statistics ( B, 9.2/1&6 ), Molecular

energies in an ideal gas ( B, 9.3/7 to 14 ), Quantum statistics (B, 9.4/15 &16 ), Specific heats of solids ( B, 9.8), Free

electron in a metal ( B, 9.9), Electron- energy distribution ( B, 9.10/36 to 51)

Nuclear Physics : Q value and threshold energy of nuclear reactions (W, 11.8), Cross section of a nuclear reaction

and reaction rate ( B, 12.7/ 35 to 42), Breeder reactors ( B, 12.10/57 to 59 and W, 12.12), Fusion reactors ( B, 12.12/

63 & 64), Nuclear detectors ( names and general working principle), Gas filled detectors ( W, 10.7), Scintillation

detectors ( W, 10.6)

TEXT BOOKS :

1. Ben G. Streetman, “ Solid State Electronic Devices” 5th edition(2000), Prentice-Hall of India

Private Limited, New Delhi.

2. Arthur Beiser, “ Concepts of Modern Physics” 6th edition (2003), Mc. Graw Hills Inc.

International Edition.

3. M.R. Wehr, J.A. Richards Jr. and TW Adair III, “ Physics of the Atom” 4th edition (1984),

Addison Wesley / Narosa

4. M.R. Srinivasan,” Physics for Engineers” 1st Edition (1996), New Age International (P)

Limited, Publishers

AM-112 (Mathematics – II)

Unit-I: Partial differentiation, Euler’s, Theorem, total differential, small errors, change of variables, Jacobins.

Unit-II: Taylor series for functions of two variables, approximate calculations maxima and minima of functions of two variables,

Lagrange’s multipliers.

Unit-III: Double and tripe integrals, change of variables, change of order of integration, applications of areas and volume.

Unit-IV: General equations of second degree, tracing of conics, introduction to polar form of conics.

CE- 111 Environmental Studies (3-1-0-4)

Unit I

Concepts of Ecology: Ecosystem, Energy and nutrient flow in ecosystem, food chain, Environmental Segments: Atmospheric

Structure, Classiication of air pollutants, Sources of air pollution and their effects on human heakth and property. Atmospheric

chemistry, photochemical Smog, Ozone depletion.

Unit II

Air Quality and Standards, Meteorological phenomena and their influence on Air Quality, Lapse rates, Dispersion of Pollutants.

Air Pollution Control: Introduction to particulate and gaseous pollutants control.

Unit III

Water Quality: Physical, Chemical and Biological parameters. Waters quality standards, Biochemical (BOD) and chemical

Oxygen Demand (COD). BOD/COD Calculations Environmental Analyses: Ph, Alkalinity, Conductivity, Ammonia, Fluorides,

Sulphate, Chloride. Analysis and measurement of gaseous pollutants.

Unit IV

Water purification processes in natural systems: Dissolved Oxygen (DO), Impact of wastewater discharge on streams, Oxygen

Sag Curve.

Introduction to Water Treatment technologies: Sedimentation, Coagulation and Flocculation, Hardness Reduction, Filtration and

Disinfection.

Unit V

Wastewater Characteristics, Introduction to wastewater treatment technologies. Primary Treatment: Screening, Grit Removal,

Flow measurement, Flow equalization. Secondary Treatment: Microbial growth curve, Suspended and Attached growth systems.

Unit VI

Solid Waste: Classification, Sources and Characteristics.

Waste Management: Solid Waste Generation, Collection, Processing and Disposal Methods.

Resource Recovery in Waste Management, Biological and Thermal conversion Processes.

Reference Books:

1. Venugopala Rao, P., 2006, Principles of Environmental Science and Egineering, Prentic-Hall of India Private Limited,

New Delhi.

2. Masters, G.M.., 1991, Introduction to Environmental Engineering and Science, Prentic-Hall Internationla, Inc.,

Englewood Cliffs, NJ.

3. Peavy, H.S., D.R.Rowe and G.Tchobanoglous, 1985, Environmental Engineering, McGraw-Hill Book Company, New

York.

4. Henry, J.G. and G.W. Heinke, 1989, Environmental Science and Engineering, Prentic-Hall International, Inc.,

Englewood Cliffs, NJ.

5. Sawyer, C.N. and p.L. McCarty, 1978, Chemistry for Environmental Engineering, 3rd Edition, McGraw-Hill book

Compay, New York.

6. Tchobanoglous, G., H.Teisen and S.Vigil, 1993, Integrated Solid Waste Management, McGraw-Hill Inc. Singapore

ME-111 Applied Mechanics

UNIT 1:

Fundamental concepts and principles of Mechanics: Reduction of a system of forces to a Force couple system, Free body

diagrams, equilibrium of rigid bodies in 3 Dimensions, Reactions, loading indeterminacy and solvability. Friction forces and laws

of dry friction Principles and application of virtual work.

Unit 2:

Analysis of Multiple particle system: Application of Newton’s laws, linear and angular momentum, Kinetic energy and work

energy principle, principle of impulse and momentum to a system of particles.

Unit 3:

Translation and rotation about a fixed axis, general plane motion, absolute and relative velocity in plane motion, angular

momentum of rigid body in plane motion. Problems of motion of rigid bodies and system of rigid bodies, principle of work and

energy, conservation of energy for rigid body and a system of rigid bodies.

Unit 4:

Analysis of stress and strain: Mechanical properties, analysis of simple state of stress and strains, elastic constants, example of

state of tension, compression and shear.

Unit 5:

Bending shear and torsion: Concept of bending and shear forces in simple beams, Relationship between load, bending moment

and shear force. Bending and shear stresses in simple beams, concept of torsion in circular shafts.

Text Books:

1. Beer Ferdinand P. and Johnson Jr. E Russel, Vector Mechanics for Engineering:

Statics and Dynamics, Metric edition, Mc Graw Hill, New Delhi.

2. Popov E., Engineering Mechanics of solids, PHI, Delhi

Reference Books:

1. Merium, JL, Engineering Mechanics (Volume I and II), 3rd edition, (SI version) John Wiley and sons, Inc, NT

2. Timoshenko S. and young DH, Elements of strength of materials, DYNC, New York

AM-223 Higher Mathematics

Category: BS Credits: 4 L T P : 3 1 0

Unit I

Functions of complex variables, Analytic functions, Cauchy-Riemann equations,

Complex integration of functions of complex variables, Line integrals, Cauchy’s theorem, Cauchy’s integral

formula.

Unit II

Series and Contour integration: Taylor series, Laurent’s series, Zeros and

singular points, Residues and Residue Theorem, evaluation of real integrals by

Contour integration.

Unit III

Numerical Solutions of Algebraic Equations: Solution of algebraic and Transcendental equations by

Nenton –Raphson and General iteration method Solution of linear simulations equations by Ganss-

Elimination and Grauss-seidel methods, Finite difference operators: Newton’s Forward and Backward

Interpolation formulae.

Unit IV

Numerical Solutions of Ordinary Differential Equations: Taylor’s Series methods, Euler’s and modified

Euler’s methods, Rungta- Kutta fourth order methods, Solution of two-point boundary value problems by

finite difference methods.

EL-201 Electronic Devices and Circuits

Category: ESA Credits: 4 L T P : 3 1 0

Unit I

PN Junction Diode Characteristics and Parameters; Diode resistance, Transition capacitance and Diffusion;

Special Diodes Types; Schottky barrier Diodes, Photo Diodes, LED, Tunnel Diodes, Varacter diode and their

Applications.

Unit II

Transistor as an Amplifier; Analysis Using Hybrid π and T Models; High Frequency Hybrid π Model; BJT

and FET Characteristics, Parameters, Configurations and Application; UJT and its Applications.

Unit III

Biasing of BJT and FET; Bias stability; Biasing Circuits; classification of Amplifiers; Frequency Response

of RC Coupled Amplifier; Power Amplifiers with their classifications; Regulated Power Supply.

Unit IV

Feedback concept; General Feedback structure; Properties of negative Feedback; Basic Feedback

Topologies; Condition of Oscillation; BJT and FET based Oscillator Circuits; Crystal Oscillators; Frequency

Stability..

Unit V

Differential Amplifier; Operational Amplifier Characteristics and parameters; Slew Rate, CMRP, Offset

voltage and its removal; Application as Instrumentation Amplifier, Voltage to Current and current to

Voltage Converter, Log and Antilog Amplifier, Waveform Generator, Comparator.

Books:

1. A.S. Sedra and K.C. Smith Micro electric Circuits, Oxford University Press, 5th Edition, 2004

2. R. Boylested and L. Nashelsky Electronic devices and Circuits, PHI, 1996

3. J. Millnan and C.C. Halkias Integrated Electronics, McGraw Hill, 1972

EE-211N Electrical Machines-I

Category: DC Credits: 4 L T P : 3 1 0

Unit I Transformer-I: Introduction; Efficiency: maximum and all-day; Equivalent circuit of single-phase

transformer, voltage regulation, Testing: load test, open circuit and short circuit tests, Sumpner’s test

Unit II Transformer-II: Construction of three phase transformer and their phase groupings; Parallel

operation; Harmonics in transformers; Autotransformers: Introduction, comparision with two winding

transformers; Phase transformation: Three-phase to two-phase, single-phase, and six-phase.

Unit III Three-Phase Induction Machines-I: Winding factors of ac windings; emf equation of ac machine;

mmf wave of single and three phase windings; space harmonics; Construction and principle of

operation of three-phase induction motor; production of rotating magnetic field, equivalent circuit and

phasor diagram.

Unit IV Three-Phase Induction Machines-II: Losses and power flow diagram; slip-torque curves; no load

and blocked rotor tests; circle diagram; starting methods; effects of space harmonics; cogging,

crawling, and noise; induction generator.

Unit V Single-Phase Induction Motors: Principle of operation of single-phase induction motors; double

revolving field and cross field theories; equivalent circuit; classification and starting of single-phase

induction motors; testing.

Books:

1. *I. J. Nagrath and D. P.

Kothari

Electric Machines, Tata McGraw Hill, 2004.

2. B. S. Guru and H. R.

Hiziroglu

Electric Machinery and Transformers, 3 ed, Oxford University Press (Indian

Edition).

3. P. S. Bhimbra Electric Machinery, Khanna Publishing House

4. Fitzgerald, Kingley and

Uman

Electric Machinery, McGraw-Hill, Inc.

EE-231N Power System Engineering

Category: DC Credits: 4 LTP: 3 1 0

Unit I

Electrical Characteristics of O.H. Lines: Types of conductors for O.H. power transmission. Calculation of Line parameters; inductance and capacitance for single and double circuit lines, bundle conductors. Concept of GMD and GMR, Effect of earth on line capacitance.

Unit II

Performance of O.H. Transmission Lines: Representation of short, medium and long transmission lines; nominal-T, nominal-π and equivalent-π, Characteristic impedance, Z0 and SIL, ABCD parameters, Voltage regulation and efficiency, Compensation of line, Corona and radio interference.

Unit III

Insulators and Mechanical Design of O.H. Lines: Types of insulators; pin, disc and strain type. Voltage distribution and equalization; Arcing horns, Types of line supports, Air clearance. Sag calculations, effect of wind and ice loading. Ground clearance, Vibration of conductors and dampers.

Unit IV

Underground Cables: Construction of single core and three core cables, electrostatic stresses and grading of cables, thermal rating of cables, testing of cables, HVDC cables, cable failure.

Unit V

Substation: Classification, components and layout of substation (33 / 11 Kv). Package substations. Introduction to Gas insulated substations, Substation grounding and grounding methods.

Books:

1. *Nagrath and Kothari Power System Engg. 3rd edition (TMH)

2. Cotton and Barbar Transmission and Distribution of Electrical Energy, (BI Publications).

3. Ashfaq Husain Electrical Power System; 4th edition (CBS).

4. WD Stevenson Elements of Power System Analysis (McGraw Hill).

5. CL Wadhwa Electrical Power Systems (Wiley Eastern)

EE-276 Circuit Theory


Unit I

Transient Response and Network Theorems: Transient response of R-L, R-C,

R-L-C circuits to sinusoidal input, Maximum power transfer theorem, compensation theorem, reciprocity

theorem, Millman and Tellengen’s theorem.

Unit II

Two Port Network and I A M: Various two port circuit parameters, relationship between different 2 port

parameters, equivalent T and π networks, interconnection of 2 port networks, transmission parameters in

terms of OC & SC parameters.

Unit III

Network Functions: Natural frequencies, complex frequencies, Network functions, driving point and

transfer functions, poles and zeros of network function, physical interpretation of poles and zeros, time

domain response from pole zero plot.

Unit IV

Graph Theory: Definition of various terms used in graph theory, Formulation of various network matrices

and relationship between them, Formulation of network equations on the basis of loop, mesh, tree branch

voltage and node pair voltage.

Unit V

State Variable Analysis and Filters: Sate space representation, formulation of state equations, Solution

of state equation, Introduction of electric filters, Constant K and m derived filters Low pass and high pass.

Books:

1. * Choudhry D.Roy Network and Systems, New Age International 2003.

2. Ashfaq Husain Network and Systems, Khanna Book Pub. Co., 2000.

3. Suhakar and Shyam Mohan Circuits and Network Analysis And Synthesis (TMH), 2006, Edition.

4. Kuo M.F. Network Analysis and Synthesis.

5. Aatre V.K. Network Theory and Filter Design

EE-277 Electrical Engineering Materials

Category: DC Credit: 4 L T P : 3 1 0

Unit I Conductivity of Materials: Free electron theory of metals; Ohm’s law and the relaxation time of

electrons; factors affecting resistivity of metals; Emission of electrons from metals; thermal

conductivity of metals; thermoelectric effects; Superconductivity; Band theory of solids; Conduction

in liquids

Unit II Dielectric Properties of Materials-I: The static dielectric constant; Polarization and dielectric

constant; Polarization mechanisms; Behavior of Dielectrics in Alternating Fields; Complex Dielectric

Constant; Dipolar relaxation; Dielectric losses- loss tangent; Temperature and Frequency dependence

of Dielectric Constant

Unit III Dielectric Properties of Materials-II: Breakdown mechanisms in gaseous, liquid and solid

dielectrics; Dielectric Strength; Temperature classification of insulating materials; Properties of

Insulators- Insulation Resistance, Volume Electrical Resistivity, Surface Electrical Resistivity;

Leakage Current; Ferro-electricity; Piezoelectricity.

Unit IV Magnetic Properties of Materials: Magnetization: Atomic Magnetic Moments; Classification of

magnetic materials; Diamagnetic, Paramagnetic and ferromagnetic materials; Ferromagnetic

domains; Magnetization curve: Soft and Hard Ferromagnetic materials; Losses in Magnetic materials;

Factors affecting permeability and hysteresis loss; Anti-ferromagnetism; Ferrimagnetism; Magnetic

Resonance.

Unit V Materials and their applications: Properties of various conducting, insulating and magnetic

materials and their application; Superconducting materials and their applications; Special purpose

materials: Thermocouple materials, contact materials, electrode materials, materials for electronic

components

Books:

1. *R.K. Rajput Electric Engineering Materials, Laxmi Publications (P) Ltd.

2. *A.J. Dekker Electric Engineering Materials, Prentice Hall

3. C.S.Indulkar and S.

Thiruvengadam

An Introduction to Electric Engineering Materials, S.Chand & Co. Ltd.

4. L. Solymar and D. Walsh Electric Properties of Materials, Oxford University Press, 2004

EL-203 Logic and Digital Circuits


Unit I

Introduction: Number system: Decimal, Binary Octal, Hexadecimal; Base Conversion; Binary Arithmetic;

Binary Codes; Boolean Algebra: Basic Theorems and Postulates; Basic AND, OR, NAND, NOR, EX-OR

Gates.

Unit II

Digital Circuits: Switching Characteristics of Semi- Conductor Devices: Realization of Various Logic

Gates: DTL, TTL, HTL, ECL and MOS Logics; Comparison of Various Logic Families.

Unit III

Design of Combination Circuits: Truth Table Representation; Canonical Forms; Minimization of Switching

Functions- Karnaughs Maps; Design of Combinational Circuits; Encoders, Decoders, Multiplexers, ROMs.

Unit IV

Sequential Logic Systems: Definition of Sequential Circuits; State table and Diagram Representation; Flip-

Flops: SR,JK,T and D Type; Ripple Counter; Shift Registers; RAMs.

Unit V

Data Acquisition and Conversion: A/D and D/A Converters; sample and Hold Circuits; comparators;

Multivibrators- Astable and Distable

Books:

6. M.M.Mano Digital Logic and Computer Design, PHI 1986

7. A.P. Malvino Digital Principles and Application

8. Ronald J. Tocci Digital Systems- Principles and Applications, PHI, 1995

EE-213 Electrical Machines-II


Unit I Synchronous Machines-I: Construction, armature reaction and two reaction theory, synchronous

reactance and phasor diagram, expression for power developed and power angle curve for salient and

non-salient pole machines, maximum power. Open circuit, short circuit and zero power factor tests,

Slip test. Alternator load characteristics.

Unit II Synchronous Machines-II: Voltage regulation and its determination by synchronous impedance

and Portier triangle methods, Synchronization of three phase alternators, effect of governor

characteristics on load sharing of alternators, operation on infinite bus bars, active and reactive

power control.

Unit III Synchronous Machines-III: Synchronous motors: methods of starting, synchronizing power,

hunting, V-curves, synchronous condenser, Transient and sub-transient reactances and time

constants, Negative and zero sequence impedances.

Unit IV D. C. Machines: Construction, function of commutator, simplex lap and wave windings, emf and

torque equations, armature reaction and commutation. D. C. generator characteristics.

Unit V D. C. Machines and Special Machines: Characteristics of dc motors, testing of dc machines, dc

motor starters, Special motors: universal motor, permanent magnet dc machines, hysteresis motor,

reluctance motor, and stepper motor.

Books:

1. *I. J. Nagrath and D. P. Kothari Electric Machines, Tata McGraw Hill, 2004.

2. B. S. Guru and H. R. Hiziroglu Electric Machinery and Transformers, 3 ed, Oxford

University Press (Indian Edition).

3. P. S. Bhimbra Electric Machinery, Khanna Publishing House

4. E. Openshaw Taylor Performance and Design of A. C. Commutator Motors, A.

H. Wheeler, New Delhi.

EE-251N Electrical Measurements


Unit I Measurement Standards and Errors: Classification of standards, standards of EMF, Resistance, Inductance,

Capacitance. Inaccuracies in R, L, C components. Classification, types and applications of measurement

systems. Characteristics of instruments & measurement system. Measurement errors and their analysis.

Unit II Electromechanical Instruments: Review of PMMC, MI, Electrodynamometer, Thermal, and Electrostatic

instruments. Errors and their remedies in the Electromechanical instruments. Working principles of Hall effect

Ammeter and Wattmeter. Measurement of power in three phase systems. Measurement and adjustments in the

single phase Induction type Energy meter. Dynamic behavior of D’ Arsonval Galvanometer.

Unit III Bridges: Bridges for measurement of low, medium, and high Resistances. Measurement of Inductance and

Capacitance with the help of AC bridges. Multimeter, Ratiometer and Megger. Principle of AC potentiometers,

Testing of Wattmeter and Energy Meter using phantom method of loading.

Unit IV Magnetic and Power System Measurements: Determination of B-H curve of magnetic specimen.

Measurement of Iron losses and their separation using Lloyd Fisher Square. Measurement of high voltage using

Sphere Gap and Rectified Charging Current methods. Synchro-scope. Principle, construction and testing of

Current Transformer and Potential Transformer

Unit V Electronic Instruments: Average reading, RMS reading and True RMS reading voltmeters. Electronic

potentiometer, Instrumentation Amplifier. Harmonic analysis of waveforms.

Review of basic CRO circuit (Block Diagram). Probes, Oscilloscope control. Measurement of voltage,

frequency, and phase using a CRO.

Books:

*Golding & Widis Electrical Measurement & Measuring Instruments, Pitman

A. K. Sawhney Electric & Electronic Measurement & Instrumentation, Dhanpat Rai

*H. S. Kalsi Electronic Instrumentation, TMH

David Bell Electronic Instrumentation & Measurement, PHI

EE-278 MATLAB for Engineers


Unit I Basics: MATLAB environment, Variables, Basic data types, Relational and Logic operators,

Conditional statements, Input and Output, Loops and branching.

Unit II Matrices: Creating and Manipulating matrices, Matrix maths and Matrix functions, Colon operator,

Linspace, Cross product, Dot product, Logical functions, Logical indexing, 3-dimensional arrays,

Cell arrays, Structures, Plotting: 2-D and 3-D plots: Basic plots, subplots, Histograms, Bar graphs, Pie

charts.

Unit III M-file scripts: Creating, saving and running an M-file, Creating and running of a function, Function

definition line, H1 and help text lines, Function body, Sub-functions, Nested functions, File I/O

handling, M-file debugging.

Unit – IV Simulink: Introduction, Block diagram, Functions, Creating and working with models, Defining and

managing signals, Running a simulation, analyzing the results.

Unit V Applications: Root finding, Data analysis, Statistical functions, Polynomials, Curve fitting,

Interpolation, Ordinary differential equations, Integration and differentiation, Signal processing

applications, Circuit analysis applications, Control system applications.

Books:

1 *D Hanselman and B Littlefield Mastering Matlab 7, Pearson Education.

2 A Gilat Matlab: An Introduction with Applications, John Wiley and Sons, 2004.

3 Y Kirani Singh and B B Chaudhari Matlab Programming, Prentice Hall of India, 2007

4 *Steven T Karris Introduction to Simulink with Engineering Applications, 2nd edition,

Orchard Publication, 2008

EE-282N Signals and Systems


Unit I Introduction to signals and systems: Classification of signals, Basic operation on signals,

Elementary signals, Representation and Classification of continuous and discrete time systems,

Properties of systems, System Model: Input-Output Description, Sampling and recovery of signals.

Unit II Time-domain analysis of systems: System Response to Internal Conditions: Zero-Input Response,

System Response to External input: Zero-State Response, Impulse response and its properties for LTI

systems, Convolution, State variable description for LTI systems.

Unit III Fourier representation for signals: Fourier Series Representation – Trigonometric Fourier Series,

Exponential Fourier Series, Fourier Transform and its properties, Transform of some useful functions.

Unit IV System analysis using Laplace transform: Unilateral and Bilateral Laplace Transform, Properties of

Laplace Transform, Inversion of Laplace Transform, Solving Differential Equations with Initial

Conditions, Transform analysis of LTI systems.

Unit V System analysis using Z-transform: Unilateral and Bilateral Z- Transform and its Properties,

Region of Convergence, Inversion of Z-Transform, Transform Analysis of LTI systems.

Books:

1 A. V. Oppenheim and A. S. Wilsky Signals and Systems, Prentice Hall of India.

2 *S. Haykin and B. V. Veen Signals and Systems, John Wiley and Sons.

3 B P Lathi Signal Processing and Linear Systems, Oxford University

Press.

4 R. E. Ziemer, W. H. Tranter and D. R.

Fannim

Signals and Systems: Continuous and Discrete, IV edition,

Prentice-Hall.

EE-285N Electromagnetic Field Theory

Category: DC Credit: 4 L T P : 3 1 0

Unit I Electrostatic Fields: Coordinate systems and their transformation; Electric Field Intensity; Gauss’s

Law and its application; Electric potential; Electric field in free space, conductors and dielectrics –

Polarization; Boundary conditions; Poisson’s and Laplace’s equations; Capacitance; Energy density.

Unit II Magnetostatic Fields: Ampere’s circuital law and its applications; Scalar and Vector magnetic

potentials; Magnetic flux density – Magnetization; Boundary conditions, Lorentz-force equation,

Force and torque; Inductance; Energy density.

Unit III Time Varying Fields: Faraday’s Law; Transformer and motional EMF; Displacement current;

Maxwell’s equation in integral and point form; quasi-static Electromagnetic Fields.

Unit IV Propagation of Electromagnetic Waves: Propagation of uniform plane waves in Free Space,

Dielectrics and Conductors; Skin effect; Pyonting’s theorem and Power flow; Reflection of waves;

Transmission lines.

Unit V Electromagnetic Waves and Applications: Sources and effect of electromagnetic fields;

Applications of Electromagnetic waves; Numerical Methods for estimation of Electromagnetic field

quantities.

Books:

1. *W. H. Hayt & J.A Buck Engineering Electromagnetics 7thEdition, McGraw Hill

2. M. N. O. Sadiku Elements of Electromagnetics; Oxford University Press.

ME 340 Economics & Management

Unit-I: Management process, planning and strategic management, organizing, organizational design, organizational structure,

power and authority.

Unit-II: Leading, Leadership styles, motivation theories, controlling function.

Unit-III: Introduction to engineering Economy, Economic Laws, Forecasting, Breakeven Analysis.

Unit-IV: Money – Time relationships and their types, selection among alternatives.

Unit-V: Replacement studies, risk analysis, depreciation.

Books:

1. DeGarmo, E.P., Sullivan, W.G. and Bontadelhi, J.A., 1988. Engineering Economy, ed. VIII, Macmillon.

2. Riggs,J.I., Bedworth, D.B. and Randhawa, S.U., 1996, Engineering Economy, ed. VIII, Macmillan.

3. Stoner, J.A.F., Freeman, R.E. and Gilbert, D.R., 2003, Management, ed.vi, PHI

EE- 321N Power Electronics– I


Unit I Thyristor and their Characteristic: Applications of power electronics; types of converters, ideal switch,

latching and non-latching switches, Characteristic of power diodes, SCR, Diac, Triac, GTO, ratings of SCR,

di/dtand dv/dt limitations, snubber circuits.

Unit II Triggering Circuit: Methods of turning ON, gate characteristics, simple R, RC, UJT and IC based triggering

circuits, Driver and isolation circuits for thyristors.

Unit III Single phase ac-dc controlled converters:Principle of ac phase control, circuit configurations, waveforms

for 1-phase mid-point and bridge converters, full and semi converters, use of free wheeling diode, analysis of

single phase ac-dc converter with R and RL loads, performance evaluation of phase controlled converters,

THD, pf, ripple factor.

Unit IV Three phase ac-dc controlled converters: Introduction, full converters with R and RL loads, Rectification

and inversion operations, effect of free wheeling diode, semi converters.

Unit V Miscellaneous converters and control schemes: Switching angle control schemes: cosine, ramp, digital;

dual-converters and cyclo-converters, matrix converters.

Books:

1. *G.K.Dubey, et al Thyristorised Power Controllers; New Age International, New Delhi

2. *M.H. Rashid Power Electronics; PHI Learning, New Delhi

3 V.Subramanyam, Power Electronics, New Age International, New Delhi

4. Jai P Agarwal Power Electronics Systems, Addison Wesely.

5. V. R. Moorthy Power Electronics, Oxford University 2007Press

6. M. S. JamilAsghar Power Electronics, PHI Learning

EE-331 Electrical Power Generation and Utilization


Unit I Thermal Power Plants:

Coal fired Plants: Site selection, various components, parts and their operation, Steam and fuel cycles, Pollution

control, Modern clean coal Technologies.

Nuclear Power Plants: Site Selection, Principal of Fission, Main components of nuclear reactor, Fast Breeder and

other reactors, Fuel extraction, enrichment and fabrication, Basic control of reactors, Environmental aspects.

Unit II Hydro and Gas Power Plants:

Hydro Plants: Site selection, Classification of Hydro plants, Main components and their functions, Classification

of turbines, Pumped storage plants, Environmental aspects.

Gas Turbine plant: Principle of operation, Open& closed cycle plants, Combined cycle plants, IGCC.

Unit III Cogeneration and Captive Power Plants: Scope & Benefits Cogeneration Plants, Cogeneration Technologies,

Scope & Benefits of Captive Plants (CPP), Types of CPP, Concept of Distributed Generation.

Unit IV Electric Traction: Speed time curves, Tractive efforts and specific energy consumptions, Track electrification &

traction substations, Current collectors, Negative boosters and control of traction motors.

Unit V Illumination and Electrolytic Effects:

Illumination: Definitions, Laws of illuminations, Principle of operation & construction of various lamps, Various

aspects of illumination design, design examples with different lamps.

Electrolytic Effects: Types of Batteries, their components, Charging & maintenance, Tubular batteries.

Electroplating and its applications.

Books:

1. *B.R.Gupta Generation of Electrical Energy (Eurasia Pub. House)

2. S.N.Singh, Electric Power Generation, Transmission & Distribution (PHI)

3. M.V.Deshpande Elements of Electrical Power Station Design (Wheeler Pub. House)

4. *H.Pratab Art & Science of Utilization of Electrical Energy (Dhanpat Rai & sons)

5. C.L.Wadhwa Generation, Transmission & Distribution of Electrical Energy(Wiley Eastern Pub)

6. N.V.Suryanarayana Utilization of Electric Power (Wiley Eastern Pub.)

EE-352N Electrical and Electronic Instrumentation

Category: DC Credits: 4 L T P: 3 1 0

Unit I Digital Instruments and Measurements: Comparative analysis of Digital instruments and Analog

instruments. Digital Voltmeter, Digital Multimeter. Digital measurement of Frequency, Time Period, Power

and Energy.

Unit II Data Transmission and Acquisition: Modulation-Time division and Frequency division Multiplexing.

Telemetry principles and applications. Analog and Digital Data Acquisition systems.Data Logger and DSO.

Unit III Transducer-I: Advantages of electrical transducers, classification, characteristics, selection of transducers,

Potentiometers, Strain Gauge, Resistance Thermometer, Thermistors, Thermocouples, LVDT,Capacitive,

Piezoelectric, Hall effect and Opto- electronic transducers. Gyroscope.

Unit IV Transducer-II: Measurement of Temperature, Force, Pressure Motion, Vibration, Flow and Liquid level.

Ultrasonic transducers, Solid-state sensors, Fibre Optic sensors. Digital transducers.

Unit V Recent Developments: Intelligent Instrumentation, Nano Instrumentation, Robotic Instrumentation.

Introduction to Virtual Instrumentation. MEMS based sensors, Smart sensors. GPS, Wide Area Measurements.

Smart Meters.

Books

*D. V. S. Murty Transducers and Instrumentation, PHI.

*T. S. Rathore Digital Measurement Techniques, Narosa Publications.

Rangan, Mani and Sarma Electrical Instrumentation, TMH.

H. K. P. Neubert Instrumentation Transducers, Oxford University Press.

Morris Principle of Measurement & Instrumentation, PHI.

Revised in BOS 15.10.2012

EE-361 High Voltage Engineering


Unit I Breakdown Mechanisms in Dielectrics: Gases – Townsend’s theory, Streamer theory, breakdown in

electronegative gases, Paschen’s Law. Liquids - pure & commercial liquids, Suspended Particle mechanism,

Cavitation & Bubble mechanism, Stressed Liquid Volume mechanism. Solids - Intrinsic breakdown, Streamer

breakdown, Electromechanical breakdown, Thermal breakdown, Electrochemical breakdown, Tracking &

Treeing.

Unit II Generation of High Voltages: Alternating Voltages: Testing transformers, resonant transformers, generation

of high frequency voltages; DC Voltages: simple rectifier circuits, cascaded circuits- Cockcroft-Walton circuit,

Electrostatic generators– Van-de-Graff generator; Impulse Voltages: Single stage and multistage impulse

generator circuits - Marx generator, Tripping and control of impulse generators.

Unit III Measurement of High Voltages: High Voltage Measurement techniques; Peak Voltage Measurement by spark

gaps- Sphere gaps, Uniform field electrode gaps, rod gaps; Generating voltmeters; Electrostatic voltmeters;

Chubb-Fortescue Method; potential dividers; impulse voltage measurements.

Unit IV Non Destructive Testing of Materials & Electrical Apparatus: Measurement of d.c. Resistivity,

Measurement of Dielectric Constant and Loss Factor, Partial Discharges - definition, types of partial discharges

and its occurrence; recurrence and magnitude of discharges - quantities related to the magnitude of discharges.

Unit V High Voltage Testing of Electrical Apparatus: Testing of Insulators and Bushings, Testing of Isolators and

Circuit Breakers, Testing of Cables, Testing of Transformers, Testing of Surge Diverters, Condition

Monitoring.

Books:

1. *E. Kuffel, , W.S. Zaengl,

and J. Kuffel

High Voltage Engineering Fundamentals, Elsevier India Pvt.

Ltd, 2005

2. *M.S. Naidu and V.

Kamaraju

High Voltage Engineering, Tata McGraw-Hill Publishing

Company Ltd., New Delhi.

3. Mazen Abdel-Salam, Hussein

Anis, Ahdab El-Morshedy

and Roshdy Radwan

High Voltage Engineering Theory and Practice- Second Edition-

Revised and Expanded, Marcel Dekker, Inc., New York, 2000.

EE- 322N Power Electronics–II


Unit I Power Semiconductor devices and their characteristics: Characteristics of Power BJT, MOSFET, IGBT,

IGCT and static induction devices and their relative merits, Gate drive circuit for MOSFET/IGBT

Unit II DC to DC Converters: Introduction to linear and switching converters, buck, boost, buck-boost, Cuk

converters, flyback converter; their analysis and design, SMPS.

Unit III AC Regulators: Principle of integral cycle and ac phase control, analysis of single phase ac regulator with R,

L and RL load, introduction to threephase ac regulators: various star and delta configurations.

Unit IV Thyristor based inverters: Forced commutation of SCR, series and parallel inverter, analysis of single

phase bridge inverter, modified Mc Murray inverter.

Unit V PWM inverters: Different PWM techniques, Introduction to PWM transistor based inverters, Harmonic

control, voltage control of single phase inverters, three phase inverters: 180 degree and 120 degree

conduction schemes.”

Books:

1. *G.K.Dubey, et al Thyristorised Power Controllers; New Age International, New Delhi

2. M.H. Rashid Power Electronics; PHI Learning, New Delhi

3 *Ned Mohan et al Power Electronics, John Wiley and Sons

4. M. H. Rashid Power Electronics Handbook, Academic Press, California

5. M. S. JamilAsghar Power Electronics, PHI Learning

EE-325 New and Renewable Energy Sources


Unit I Introduction: Energy resources and their classification, oil crisis of late 20th century and its impacts on

energy planning, consumption trend of primary energy sources, world energy future, energy audit and energy

conservation, energy storage.

Unit II Solar Energy Conversion: Solar resources, passage through atmosphere, solar thermal energy conversion:

solar energy collectors, solar thermal power plant, solar PV conversion: solar PV cell, V-I characteristics,

MPPT, Solar PV power plant and applications.

Unit III Biomass Energy Conversion: Usable forms of Bio Mass, Biomass energy resources, biomass energy

conversion technologies, ethanol blended petrol and diesel, biogas plants. Energy farming.

Unit IV Wind Energy Conversion: Wind Power: Energy estimation, Power extraction, lift and drag forces,

horizontal axis wind turbine, vertical axis wind turbine, wind energy conversion and control schemes,

environmental aspects.

Unit V Other Alternate Energy Sources/Technologies: Geothermal Energy: geothermal fields, types, geothermal

energy generation systems, ocean tidal energy systems, fuel cell: basic operation and classification, principle

of MHD generation, output voltage and power, environmental aspects.

Books :

1. *B.H. Khan Non conventional Energy Resources, 2nd edition, 2009.

2. G.D. Rai Non Conventional Sources of Energy, (Khanna Publishers).

3. J.W. Twidell& A.D. Weir Renewable Energy Resources, (ELBS / E. & F.N. Spon., London).

4. Godfrey Boyle Renewable Energy, Oxford, 2nd edition 2010.

EE-333N Power System Protection


Unit I

Protective Relay: Basic principles, construction and characteristics of electromagnetic relays; over current relay, differential relays, distance relay. Elements of static relays, µP based relays.

Unit II

Protection Scheme: Protection of generators, transformers, bus bars, transmission line and motors. Computer aided protection.

Unit III

Arc Interruption Theory: Formation and extinction of arcs, arc properties, Re-striking and recovery voltage. Different methods and control devices for arc extinction, Resistance switching.

Unit IV

Circuit Breakers: Oil, Air blast and SF6 circuit breakers, vacuum switches, CB duties, ratings and testing.

Unit V

Power System Transients: Over voltages in transmission lines, lightning and switching surges, Transmission, reflection and refraction of surges, Ground wires, Spark gaps, Lightning arrestors, BIL and insulation coordination.

Books:

1. *Ravindranath and Chander P.S. Protection & Switchgear, (Wiley Eastern).

2. C.R. Mason Art and Science of Protection Relaying (Wiley Eastern).

3. B. Ram and Vishwakarma Power System Protection & Switchgear, (TMH).

4. T.S.M. Rao Power System Protection: Static Relay with Microprocessor

Applications, 2nd Edition.

5. Pataithankar and Bhide Fundamentals of Power System Protection, (PHI)

EE-335N Power System Analysis


Unit I

Load Flow Analysis: Per unit system of calculation, Formation of network model – YBUS by inspection and by singular transformation, Formulation of load flow problem; type of buses, Solution techniques – Gauss-Seidel and Newton – Raphson. Representation of voltage controlled buses and transformers. Decoupled and fast-decoupled load flow.

Unit II

Economic Operation of Power Systems: Study of economic dispatch problem in a thermal power station, consideration of transmission losses in economic dispatch, simplified method of loss-formula calculation, solution of coordination equation, unit commitment,Introduction to load frequency and voltage control.

Unit III

Fault Analysis: Types of fault, calculation of fault current and voltages for symmetrical short circuit. Symmetrical components, Sequence impedance and networks of power system elements, unsymmetrical short circuits and series fault, Current limiting reactors.

Unit IV

Stability Analysis: Introduction to steady state and transient stability of power systems, swing equation, equal area criteria, solution of swing equation, methods of improving stability, Introduction to voltage stability.

Unit V

Distribution Systems: Different types of distribution systems. Distributors fed from one end and both ends, ring mains, unbalanced loading,Rural electrification.

Books:

1. *Nagrath and Kothari Power System Analysis, 3rd edition (TMH).

2. BR Gupta Power System Analysis and Design.

3. Grainger and Stevenson Power System Analysis (McGraw Hill).

4. HadiSaadat Power System Analysis, (TMH)

EE-341N Dynamic System Analysis


Unit I Control Concepts and Mathematical Modelling: System concepts, Effect of Feedback, System

Modelling, Transfer Function, Modelling of different types of physical systems, Analogy between the

elements of different types of systems. State Variable Representation. Relationship between State

Model and Transfer Function.

Unit II System Representation and Control Components: Block Diagram Algebra. Signal Flow Graph and

Mason’s Gain Formula. State Diagram and Simulation. Introduction to Simulink.

Working principle and control applications of Synchros, Tachogenerator, Servomotor and Stepper

motor.

Unit III Time Response Analysis: Time response of First Order and Second Order systems.Steady State Error

and Error Coefficients. State Transition Matrix and solution of State Equations. Concepts of Stability –

Routh-Hurwitz criterion of Stability. Root Locus technique.

Unit IV Frequency Response Analysis: Correlation between Time and Frequency response. Frequency

response of second order system. Bode Plots, Polar Plots, Nichols chart and Nyquist stability criterion –

Gain margin and phase margin.

Unit V Control System Design: Cascade and feedback compensation – design of lag, lead, lag-lead

compensator using Bode plot and Root locus. Introduction to P, PI and PID controllers and their tuning.

Books:

1. *Norman S. Nise Control Systems Engineering, Wiley Eastern, 2007

2. K. Ogata Modern Control Engineering, Prentice Hall of India,2003.

3. B.C.Kuo Automatic Control Systems,Prentice Hall of India, 2002.

EE-442N Control Systems


Unit I Discrete Data Systems: Sampled Data and Digital Control Systems. Sampler and Hold Circuits. Review of

Z-Transform. Pulse Transfer Function. Block Diagram Algebra. State Variable Representation of Discrete

Data Systems. Stability Analysis.

Unit II Design in State Space: Controllability and Observability. Linear Transformation. Pole Placement using State

Feedback. Output feedback-Full and Reduced Order Observer. Stabilizability and Detectability.

Unit III Non Linear Systems and Linearization: Introduction to Non Linear Systems and their State Variable

Representation. Linearization. Describing Function of various non linearities. Stability analysis using

Describing Function.

Unit IV Phase Plane and Stability Analysis: Introduction to Phase-plane. Singular points of a Second Order System.

Construction of Phase Trajectories using analytical and graphical methods. Stability of Non Linear Systems.

Liapunov’s Stability analysis and methods of construction of Liapunov’s Function.

Unit V Advanced Control Techniques: Optimal control problem- concept, formulation and types. Solution of two

point boundary value problem using calculus of variations. Introduction to Dynamic Programming. Principle

and schemes of Adaptive Control. Introduction to Intelligent Control and Artificial Intelligence.

Books:

1. *Nagrath and Gopal Control System Engineering, New Age, 2007.

2. B. C. Kuo Digital Control System, Oxford University Press

3. Stefani, Shahian, Savant, Hostetter Design of Feedback control systems, Oxford University Press, 2004.

4. M. Gopal Modern Control Systems, New Age, 2003.

EE-473 Microprocessor Systems and Applications

Category: DC Credits:4 L T P: 3 1 0

Unit I Introduction to microprocessors: General architecture and brief description of elements, instruction

execution, instruction format, and instruction set, addressing modes, programming system, higher lever

languages.

Unit II Input Output Techniques and data transfer: Data transfers, interrupts, 8259 programmable interrupt

controller, memory interfacing, DMA

Unit III Programmable peripheral Interface: Interfacing and programming of programmable peripheral chips,

8254, 8255, 8259, ADC / DAC interfacing.

Unit IV 8086 Microprocessor : 8086 architecture ,instruction set, addressing modes, constructing machine

codes, Assembly language programming.

Unit V Programming applications of 8086 : Assembler directives, pseudo instructions, 8086 interrupts,

system design using 8086

Books:

1 * R S Gaonkar Microprocessor Architecture , programming and Application with 8085

2 *Douglas V Hall Microprocessor and Interfacing ( TMH)

EE-413N Electrical Drives


Unit I Types of Drives and Loads: Introduction and classification of electric drives, comparison with other

types of drives. Characteristics of different types of mechanical loads, stability of motor-load systems.

Fluctuating loads and load equalization. Thermal loading of motors, estimation of motor rating for

continuous, intermittent and short-time duty loads.

Unit II DC Drives I: Characteristics of dc motors and PM dc motor. Conventional methods of speed control:

rheostatic, field and armature control. Electric braking of dc drives: Regenerative braking, plugging

and Dynamic braking. Phase control of fully controlled dc drives, continuous and discontinuous

conduction modes of operation.

Unit III DC Drives II: Chopper controlled drives. Comparison of phase and chopper controlled drives. Review

of feedback control, Closed loop configurations in electric drives: current limit control, torque control,

speed control of multi-motor drives and position control. Closed loop control of phase and chopper

controlled dc drives. Microprocessor controlled electric drives.

Unit IV A.C. Drives I: Review of three phase induction motor characteristics. Electric braking of induction

motor drives: Regenerative, Plugging, ac and dc dynamic braking. Methods of speed control of

induction motors: stator voltage control, variable frequency control, pole changing and pole amplitude

modulation.

Unit V A.C. Drives II: Speed control of wound rotor induction motor: rotor resistance control (conventional

and static), slip power recovery schemes. Closed loop control of induction motor drives: VSI control,

static rotor resistance control, static Scherbius and Kramer drives, current regulated VSI drives.

Introduction to vector control.

Books:

1. *G. K. Dubey Fundamentals of Electric Drives, second edition, Narosa Pub.

House, New Delhi.

2. G. K. Dubey Power Semiconductor Controlled Drives, Prentice Hall.

3. R. Krisnan Electric Motor Drives: Modeling, Analysis and Control, Prentice

Hall of India.

4. Joseph Vithayathil Power Electronics, Principles and Applications, McGraw-Hill, Inc.

DEPARTMENTAL ELECTIVE COURSES FOR B. TECH. (ELECTRICAL):--------------------------------------------

EE-414 Advanced Electrical Machines

Category: DE Credits: 4 L T P : 3 1 0

Unit I Matrix Equations: Matrix equations of two winding and three winding transformers, basic

commutator machines, slip ring and squirrel cage machines. balanced two phase machine with uniform

air gap, two phase revolving armature machine with salient poles, transformed impedance matrix.

Unit II Torque Expression in AC Machines: Energy stored in magnetic field, derivation of torque

expressions, mean steady state torque in ac machines.

Unit III Commutator Machines: Performance calculations, phasor diagram and equivalent circuits, series,

shunt and separately excited dc machines, repulsion motor.

Unit IV Steady State Performance of Polyphase Macines: Induction machines, synchronous machines with

salient pole and non salient poles.

Unit V Transient and Negative Sequence Conditions: Transient conditions in balanced induction machine,

synchronous machine with and without damper winding, negative sequence impedance.

Books:

1. *H. N. Hancock Matrix Analysis of Electric Machines

2. Adkins Generalized Theory of Electric Machines

EE-415 Computer Aided Electrical Machines Design


Unit I Introduction: Advantages of electrical machine design, general design flow chart, selection of

variables, performance constraints, design conforming to standard frames, objective functions,

optimization of design for cost and performance.

Unit II Design of Transformer: Leakage reactances for different winding configurations, voltage surges,

surge protection, unbalance magnetic pull, mechanical stresses, flow chart for design of transformers.

Unit III Design of DC Machines: Output equation, main dimensions, design of armature, commutator, brushes

and interpoles, calculation of performance from the design data, flow chart for design of dc machines.

Unit IV Design of Synchronous Machines: Leakage reactances, real and apparent flux densities, Carter’s

coefficient, flow chart for design of three phase synchronous generators.

Unit V Design of Induction Machines: Leakage reactances, real and apparent flux densities, Carter’s

coefficient, flow chart for design of three phase induction motors. Salient features of design of single

phase induction motors

Books:

1. *A. K. Sawhney Electrical Machine Design, Dhanpat Rai and Sons.

2. *S. K. Sen Principles of Electrical Machine Design with Computer Programmes,

Oxford and IBH Pub. Company.

3. M. G. Say Alternating Current Machines, Pitman Publishing Company Ltd. London.

4. A. E. Clayton The Performance and Design of DC Machines, Pitman Publishing

Company Ltd. London.

EE-416 Design of Three-Phase Induction Motor


Unit I Design Variables, Design Constraints and Performance Requirements: Design variables: Specific

magnetic and electric loadings, stator and rotor current density, stator and rotor core flux density. Design

constraints: Peripheral speed, stator slot pitch, conductor per slot in stator, stator turns per coil, ratio of stator

slot depth/width, slot space factor, stator tooth flux density. Performance requirements: Efficiency, power

factor at full load, no load current/full load current ratio, starting/full load current ratio, starting/full load

torque ratio, full load slip, temperature rise at full load.

Unit II Stator Design: Output equation, Selection of values of specific loadings, calculation of main dimensions,

calculation of turns per phase and stator conductors. Selection of type and no. of stator slots, calculation of

stator slot dimensions, check for peripheral speed and tooth flux density, design of stator core.

Unit III Rotor Design: Factors for selection of air-gap length, selection of rotor slots, Design of rotor bars and end

rings for squirrel cage induction motor. Calculation of rotor turns per phase, area of rotor conductors for slip

ring induction motor.

Unit IV Design of stator and rotor windings: Basic definitions, type of windings- integral and fractional slot

winding, single and double layer windings, full-pitch and short-pitch/chorded windings, Design of double

layer, integral and fractional slot windings.

Unit V Calculation of operating characteristics: Calculation of magnetizing and loss component currents, no-load

current, no-load power factor and iron losses. Calculation of resistance and leakage reactances of stator and

rotor windings, short circuit current and copper losses. Calculation of efficiency, starting torque, full load

torque of motor, calculation of temperature rise.

Books:

1. *A. K. Sawhney Electrical Machine Design, Dhanpat Ray, New Delhi.

2. M. G. Say Performance and Design of A.C. Machines, ELBS

EE-422 Power Semiconductor Controllers


Unit I Power Supplies: Introduction, ac power supplies: power quality, power supply protection, power

conditioners, uninterruptible power supplies; dc power supplies: comparison of linear and switched-mode

power supplies, dc to dc converters with electrical isolation: forward, push-pull and bridge converter, SMPS.

Unit II Resonant Converters: Switched-mode inductive current switching, significance of ZVS and ZCS,

classification of resonant converters, series and parallel load resonant converters, class-E converters,

ZCS/ZVS resonant switch converters and their switch configurations, resonant dc link converters and their

circuit configurations.

Unit III Analysis and simulation of Power Electronic Circuits: Analysis of simple power electronic circuits with

RL, RC and RLC type loads and dc / sinusoidal sources; performance of transformers for high frequency

applications, computer simulation of power electronic devices and systems.

Unit IV Recent Power Semiconductor Devices: Recent advances in power devices and their relative merits, power

modules, protection of devices and converters, heat management.

Unit V Applications of Different Controllers: Three phase ac regulators, multiple converters, application of

different converters in solar and wind energy systems as well as in dispersed generation, current trends in

power electronics.

Books:

1. M.H. Rashid (Chief Editor) Power Electronics Handbook; Academic Press, California

2. *N.Mohan, T.M.Udeland

and W.P. Robbins

Power Electronics; John-Wiley-SEA, Singapore

3. M.H. Rashid Power Electronics; PHI Learning, 3rd edition.

4.

*G. K. Dubey et al Thyristorised Power Controllers, New Age International, New Delhi.

5. Philip T. Krein

Elements of Power Electronics; Oxford University

Press, 2007 edition.

6. M. S. Jamil Asghar

Power Electronics, PHI Learning

EE-423 Solar Energy and Applications

Category: DE Credits: 4 L T P: 3 1 0

Unit I General: Need for sustainable source of energy, solar energy: direct and indirect, main features of

terrestrial solar radiation, solar radiation spectrum, insolation, solar data, resource estimation and

measurement.

Overview of thermal and PV applications, solar heat collectors.

Unit II Solar Thermal Systems: Heat transfer concepts, performance and analysis of liquid flat plate

collectors, effect of various parameters on its performance, rooftop solar water heaters, solar passive

space heating and cooling, solar industrial heating, solar air conditioning and refrigeration, solar

thermo-mechanical system.

Unit III Solar PV Modules: Generation of electron-hole pair by photon absorption, solar cell I-V

characteristics, equivalent circuit, effect of variation of insolation and temperature, energy losses and

efficiency, various types of junction structures, construction of cell, module, panel, array; module

specifications, mismatch in module, effect of shadowing, balance of system: battery, charge controller,

MPPT etc.

Unit IV Solar PV systems: Various types of standalone PV system configurations, grid connected PV system

with and without battery storage, system sizing and design methodologies, hybrid PV system, life cycle

costing of solar system.

Unit V Solar Cell Technologies: Production of silicon, silicon wafer based technology, thin film technology,

single, multi-crystalline and amorphous cells, concentrator PV cell, emerging solar cell technologies

and concepts.

Books:

1. *S. P. Sukhatme and J. K.

Nayak

Solar Energy, TMH, 3rd Ed, 2008

2. *C. S. Solanki Solar Photovoltaics, PHI, 2009

3. B. H. Khan Renewable Energy Resources, TMH, 2nd Ed, 2009

4. H. P. Garg and J. Prakash Solar Energy, TMH

5. R. Messenger and J. Ventre Photovoltaic System Engineering, CRC, 2000

6. Godfrey Boyle Renewable Energy, Oxford, 2010

EE- 424 Energy Auditing and Conservation

Category: DE Credits: 4 L T P : 3 1 0 Unit-I Energy Auditing: Definition, need of energy audit, types of energy audit. Energy audit approach, energy performance,

matching energy use and requirement to maximizing system efficiencies, optimizing the input energy requirements and energy substitution, energy audit instruments.

Unit-II Energy Management: Energy action planning, force field analysis, energy policy and purpose, formulation and ratification, energy monitoring and targeting, data and information analysis, energy consumption and production, Cumulative Sum of Differences (CUSUM).

Unit-III Economic and Financial Analysis: Objectives, investments, appraisal and criteria, initial investment and return, depreciation, discount rate and pay back period, Net Present value (NPV), Internal Rate of Return (IRR), Annualized cost and financing options. Energy performance contract and role of ESCO’s, Life Cycle Energy Analysis (LCA).

Unit-IV Energy Conservation in Utilities: Energy conservation in lighting system, energy efficient technologies in electrical and mechanical systems, electric energy conservation in buildings, heating and lighting, tariffs and power factor improvement in power systems.

Unit-V Energy Conservation in Allied Sectors: Energy conservation in selected industrial sectors, Case studies of energy conservation in Commercial/ Industrial and Residential sectors etc.

Books: 1. *Bureau of Energy Efficiency (BEE) Study material for Energy Managers and Auditors

Book – (i): General Aspects of Energy Management & Energy Audit. Book – (ii): Energy Efficiency in Thermal Utilities Book – (iii): Energy Efficiency in Electrical Utilities Book – (iv): Energy Performance Assessment for Equipment and Utility systems.

2. Amit Kumar Tyagi Handbook on Energy Audits and Management, TERI 3. Charles M Cotlschalk Industrial Energy Conservation, John Wiley & Sons 4. Hamies Energy Auditing and Conservation; Methods, Measurements, Management & Case

study, Hemisphere, Washington 5. D Patrick and S W Fardo Energy Management and Conservation, Prentice Hall Inc

EE-431 Power System Deregulation

Category: DE Credit: 4 LTP: 3 1 0

Unit – I

General: Electricity demand operation and reliability, energy policy and cost, competitive market for generation, role of the existing power industry, renewable generation technologies, distributed generation, traditional central utility model, independent system operator (ISO), retail electric providers.

Unit – II

Electricity Market and Management: Wholesale electricity markets, characteristics, bidding, market clearing and pricing, ISO models, market power evaluation, demand side management, distribution planning.

Unit – III

Power Pool: Role of the transmission provider, multilateral transaction model, power exchange and ISO – functions and responsibilities, classification of ISO types, trading arrangements, power pool, pool and bilateral contracts, multilateral traders.

Unit – IV

Electricity Pricing I: Transmission pricing in open access system, rolled in pricing methods, marginal pricing methods, zonal pricing, embedded cost recovery, open transmission system operation and congestion management in open access transmission systems in normal operation.

Unit – V

Electricity Pricing II: Predicting electricity costs, electricity cost derivation, electricity pricing of inter provincial power market, transmission pricing.

Books:

1. *L.L. Loi Power System Restructuring and Deregulation – Trading, Performance and

Information Technology.

(John Wiley & sons)

2. C.S. Fred, C.C. Michael, D.T. Richard

and E.B. Roger

Spot Pricing of Electricity (Kluwer Academic Publishers)

3. I. Marija, G. Francisco and F. Lester Power System Restructuring: Engineering and Economics (Kluwer Academic

Publishers)

EE-432 Digital Simulation of Power Systems


Unit I Network Matrices: Graph-theoretic approach for the formation of network matrices – YBUS, YBR and ZLOOP; ZBUS building algorithms, Simulation example.

Unit II Short Circuit Studies: Representation of 3-phase networks. Short circuit studies using 3-phase ZBUS matrix.

Fault impedance and admittance matrices for various types of faults. Simulation example.

Unit III Power System Control: Automatic generation control (AGC). Voltage control methods. Reactive power

compensation, static VAR systems, FACTS devices.

Unit IV Optimal System Operation: Unit commitment. Optimal power flow solution, Hydro–Thermal load

scheduling; short range and long range. Determination of Loss-Formula. Simulation example.

Unit V Computer Control and Automation: Database for control: SCADA, State estimation. Contingency analysis

and power system security assessment. Modern energy control centres.

Books:

1. *Hadi Sadat Power System Analysis; (McGraw Hill)

2. Nagrath and Kothari Power System Analysis; 3rd edition (TMH)

3. Grainger and Stevenson Power System Analysis; (McGraw Hill)

4. El-Abiad and Stagg Computer Methods in Power System Analysis; (McGrawHill)

5. Wood and Wollenberg Power Generation Operation and Control; Wiley, NY

EE-433 HVDC and FACTS Technology


Unit I

HVDC Power Transmission Technology: Introduction, Classification of DC links, Advantages &

Comparison of EHVAC & DC Transmission, Applications, Converter Stations, Modern Trends in DC

Transmission.

Unit II

Converter Circuits: Converter circuits: 1-phase and 3-phase (properties and configurations), Graetz

Circuit, Pulse Number, Choice of converters, Cascade converters

.

Unit III

Analysis and Control of HVDC Converters: Analysis of 3-phase bridge rectifier, Inversion in 3-phase

bridge converter, Principles of HVDC link control and converter control characteristics, Analysis of HVDC

link performance.

Unit IV

Transmission problems and needs: Recent developments and problems, Transmission System

Compensations, Flexible AC Transmission Systems (FACTS), Objectives of FACTS, Basic types of FACTS

Controllers, HVDC Versus FACTS .

Unit V

FACTS Controllers: Thyristor controlled FACTS Controllers, Converter based FACTS Controllers, Static

VAR Compensator (SVC): Operation & analysis, Thyristor Controlled Series Capacitor (TCSC): Operation

& analysis.

Books:

9. *K.R.Padiyar HVDC Power Transmission System: Technology and System

Interactions (Wiley).

10. E.W. Kimbark Direct Current Transmission Vol. I (Wiley).

11. N. G. Hingorani and L. Gyugyi* Understanding FACTS: Concepts and Technology of Flexible AC

Transmission System. IEEE Press. 2000.

12. R. M. Mathur and R. K. Verma Thyristor-based FACTS Controllers for Electrical Transmission

Systems, IEEE press, Piscataway, 2002.

13. S.N.Singh Power Generation Transmission and Distribution (PHI).

EE-434 Energy Management and Automation


Unit I

Energy Management: Introduction, energy management philosophy, Power exchange, energy banking,

energy wheeling, energy audit, energy management system, Centralized management center, Distributed centers

and power pool management

Unit II SCADA-I: Introduction, SCADA scope and objectives, Methods of data acquisition, Components of SCADA,

Transducers, RTU’s, data concentrators, various communications channel

Unit III SCADA-II: SCADA system structure, Control functions of lines, transformers etc., Regulatory functions,

SCADA applicable to generation and transmission, Distribution SCADA or DAC

Unit IV Distribution Automation: Introduction, components of distribution automation, functions and benefits of

distribution automation, consumer information service, geographical information system, automatic meter

reading

Unit V Demand Side Management: Introduction, scope of DSM, DSM concept, load management and control, energy

conservation, tariff options for DSM, implementation issues and strategies of DSM technique, effect of DSM on

environment.

Books:

1. *A.S. Pabla Electric Power Distribution, Tata McGraw Hill

2. *B.R.Gupta Generation of Electrical Energy , S.Chand

3. Torsten Cergrell Power System Control Technology, Prentice Hall International

4. A.J.Wood and B.Woolenber Power Generation Operation and Control, John Wiley & Sons

5. Gonen Electric Power Distribution Engineering, CRC Press

EE-435 Power Station Practice


Unit I

Economics of Generation: Types of loads, demand factor, group diversity factor and peak diversity factor, load curve, load duration curve, load factor, capacity factor and utilization factor, base load and peak load stations, operating and spinning reserves, load forecasting, capital cost of power plants. Depreciation. Annual fixed and operating charges.

Unit II

Tariff and Power Factor Improvement: General tariff form and different types of tariffs, Tariff option for DSM. Causes and effect of low power factor, necessity of improvement and use of power factor improvement devices.

Unit III Coordinated Operation of Power Plants: Advantages of Coordinated operation of different types of

power plants, hydrothermal scheduling: short term and long term. Coordination of various types of power plant.

Unit IV

Electrical Equipments in Power Plants: Governors for hydro and thermal generators, excitation systems; exciters and automatic voltage regulators (AVR), bus bar arrangements.

Unit V

EHV Substation: Layout of EHV substation, brief description of various equipments used in EHV substations, testing and maintenance of EHV substations equipments. Gas insulated substations (GIS).

Books:

1. *B.R. Gupta Generation of Electrical Energy, (Euresia Publishing House).

2. M.V. Deshpande Elements of Electrical Power Station Design, (Wheeler Publishing House).

3. S. Rao Electrical Substation-Engineering and Practice, (Khanna).

4. S.N. Singh Electric Power Generation, Transmission and Distribution (PHI).

EE-437 Power Quality


Unit I Introduction: Power quality problems, causes and effects of power quality disturbances, power

quality indices, disturbance in supply voltages.

Unit II Voltage sags and Interruptions: Sources of voltage sag, voltage and current harmonics gs and

interruptions, Types of voltage sags, methods of sag mitigation, ferro-resonance transformer, on line

UPS, over voltages, switching transients, over voltage protection.

Unit III Harmonics in power supply: Causes and effects of harmonics, harmonic filter design, active power

filters, interference with communication networks.

Unit IV Monitoring Power Quality: Power quality standards, PQ measuring instruments, custom power

devices, dynamic voltage restorer, unified power conditioner.

Unit V Power Quality Solutions: Effect of grounding on power quality, Devices for voltage regulation,

reliability of power supply, distribution automation, consumer interruption cost and energy auditing

Books:

1. *C Sankaran Power Quality, CRC Press

2. G. Benysek Improvement in the quality of delivery of electrical energy using power

electronics systems", Springer 2007

3. Arindam Ghosh and Gerard

Ledwich

Power Quality Enhancement using custom power devices’ Kulwer

academic publisher

4. M. H. Rashid (Ch. Editor) Power Electronics Handbook, Academic Press California, 2001

5. Ned Mohan, Undeland and

Robbins

Power Electronics, John-Wiley, SEA, Singapore

EE-445 Mechatronic Systems


Unit I Introductory Concepts: The Mechatronics approach, Elements of a Mechatronic system. Sequential Controllers.

Sensors in Mechatronics and their selection. MEMS and Nano technologies in Mechatronic systems. Robotic

Systems: Introduction to anatomy, drives, transmitters and end effectors of Robotics.

Unit II Actuation Systems: Relays and Solenoids, Stepper Motors, DC brushed and brushless motors, DC servo motors,

4-quadrant servo drives, Variable frequency drives, Vector drives. Pneumatic Actuation Systems, Electro-

pneumatic Actuation Systems, Hydraulic Actuation Systems, Electro-hydraulic Actuation Systems. Motor / Drive

Selection.

Unit III Embedded systems & Microcontroller: Embedded systems, Real time control, Microcontrollers, Review of

architecture and programming of the 8051 microcontroller: Interfacing 8051 to the real world: ADC, DAC,

sensors, and stepper motor.

Unit IV Programmable Logic Controller: Architecture, Ladder diagram programming- Timers, Internal Relays and

Counters, Shift Registers, Master and Jump Controls, Data Handling , Selection of a PLC, Applications, Case

studies and Design examples.

Unit V Design and Applications of Mechatronic Systems: Comparison of conventional and Mechatronic design of

physical systems. Fault detection techniques. Autotronics, Bionics and Avionics: Case studies and design

examples.

Books:

1. *W. Bolton Mechatronics- Electronic Control Systems in Mechanical and Electrical Engineering, Pearson

Education, 2005.

2. M.D.Singh &

J.G.Joshi

Mechatronics, Prentice Hall India.

3. Appu Kutan K. K Introduction to Mechatronics, Oxford University Press, 2007.

EE-446 Soft Computing


(Only one course out of EE-444, EE-446 and EE-487 is allowed)

Unit I Introduction to soft computing: Biological and artificial neural network, Fuzzy sets and Fuzzy logic

systems, Genetic Algorithms: Simple GA, crossover and mutation, genetic algorithms in search and

optimization, Probabilistic Reasoning.

Unit II Neural network fundamentals: Artificial neural models, Neural network architectures, Activation

functions, Rationale and basics of learning, Learning rules, Perceptrons, Perceptrons convergence

theorem, Multi-layer Perceptrons.

Unit III Supervised and Unsupervised Networks: Single layer networks, Limitations of single layer network,

Multi-layer Networks, Back propagation algorithm, Radial basis function Networks, Self-organizing

networks, Competitive learning networks, Hopfield networks.

Unit IV Fuzzy theory I: Crisp set and fuzzy set, Properties of fuzzy sets, Operations on fuzzy sets, Extension

Principle and Fuzzy Relations, Composition of fuzzy relations, Fuzzy Reasoning.

Unit V Fuzzy theory II: Fuzzy if-then rule, Fuzzy Inference Systems (FIS), Fuzzification and

Defuzzification, Fuzzy systems and applications, Fuzzy control, Fuzzy clustering, Neuro-fuzzy system

and ANFIS.

Books:

1 *Simon Haykin Neural Networks: A Comprehensive Foundation, 2nd edition, Prentice

Hall of India.

2 *Timothy J Ross Fuzzy Logic with Engineering Applications, McGraw Hill Inc.

3 Davis E.Goldberg Genetic Algorithms: Search, Optimization and Machine Learning,

Addison Wesley, N.Y., 1989.

4 J.S.R.Jang, C.T.Sun and E.Mizutani Neuro-Fuzzy and Soft Computing, PHI, 2004

EE-453 Process Instrumentation and Control


Unit I Basics of Process Control: Fundamentals of process control, Elements of process control loop, process

characteristics: process lead, process lag, control lag, distance-velocity lag, transfer lag, Self Regulation.

cascade control, feed forward control.: Modes of control action: two position, floating, proportional,

proportional-integral, proportional integral and derivative.

Unit II Actuators and Controllers: Electric, Pneumatic and Hydraulic actuators, control valve, Electrical,

Electronic, Pneumatic and Hydraulic controllers.

Unit III Measurement of Process Variables: Measurement of flow: magnetic, ultrasonic methods. Measurement of

pressure, liquid level, humidity, viscosity and moisture in granular substances.

Unit IV Control and Display Techniques: Tuning of controller: Quarter Amplitude Criterion, controller

performance criterion, Methods of process loop tuning, Process Reaction curve (open loop), Ziegler Nichols

(closed loop), Frequency response method. Displays parameters Scanning, data logging. Computer

supervisory control, Direct digital control,

Unit V Programmable Logic Controllers: Introduction to PLC, Architecture, types of Input and output modules,

Fixed and modular PLC, Specifications, Ladder logic diagram using standard symbols, PLC programming

for process applications, Introduction to distributed control system (DCS).

Books:

1. *C.D. Johnson Process Control Instrumentation Technology (PHI).

2. D. Patranabis Principles of Industrial Instrumentation (Tata Mc Graw Hill).

3. Krishna Kant Computer Based Industrial Control (PHI).

4.

5.

S.K.Singh

Gary Dunning

Computer Aided Process Control.

Introduction to PLC.

EE-456 Bioinstrumentation


Unit I Introductory Concepts of Medical Instrumentation: The need for Bioinstrumentation, Basic

sensors used in Biomedical instrumentation, Medical measurement constraints, Introduction to

Biostatistics.

Unit II Measurement Systems: Transducers for Biomedical Applications, Bioelectric Amplifiers,

Bioelectric Recorders, Biosensors, Interference in Biosignals.

Unit III Biopotentials and their measurements: Resting and Action Potentials, Propagation of Action

Potentials, Bioelectric Potentials: ECG, EEG, EMG, MEG; Biopotential Electrodes.

Unit IV Electrical Safety of Medical Equipments: Physiological effects of electricity, Shock Hazards from

Electrical Equipment: Macroshock Hazards, Microshock Hazards, Electrical-Safety Codes and

Standards.

Unit V Protection: Approaches to protection against Shock, Protection: Power Distribution, Protection:

Equipment Design, Electrical Safety Analysers.

Books:

1 *John G. Webster Medical Instrumentation: Application and Design, 3rd edition, John

Wiley and Sons Inc.

2 *Leslie Cromwell, Fred J Weibell,

Erich A. Pfeiffer,

Biomedical Instrumentation and Measurements, 2nd edition, Prentice

Hall of India.

EE-457 Advanced Instrumentation


Unit I Bridges: Classification, Balance of bridge convergence, Sensitivity of bridge network, Universal Bridge,

Parallel-T and Bridge-T network, Blumlein Bridge.

Unit II Electrical Devices and Recording Techniques: Instrumentation Amplifier, LCR meter, Wave analyzer,

spectrum analyser, Data acquisition system, method of recording, FM recording and digital recording.

Printers, types &Characteristics.

Unit III Nuclear and Chemical Instrumentation: General principle of radiation detection, Types of radiation

detectors, GM counter, Scientillation counter, Measurement of PH, Thermal conductivity, Gas

chromatography.

Unit IV Ultrasonic and Fiber optic Instrumentation:Ultarsonic Wave –types, generation, Characteristics,

Ultrasonic sensors for applications in different field. Principles of fiber optic transmission characteristics,

Fiber optic sensors.

Unit V LASER and Robotic Instrumentation:Elements of Laser theory, Types of Laser, Application in different

fields. Sensors for use in Robotic-Optic array transducers and tactile sensors.

Books:

1. *Hague and Foord A.C. Bridge Methods, Pitman Publishing, 6th Edition.

2. Cooper and Heltric Modern Electronic Instrumentation and Measurement Techniques: (PHI), 2006

Edition.

3. Morris, A.S. Principles of Measurement and Instrumentation; (PHI)

4.

*M.SayerA.Mansingh Measurement, Instrumentation and Experiment Design in physics and

Engineering; (PHI)

EE-463 High Voltage Testing Techniques


Unit I Introduction: Objectives of high voltage testing, classification of testing methods- self restoration

and non-self restoration systems; test voltages; test procedures and standards

Unit II Statistical Evaluation of Measured Results: Determination of probability values, Distribution

function of a measured quantity, confidence limits of the mean values of disruptive discharges - ‘Up

and Down’ method for determining the 50% disruptive discharge voltage.

Unit III Testing Techniques for Electrical Equipment: Testing of insulators, bushings, isolators, circuit

breakers, transformers, surge diverters and cables- testing methodology and interpretation of test

results

Unit IV Non-Destructive Insulation Test Techniques: Loss in dielectrics; Measurement of conduction

current at Direct Voltages; Measurement of Dissipation Factor at Alternating Voltages; Partial

Discharge measurement: basic partial discharge (PD) circuit, PD quantities, PD instruments and

measurements

Unit V Design of High Voltage Lab: Dimensions of High Voltage Laboratory equipment - fencing, earthing

and shielding; circuits for high voltage experiments; Construction Elements for High Voltage

Circuits.

Books:

1. *Dieter Kind and Kurt Feser High Voltage Test Techniques, SBA Electrical Engineering Series, New

Delhi,1999.


Kamaraju

High Voltage Engineering, Tata McGraw-Hill Publishing Company Ltd.,

New Delhi.

3. E. Kuffel, , W.S. Zaengl, and

J. Kuffel

High Voltage Engineering Fundamentals, Elsevier India Pvt. Ltd, 2005

EE-464 Advances in High Voltage Engineering

Category: DE Credit: 4 L T P : 3 1 0

Unit I SF6 Insulation Systems: Basic Properties of SF6 gas; Ionization phenomena in SF6; Breakdown

Processes: Uniform and Non-uniform field breakdown; Factors affecting Discharge voltages; SF6

insulated cables and switchgear, SF6 gas handling

Unit II

Physics of Lightning: Electric Charges in clouds; Discharge Processes in air; Development of the

lightning flash: Phenomenology of lightning; physics of lightning discharge; Lightning termination at

ground; risk factors and protection.

Unit III

Partial Discharges: Introduction; PD degradation mechanisms; PD measurement – electrical and

non-electrical detection techniques, Evaluation of discharges.

Unit IV

Insulators for High Voltages: Role of insulators; material properties; flashover mechanisms;

electrical characteristics – physics of contamination and pollution flashover; remedies for flashover;

Insulators for special applications.

Unit V

High Voltage Cables: Introduction; Cable materials, Types of cables, Electrical stresses in cables,

Cable losses; Cable Ampacity; Partial discharges in cables; Cable aging and life estimation; Cable

fault location.

Books:

1. *A.Haddad & D. Warne Advances in High Voltage Engineering, IET, 2004.

2. N.H. Malik, A.A. Al-

Arainy and M.I. Qureishi

Electrical Insulation in Power Systems, Marcel Dekker Inc., 1998

3. E. Kuffel, , W.S. Zaengl

and J. Kuffel


EE-482 Digital Signal Processing


Unit I Review of discrete time signals, Sampling in time and frequency domain, Quantization, Sampling rate

conversion.

Unit II Discrete time Fourier Transform, Frequency response of discrete time systems; All pass systems,

Minimum phase systems.

Unit III Review of Discrete Fourier Transform (DFT), Functional operations with DFT, Fast Fourier

Transform (FFT), FFT algorithms – Decimation in time (DIT) and Decimation in frequency (DIF)

algorithms.

Unit IV Basic Structures for IIR systems, Introduction to Infinite Impulse Response (IIR) filters, Design of

IIR filters, Frequency transformation of low pass IIR filters, Computer aided design by discrete-time

IIR filters.

Unit V Basic Structures for Finite Impulse Response (FIR) systems, Characteristics of FIR filters, Window

function methods, Design of FIR filters.

Books:

1 *A. V. Oppenheim and R. W.

Schafer

Discrete Time Signal Processing, Prentice Hall of India.

2 S. K. Mitra Digital Signal Processing: A Computer-Based Approach, 2nd edition,

Tata McGraw-Hill.

3 J. G. Proakis and D. G. Manolakis Digital Signal Processing: Principles, Algorithms and applications,

Prentice Hall of India.

4 *A. Antoniou Digital Filters: Analysis, Design and Applications, Tata McGraw Hill.

OPEN ELECTIVE COURSES OFFERED BY ELECTRICAL ENGG DEPTT: ---------------------------------------------------

EE-301 Power Electronics and Application

Category: OE Credits: 4 L T P : 3 1 0

(Not for EED students)

Unit I Power Semiconductor Devices: Applications of power electronics; types of converters, ideal switch; power

diodes, SCR, Triac and their characteristics, di/dt, dv/dt limitations and snubber circuits, other power

semiconductor devices and their characteristics.

Unit II Gate Drive Circuits: Methods of turn-on of SCR, gate characteristics, simple R, RC and UJT trigger

circuits, driver and isolation circuits, cosine and ramp control circuits, simple digital trigger circuit,

commutation of SCR

Unit III AC-DC Converters: Principle of ac phase control, circuit configurations, waveforms for 1-ph mid-point and

bridge converters, full and semi converters, analysis of single phase ac-dc converter with R and RL loads,

performance evaluation of phase controlled converters, introduction to three phase converters: semi and full

converter topologies, dual-converters.

Unit IV DC - DC Converters: Basic principle of d.c. choppers: TRC and CLC methods; switching regulators: buck

and boost converters, basic principles of SMPS and UPS, Introduction to resonant converters.

Unit V AC-AC and DC-AC Converters: Introduction to AC voltage regulators, integral cycle control and phase

control, cyclo-converters. Series, parallel and bridge inverter circuits, PWM inverters: types of control and

harmonic reduction.

Books:

1. *M.H. Rashid Power Electronics; PHI, Learning

2. *G.K.Dubey, S.R.Doradla, A.Joshi

and R.M.K.Sinha

Thyristorised Power Controllers; New Age International, New Delhi

3. M.H. Rashid (Ch. Editor) Power Electronics Hand Book, Acedemic Press, California

4. Jai P Agarwal Power Electronics Systems, Pearson.

5. M. S. Jamil Asghar Power Electronics, PHI Learning

EE-362 Insulation Technology


Unit I General Properties of Insulating Materials: Requirements of insulating materials; electrical and

molecular properties of dielectrics; behavior of dielectric under alternating fields: complex dielectric

constants, dipolar relaxation and dielectric loss; dielectric strength.

Unit II Breakdown Mechanisms in Gaseous Dielectrics: Gases as insulating media; gaseous dielectrics in

electric fields: different ionization processes, Townsend’s theory, Streamer theory; Townsend’s

criterion for breakdown, breakdown in electronegative gases; Paschen’s Law; discharges in non-

uniform fields; vacuum insulation.

Unit III Breakdown Mechanisms in Liquid Dielectrics: Liquids as insulators; conduction and breakdown in

pure liquids; conduction and breakdown in commercial liquids: Suspended Particle mechanism,

Cavitation and Bubble mechanism, Stressed Liquid Volume mechanism, Cryogenic insulation.

Unit IV Breakdown Mechanisms in Solid Dielectrics: Intrinsic breakdown of solid dielectrics; Streamer

breakdown; Electromechanical breakdown; Thermal breakdown; Electrochemical breakdown;

Tracking and Treeing; Partial Discharges in solid dielectrics; composite insulation and its mechanism

of failure.

Unit V Application of Insulating Materials: Application of insulating materials in transformers, rotating

machines, circuit breakers, cables, power capacitors and electronic equipment.

Books:


Kamaraju

High Voltage Engineering, Tata McGraw-Hill Publishing Company Ltd., New

Delhi.

2. *A. J. Dekker Electrical Engineering Materials, Prentice Hall of India Pvt. Ltd., New Delhi,

1979.

3. E. Kuffel, , W.S. Zaengl, and

J. Kuffel


4. Mazen Abdel-Salam, Hussein

Anis, Ahdab El-Morshedy

and Roshdy Radwan

High Voltage Engineering Theory and Practice- Second Edition- Revised and

Expanded, Marcel Dekker, Inc., New York, 2000.

EE-371 Optimization Techniques


Unit I Introduction: Historical Development, Engineering application of Optimization, Formulation of optimization

problem: Design variables, Design constraints, Objective function, and Mathematical statement, classification of

optimization problems, Single variable and Multivariable optimization without constraint.

Unit II Methods of Optimization I: Multivariable optimization with equality and inequality constraints, Necessary and

sufficient conditions for multivariable optimization, Method of Lagrange multiplier and Kuhn-Tucker, Graphical

method, Feasible, Basic feasible and Optimal solutions, Simplex method.

Unit III Methods of Optimization II: Revised simplex method, Duality in linear programming (LP), Sensitivity

analysis, and Other algorithms for solving LP problems, Transportation, Assignment and other applications.

Unit IV Non Linear Programming: Unconstrained optimization techniques for single variable problem: Exhaustive

search, Fibonacci method, Golden section method, and Direct root method, Unconstrained optimization

techniques for multi variable problem: Random search, Pattern search, and Steepest descent method.

Unit V Advanced Techniques of Optimization: Introduction, Genetic algorithm: Generation, Population,

Reproduction, Mutation, and Eliticism, Simulated Annealing, Particle swarm optimizations, Dynamic

programming, Mini-max and Maxi-min algorithms.

Books:

1. *S.S. Rao Engineering Optimization: Theory and Practice, New Age International (P) Ltd., New

Delhi, latest edition.

2. G. Hadley Linear programming, Narosa Publishing House, New Delhi, 1990.

3. H.A. Taha Operations Research: An Introduction, 5th Edition, Macmillan, New York, 1992.

EE-421 Renewable Energy Sources

Category: OE Credits: 4 LTP: 3 1 0


Unit I Energy Science and Technology: Classification of energy sources and reserves, energy growth and its

planning, environmental aspects of energy, green house effect and global warming, energy conservation

and energy audit, cogeneration and energy storage.

Unit II Solar Energy Conversion: Historical background of solar energy, solar energy radiations and its

propagation through atmosphere, beam diffuse and global radiation, definitions and calculations, solar

thermal energy conversion and solar collectors, thermal energy applications, solar photovoltaic energy

conversion and solar cells, solar PV applications.

Unit III

Fuel Cells and Biomass Energy conversion: Fuel Cell operation and classifications, fuel cell power

packs and power plants, space and other applications, Biomass energy processes, applications, biogas

plants

Unit IV MHD and energy: MHD conversion principles, classifications, environmental aspects and pollution

control, coal saving and efficiency enhancement, Power in the wind and wind power generation, wind

energy system integration, wind turbines and control systems, wind energy programmers in India.

Unit V New and Alternate Energy Sources/Technologies: Hydrogen energy conversion, Ocean wave, ocean

thermal and tidal Energy conversion, Piezoelectic conversion, Geothermal, small hydro resources

Books:

1. *B. H. Khan, Non Conventional Energy Resources, TMH, 2009 edition.

2. G.D. Rai Non ConventionalEnergy Sources, Khanna Publishers, New Delhi.

3. Godfrey Boyle Renewable Energy, Oxford, 2nd edition 2010.

EE-444 Fuzzy Systems and Application



Unit I Introduction: Crisp set Vs. Fuzzy set, Basis of Fuzzy theory, Properties of Fuzzy sets, Operation on

Fuzzy sets, Fuzzy arithmetic.

Unit II Fuzzy Theory: Fuzzy relations, Fuzzy measure, Fuzzy theory and possibility theory, Possibility theory

vs. Probability theory, Multivalued Logic, Fuzzy propositions and Fuzzy quantifiers, Fuzziness vs.

Uncertainty.

Unit III Fuzzy Inference System: Fuzzy rules, Fuzzification, Approximate reasoning, Defuzzification, Takagi-

Sugeno-Kang (TSK) fuzzy model, Compositional rule of Inference.

Unit IV Fuzzy Control: Introduction-Control problem, Computational structure of Fuzzy controller, Types of

Fuzzy controller-PID like and Sliding mode, Fuzzy Decision making, Stability of fuzzy Control System.

Unit V Adaptive Fuzzy Control: Introduction- Adaptive Control mechanism, Adaptive fuzzy Control,

Performance measure and Evaluation. Design approaches,Self Organizing Fuzzy Controller. Examples

of Fuzzy control and Adaptive Fuzzy control systems.

Books:

1. *G.J. Klir and B. Yuan Fuzzy Sets and Fuzzy Logic - Theory and Applications; (PHI)

2. RC. Berkan and

SL. Tribatch

Fuzzy Systems Design Principle - Building Fuzzy If - Then Rule Bases; (IEEE Press)

3. *D. Driankov,

H. Hellendroom and

M. Reinfrank

An Introduction to Fuzzy Control; (Narosa)

4. Dubois, Didier and

H. Parde

Fuzzy Sets and Systems: Theory and Applications; (Academic Press)

EE-447 Modern Control System



Unit I Digital Control Systems: Sampled Data and Digital Control Systems. Sampler, Hold Circuits. Pulse Transfer

Function. Block Diagram Algebra. State Variable Representation of Discrete Data Systems. Stability

Analysis.

Unit II Design in Frequency Domain : Cascade and feedback compensation – design of lag, lead, lag-lead

compensator using Bode plot and Root locus. Introduction to P, PI and PID controllers and their tuning.

Unit III Design in Time Domain: Controllability and Observability. State Transformation and Diagonalization. Pole

Placement using State Feedback, Stabilization. Output feedback-Full and Reduced Order Observer,

Detectability.

Unit IV Non Linear Systems: Introduction and Linearization: Introduction to Non Linear Systems and their State

Variable Representation. Characterstic phenomena of Non Linear Systems. Linearization. Describing

Function of various non-linearities.

Unit V Stability Analysis of Non Linear Systems: Phase-plane concepts. Construction of Phase Trajectories using

analytical and graphical methods. Stability of Non Linear Systems. Liapunov’s Stability analysis and methods

of construction of Liapunov’s Function.

Books:

1. *Nagrath and Gopal Control System Engineering, New Age, 2007.

2. B. C. Kuo Digital Control System, Oxford University Press

3. M. Gopal Modern Control Systems, New Age, 2003.

EE-455 Process Instrumentation



Unit I Basics of Process Control: Fundamental of Process Control, Elements of Process Control loop, Process

characteristics: Process lead, process lag, control lag, distance-velocity lag, transfer lag, self regulation.

Cascade Control, feed forward control: Modes of control action: two position, floating, proportional,

proportional – integral, proportional integral and derivative.

Unit II Actuators and Controllers: Electric, pneumatic and hydraulic actuators, control valve, electrical,

electronic, pneumatic and hydraulic controllers.

Unit III Measurement of Process Variables: Measurement of flow; magnetic, ultrasonic. measurement of,

pressure, liquid level, humidity, viscosity and moisture in granular substances.

Unit IV Control and Display Techniques: Tuning of controller; Quarter Amplitude Decay, Controller

performance criterion, Methods of process loop tuning, Process Reaction curve (open loop), Ziegler

Nichols (closed loop), frequency response method. Displays parameters scanning, data logging. Computer

supervisory control, direct digital control.

Unit V Programmable Logic Controllers: Introduction to PLC, Architecture, types of input and output modules,

Fixed and modular PLC, Specifications, Ladder Logic diagram

Books:

1. *C.D. Johnson Process Control Instrumentation Technology (PHI).

2. D. Patranabis Principles of Industrial Instrumentation (Tata Mc Graw Hill).

3. Krishna Kant Computer Based Industrial Control (PHI).

4.

5.

S.K.Singh

Gary Dunning

Computer Aided Process Control.

Introduction to PLC.

EE-477 Introduction to Artificial Intelligence



Unit I Introduction to Artificial Intelligence (AI) and Fuzzy Logic: Introduction to AI; Foundations of AI;

History of AI; Problem solving; Problem-solving agents; Searching for solutions; Fuzzy theory: Set-

theoretic operations, Member function formulation and parameterization, Fuzzy Rules, Relations and

Reasoning.

Unit II Search Strategies: Uninformed Search Strategies: Breadth-first search, Depth-first search, Depth-

limited search, Bidirectional search; Informed search strategies: Greedy best-first search, A* search,

Memory-bounded heuristic search; Local Search algorithms: Hill climbing search, Simulated annealing

search; Adversarial search: Minimax algorithm, alpha-beta pruning.

Unit III Knowledge and Reasoning: Knowledge based agents; Logic; Propositional and Predicate logic;

Reasoning patterns in propositional logic; First-order logic: Syntax and semantics, Models for first-

order logic, Inference rules; Rule based systems: Forward and backward reasoning.

Unit IV Neural Network Fundamentals: Functional anatomy of neuron; Artificial neuron models; Neural

network architectures; Activation functions; Rationale and basics of learning; Learning rules.

Unit V Supervised and Unsupervised Networks: Perceptrons; Perceptrons convergence theorem; Mutilayer

Perceptrons; Single layer networks; Limitations of single layer network; Multi layer Networks; Back

propagation algorithm; Radial basis function Networks; Self-organizing networks.

Books:

1 *Stuart Russell and Peter Norvig Artificial Intelligence: A Modern Approach, 2nd edition, Prentice Hall

of India, 2004.

2 D W Patterson Introduction to Artificial Intelligence and Expert Systems, Prentice Hall

of India, 1998.

3 *Simon Haykin Neural Networks: A Comprehensive Foundation, 2nd edition, Pearson

Education, 2004

4 Satish Kumar Neural Networks: A Classroom Approach, Tata McGraw Hill, 2004

5 Timothy J Ross Fuzzy Logic with Engineering Applications, McGraw Hill Inc, 2001.

6 J.S.R.Jang, C.T.Sun and E.Mizutani Neuro-Fuzzy and Soft Computing, PHI, 2004

EE-478 Microcontroller System


Unit I Introduction: The 8051 Microcontroller, criteria, for choosing a microcontroller, 8051 family members and

block diagram.

The 8051 Assembly Language Programming: 8051 internal registers, structure of assembly language,

program counter and ROM space, data types and directives, PSW, Register Banks and stack.

Unit II I/O Port Programing: Pin description, I/O Ports, Bit addressability & Read Modify-write feature.

Addressing Modes: Addressing modes, indexed addressing & look up tables, SFR registers and their

addresses.

Arithmetic & Logical Instructions: Addition, Subtraction, BCD numbers and DA A instruction,

multiplication and division, signed number and overflow problem in arithmetic operations.

Logic & Compare Instruction, Rotate & Swap Instruction, BCD & ASCII conversion programs.

Single Bit Instructions: Single bit instruction , Registers & bit addressability, Bit addressable RAM, Reading

input pins Vs Port Latch.

Unit III 8051 Timer/Counter Programming: Timer Registers, TMOD Register, Timer mode 1, mode 2, mode 3

programming, Counter Programming.

8051 Serial Communication: Basics of serial communication, Asynchronous serial communication & data

framing, RS 232 standards, MAX 232. Baud rate selection & TI register, SBUF, SCON Registers, and Serial

port Programming to transmit & receive data serially.

Unit IV 8051 Interrupts Programming: 8051 interrupts, IVT for 8051, IE register, TCON register and Timer

Interrupts, External H/W Interrupts Programming. Serial Port Interrupts Programming, interrupt priority

upon reset and IP register.

Unit V Real World Interfacing: LED, Switches, LCD, ADC, DAC, Sensors, Stepper Motor, Keyboard and

Memory.

Books:

1. *M. A. Mazidi and J. F Mazidi 8051 Microcontroller and Embedded Systems, Pearson Education.

2. Rajkamal Microcontrollers: Architecture, Programming & Systems Design, Pearson

Education.

3. K.J. Ayala 8051 Microcontrollers Arch., Programming & Applications, Penram

International

CORE COURSES OFFERED BY ELECTRICAL ENGG DEPT TO OTHER DEPARTMETS:----------------------------------

EE-202N Electrical Engineering


For B. Tech. (Electronics)

Unit I DC Motor: Construction, working principle and classification, emf and torque equation,

characteristics, speed control, starters.

Unit II Induction Motor: Introduction, equivalent circuit and torque equation, torque slip characteristics,

speed control and starting.

Unit III Synchronous and Special Machines: introduction, emf equation, circuit model, power developed in

cylindrical rotor synchronous machines, introduction to synchronous motor, construction and working

of stepper motor, servomotor and permanent magnet motors.

Unit IV Transmission Lines and Cables: Classification and representation of transmission line, voltage

regulation and efficiency, corona and radio interference, power cables, types, construction, electrical

stress and grading, thermal characteristics, introduction to HVDC transmission.

Unit V Distribution and Utilisation: Types of distribution systems: single phase, three phase four wire

system. substations; Illumination: definition of various terms, laws of illumination, types of lamps.

Traction: supply system and current collection system.

Books:

1. *Nagrath and Kothari Electric Machines; (TMH), 3rd edition.

2. *C.L. Wadhwa Generation, Distribution and Utilisation of Electric Energy; (Wiley Eastern)

3. C.L. Wadhwa Electric Power System; (Wiley Eastern)

EE-204 Electrical Technology


For B. Tech. (Mechanical)

Unit I Principles of Power Electronics: Characteristics of power diode, SCR, TRIAC, introduction to

single phase rectifiers, inverter, chopper.

Unit II D.C. Motors: Construction, emf and torque equations, types and characteristics, starters, speed

control methods, applications, permanent magnet motors.

Unit III Three Phase Induction Motors: Introduction, rotating magnetic field, slip-torque characteristic,

equivalent circuit, starters, speed control, applications.

Unit IV Synchronous and Special Motors: Construction and principle of operation of synchronous motors,

hysteresis motors, reluctance motors, stepper motors, universal motors and their applications.

Unit V Industrial Power Supply: Autotransformers, welding transformers, tariff systems and power

factor improvement.

Books:

1. *Nagrath and Kothari Electrical Machines; (TMH)

2. G.K.Dubey, S.R.Doradla , A.Joshi and

R.M.K.Sinha

Thyristorised Power Controllers; (Wiley Eastern)

3. Mukerji and Chakraborty Electrical Machines, (Dhanpat Rai and Sons)

EE-206 Electrical Engineering


For B. Tech. (Chemical)

Unit I AC Circuit Analysis: Circuit parameters, forced and transient response, sinusoidal steady state response,

series and parallel circuits, three-phase circuits: star and delta connections, relation between line and phase

quantities.

Unit II AC Machines: Construction of three-phase transformers, three-phase induction motors and their speed

control techniques: voltage and voltage/frequency control, universal and servo motors, synchronous motors.

Unit III DC Motors: Construction and types, basic principles of operation, torque expression, characteristics, need

of starter, PM motors, speed control, series, shunt and separately excited motors.

Unit IV Electrical Measurement and Utilization: Principles of Electrical measurements, errors in measurements,

measurement of power in 3 phase circuit, Hall effect current probes and power meters, static energy meters.

Advantages of electrical heating, different types of heating methods, induction furnaces, dielectric heating.

Unit V Digital Circuit Basics: Introduction to microprocessor, Registers, ROM, RAM, Microprocessors

Architecture, Assembly language programing

Books:

1. A. K. Sawhney A course in electrical and electronic measurements: Dhanpat Rai & Sons, New Delhi

2. *Nagrath & Kothari Electrical Machines: Tata-McGraw Hill, New Delhi.

3. H. Pratap Arts and Science of Utilization of Electrical Energy: Dhanpat Rai & Sons, New Delhi.

4. Rangan, Mani &

Sarma

Electrical Instrumentation, TMH, Delhi

5. *B. Ram Fundamentals of microprocessors and microcomputers: Dhanpat Rai Publications

EE-305 Control Engineering


For B. Tech. (Mechanical)

Unit I Introduction to Control Systems Engineering and Mathematical Modelling: Review of Control System

Engineering-Open and Closed-Loop systems, Effects of feed back. Transfer function of mechanical,

electrical and hydraulic systems, error detector, DC and AC servomotors, Tacho-generators, pneumatic

amplifiers and flapper valves.

Unit II Block Diagram and Signal Flow Graphs: Block diagram representation, block diagram reduction

techniques, signal flow graphs, inter-conversion of block diagram to signal flow graphs, Masson’s gain

formula.

Unit III State Variable Techniques: System representation in various forms of state variables, concept of

controllability and observability System analysis using state variable.

Unit IV Time Domain Analysis of Linear Systems: Transient and Steady state responses, transient response of

second order systems, error constants, root-locus technique and its applications.

Unit V Stability Analysis: Stability of Control Systems-RouthHurwtz criterion, Nyquist criterion and its

application. Frequency domain analysis of linear systems, Bode’s plot, gain margin and phase margin and

their determination, proportional, derivative, integral and PID Controllers, industrial controllers (On-Off

type).

Books:

1. *BC Kuo Automatic Control Systems, PHI (India), 7th Edition.

2. Nagrath and Gopal Control System TMH, 2002.

3. K. Ogatta Modern Control Engineering, PHI (India), 4th Edition.

Documents

COMPULSORY COURSES FOR B. TECH. (ELECTRICAL · COMPULSORY COURSES FOR B. TECH. (ELECTRICAL): ----- ... Beer and Lambert’s law (definition and units of terms involved, numerical