DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
FIRST YEAR B.TECH. (I SEMESTER)
LECTURE PLAN
Course No.: EE 100
Course Name: ELECTRICAL ENGINEERING Cr. Hrs.4(3+1) Faculty: Guest Faculty
Recommended Books:
S.No. Title Author 1. Electrical Technology B. L. Therja 2. Network analysis M.E.Van Valkenberg 3. Introduction to Electrical Network Theory, Soni and Gupta. 4. Fundamentals of Electrical & Electronics. J.B. Gupta. (2002)
S.No. Lecture No. Topics and Contents
1. Lecture 1 D.C. Networks: Kirchoff’s law
2 Lecture 2 node voltage and mesh current methods
3 Lecture 3 delta-star transformation
4 Lecture 4 star delta transformation 5 Lecture 5 source conversion;
6 Lecture 6 solution of DC circuits by network theorems: Thevenin's,
7 Lecture 7 solution of DC circuits by network theorems: Norton’s 8 Lecture 8 Superposition theorem
9 Lecture 9 Reciprocity theorem
10 Lecture 10 Maximum Power Transfer theorem
11 Lecture 11 Single Phase A.C.Ciruits : Single Phase EMF generation
12 Lecture 12 average and effective values of sinusoidal wave forms
13 Lecture 13 average and effective values of linear periodic wave forms
14 Lecture 14 instantaneous and average power 15 Lecture 15 power factor 16 Lecture 16 reactive & apparent power
17 Lecture 17 solution of R-L-C circuits
18 Lecture 18 solution of series and parallel circuits
19 Lecture 19 solution of series-parallel circuits
20 Lecture 20 complex representation of impedances
21 Lecture 21 phasor diagram of series resonance 22 Lecture 22 phasor diagram of parallel resonance 23 Lecture 23 Three Phase A.C., Circuits : Three phase EMF generation
24 Lecture 24 delta and star-connection, line and phase quantities of three phase A.C. circuits
25 Lecture 25 solution of the 3- phase balanced circuits 26 Lecture 26 Phasor diagram of the 3- phase balanced circuits
27 Lecture 27 measurement of power in three phase balanced circuits
28 Lecture 28 Transformer: Faraday's laws of Electromagnetic induction 29 Lecture 29 construction and principle operation of single phase transformer 30 Lecture 30 EMF equation of ideal transformer, voltage and current relationship 31 Lecture 31 voltage and current relationship of an ideal transformer 32 Lecture 32 Phasor diagram for ideal transformer
33 Lecture 33 Electrical Measuring Instruments : Introduction.
34 Lecture 34 type of measuring Instruments. 35 Lecture 35 Deflecting controlling & Damping Torque. 36 Lecture 36 D.C. PMMC instruments.
37 Lecture 37 shunts and multipliers, Moving iron ammeters and voltmeter.
38 Lecture 38 Dynamometers wattmeter, Induction type energy meter.
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
SECOND YEAR B.TECH. (IV SEMESTER)
LECTURE PLAN
Course No.: EE 221
Course Name: CIRCUIT THEORY – II Faculty: Dr. V. Dave
Recommended Books:
S.No. Title Author
1. Electrical Circuit Analysis Soni & Gupta
2. Circuit Analysis & Synthesis Sudhakar
S.No. Lecture No. Topics and Contents
1. Lecture 1 Laplace transform and its application to network analysis
2 Lecture 2 transform networks and sources.
3 Lecture 3 initial and final value theorem
4 Lecture 4 inverse transform of initial and final value theorem.
5 Lecture 5 Unit impulse response.
6 Lecture 6 unit step response.
7 Lecture 7 the time shift theorem and convolution.
8 Lecture 8 Network functions and complex frequency plane- transfer functions.
9 Lecture 9 concepts of complex frequency 10 Lecture 10 poles and zero and restrictions on their location in s-plane. 11 Lecture 11 relation between natural transient frequencies and resonance 12 Lecture 12 Time domain behavior from pole-zero configuration,
13 Lecture 13 frequency response 14 Lecture 14 magnitude and phase of network functions .
15 Lecture 15 a relation between time domain analysis.
16 Lecture 16 a relation between frequency domain analysis
17 Lecture 17 Filters –two port reactance networks
18 Lecture 18 image impedance, attenuation,
19 Lecture 19 phase shift and insertion loss
20 Lecture 20 characteristics of constant –k and m-derived filters
21 Lecture 21 design of constant –k and m-derived filters
22 Lecture 22 Fourier integral and continous spectra
23 Lecture 23 the Fourier Integral spectrum analysis for recurring pulse
24 Lecture 24 relationship between fourier transform,
25 Lecture 25 relationship between and transform, 26 Lecture 26 analysis of circuit using fourier transforms
27 Lecture 27 sinusoidal transfer function.
28 Lecture 28 Network synthesis – the positive real concept 29 Lecture 29 brune ‘s positive realness
30 Lecture 30 properties of function , Hurwitz polynomials
31 Lecture 31 synthesis of two elements networks LC 32 Lecture 32 RC and networks, cauer and foster networks
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
SECOND YEAR B.TECH. (IV SEMESTER)
LECTURE PLAN
Course No.: EE 222
Course Name: POWER SYSTEM – I Faculty: Dr. N. K. Jain
Recommended Books:
S.No. Title Author
1. Power System Analysis & Design B.R Gupta
2. A course in Electrical power Soni Gupta and Bhatnagar
S.No. Lecture No. Topics and Contents
1. Lecture 1 Basics of power system; Insulators:
2 Lecture 2 Type of insulators and bushings
3 Lecture 3 voltage distribution over an insulator string.
4 Lecture 4 grading and methods of improving string efficiency.
5 Lecture 5 pollution flashover
6 Lecture 6 Corona: Electric stress between parallel conductor’s,
7 Lecture 7 Disruptive critical voltage
8 Lecture 8 visual critical voltage
9 Lecture 9 calculation for three phase overhead lines for corona power loss.
10 Lecture 10 factors effecting corona and effect of corona.
11 Lecture 11 Parameters of transmission lines:Basics 12 Lecture 12 Resistance of overhead transmission lines
13 Lecture 13 inductance of overhead lines
14 Lecture 14 capacitance of overhead lines
15 Lecture 15 effect of earth on capacitance, 16 Lecture 16 line transposition
17 Lecture 17 geometric mean radius and distance.
18 Lecture 18 calculation of inductance and capacitance of single phase transmission line. 19 Lecture 19 Skin and Proximity effect.
20 Lecture 20 Performance of transmission lines.
21 Lecture 21 Steady state analysis of short transmission line 22 Lecture 22 medium transmission lines
23 Lecture 23 long transmission lines
24 Lecture 24 Generalized ABCD line constants
25 Lecture 25 receiving end power circle diagrams
26 Lecture 26 sending end power circle diagrams
27 Lecture 27 Ferranti effect
28 Lecture 28 interference with communication circuits
29 Lecture 29 Underground cables: Type of cables
30 Lecture 30 insulation resistance calculation of Underground cables.
31 Lecture 31 capacitance calculation of Underground cables.
32 Lecture 32 reduction of maximum stresses. 33 Lecture 33 causes of breakdown . 34 Lecture 34 idea about oil and gas filled cables.
35 Lecture 35 typical cases of line terminations .
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
SECOND YEAR B.TECH. (IV SEMESTER)
LECTURE PLAN
Course No.: EE 223
Course Name: ELECTRICAL MACHINES – I Faculty: Dr. Jai Kumar Meherchandani
Recommended Books:
S.No. Title Author
1. Fundamentals of Electric Machines B.R. Gupta & Vandana Singhal
2. Electric Machines (Second Edition) I.J. Nagrath & D.P. Kothari
3. Electrical Machines P.K.Mukherjee & S.Chakravorti
S.No. Lecture No. Topics and Contents
1. Lecture 1 Transformers: Constructional features.
2 Lecture 2 emf equation and phasor diagram of transformer
3 Lecture 3 equivalent circuits of transformer
4 Lecture 4 open circuit and short circuit test of transformer
5 Lecture 5 Sumpner’s test of transformer
6 Lecture 6 efficiency, and voltage regulation of transformer
7 Lecture 7 all-day efficiency of transformer
8 Lecture 8 separation of losses of transformer
9 Lecture 9 parallel operation and autotransformers.
10 Lecture 10 Polyphase Transformers: standard connections for three-phase operation and single phasing . 11 Lecture 11 unbalanced load conditions on a threephase transformer.
12 Lecture 12 Scott connection of Polyphase Transformers. 13 Lecture 13 six-phase transformation.
14 Lecture 14 Electromechanical Energy Conversion: Basic principles of electromechanical energy conversion, energy balance. 15 Lecture 15 basic principles of operation of electric generators and motors
16 Lecture 16 DC Machines: Fundamentals of DC machine, 17 Lecture 17 Construction and armature windings of DC machine 18 Lecture 18 simple lap and wave windings, chording, equalizing connections.
19 Lecture 19 DC Generators: EMF equation. 20 Lecture 20 Types of DC generators, no load and load characteristics.
21 Lecture 21 parallel operation of DC Generators.
22 Lecture 22 Armature Reaction: Distribution of armature and field mmfs.
23 Lecture 23 Commutation: Introduction to commutation and reactance voltage.
24 Lecture 24 resistance commutation and interpoles.
25 Lecture 25 DC Motors: Principle of operation.
26 Lecture 26 production of torque and back emf of DC Motors.
27 Lecture 27 torque-current and torque-speed characteristics of motors. 28 Lecture 28 starting of motors and speed control by variation of armature voltage.
29 Lecture 29 speed control by field current and Ward Leonard method
30 Lecture 30 electric braking, losses and efficiency
31 Lecture 31 direct and indirect tests, Swinburne’s test of motors.
32 Lecture 32 Hopkinson’s test and field test. 33 Lecture 33 retardation test of motors and Rosenberg generator.
34 Lecture 34 Cross-Field Machines: Basic principles of operation of metadyne.
35 Lecture 35 amplidyne and their applications.
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
THIRD YEAR B.TECH. (VI SEMESTER)
LECTURE PLAN
Course No.: EE 321
Course Name: ELECTROMAGNETIC & FIELD THEORY Faculty: Dr. Naveen Jain
Recommended Books:
S.No. Title Author 1. Engineering Electromagnetics Hayt Jr, William.
2. Electromagnetics with application Kraus, Fleish.
3. Introduction to Electromagnetics Griffith David J.
S.No. Lecture No. Topics and Contents 1. Lecture 1 Vector relation in rectangular and cylindrical coordinate system.
2 Lecture 2 Vector relation in spherical coordinate system .
3 Lecture 3 Vector relation in general curvilinear coordinate system .
4 Lecture 4 surface & volume integral; Concept and physical interpretation of: Gradient. 5 Lecture 5 Concept and physical interpretation of: Divergence and Curl. 6 Lecture 6 Stokes Theorem and Helmholtz Theorem.
7 Lecture 7 Electrostatics: Introduction to Electric field vectors.
8 Lecture 8 Electric field due to charge configuration.
9 Lecture 9 Potential function and displacement ratio.
10 Lecture 10 Gauss law, Poison’s and Laplace’s equation’s.
11 Lecture 11 Uniqueness theorem and continuity equation.
12 Lecture 12 Capacitance & electrostatic energy. 13 Lecture 13 Field determination by method of image.
14 Lecture 14 Boundary condition and Field mapping .
15 Lecture 15 Concept of field cell.
16 Lecture 16 Magneto-statics: Introduction to magnetic field vectors.
17 Lecture 17 Bio-Savart and Ampere’s law.
18 Lecture 18 Magnetic scalar and vector potential.
19 Lecture 19 Self and mutual inductance energy stored in magnetic field.
20 Lecture 20 Boundary condition.
21 Lecture 21 , Analogy between electric and magnetic field.
22 Lecture 22 Field mapping and concept of field cell.
23 Lecture 23 Time-Varying Fields: Faraday’s law.
24 Lecture 24 Displacement current & equation of continuity.
25 Lecture 25 Maxwell’s equation. 26 Lecture 26 UPW: Free space, dielectrics and conductors.
27 Lecture 27 Skin effect and sinusoidal time variation.
28 Lecture 28 Reflection, refraction and polarization of UPW standing wave ratio.
29 Lecture 29 Pointing vector and power consideration.
30 Lecture 30 Radiation and Transmission, Retarded potential and concepts of radiation. 31 Lecture 31 , radiation from small current elements. 32 Lecture 32 Transmission line parameters. 33 Lecture 33 Introduction to EMI & EMC.
34 Lecture 34 EMI coupling nodes, methods of eliminating interference. 35 Lecture 35 shielding, grounding, conducted EMI. 36 Lecture 36 EMI testing, emission testing, susceptibility testing.
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
THIRD YEAR B.TECH. (VI SEMESTER)
LECTURE PLAN
Course No.: EE 322
Course Name: POWER ELECTRONICS – II Faculty: Dr. Vinod K. Yadav
Recommended Books:
S.No. Title Author 1. Power Electronics P.S. Bimbhra
2. Power Electronics Berde
3. Power Electronics. P.C. Sen
S.No. Lecture No. Topics and Contents 1. Lecture 1 Converters: Performance measures of single phase converter.
2 Lecture 2 Performance measures of three-phase converters.
3 Lecture 3 discontinuous conduction in two quadrant converters.
4 Lecture 4 power factor improvements.
5 Lecture 5 Extinction angle control.
6 Lecture 6 symmetrical angle control .
7 Lecture 7 pulse width modulation control.
8 Lecture 8 sinusoidal pulse width modulation control.
9 Lecture 9 Thyristor commutation scheme- Line commutation.
10 Lecture 10 load commutation. 11 Lecture 11 forced and external pulse commutation. 12 Lecture 12 Cycloconverter: Basic principle of operation .
13 Lecture 13 single phase to single phase output equation of cycloconverters. 14 Lecture 14 Choppers: Principle of chopper operation,
15 Lecture 15 control strategies for choppers.
16 Lecture 16 step-up chopper and reversible chopper.
17 Lecture 17 Steady state time domain analysis of type-A chopper.
18 Lecture 18 Chopper configuration and chopper commutation.
19 Lecture 19 AC Chopper and Multiphase chopper.
20 Lecture 20 Inverters: Inverter classification.
21 Lecture 21 Voltage source thyristor inverters.
22 Lecture 22 single phase half bridge inverters with auxiliary communication .
23 Lecture 23 single phase full bridge inverters with auxiliary communication.
24 Lecture 24 single phase half and full bridge inverters with complementary communication.
25 Lecture 25 Three phase bridge inverters with 180 mode . 26 Lecture 26 Three phase bridge inverters with 120 mode. 27 Lecture 27 Pulse width modulation inverters.
28 Lecture 28 Current source inverters. 29 Lecture 29 single phase capacitor-commutated CSI with restive load. 30 Lecture 30 single phase auto-sequential commutated inverter.
31 Lecture 31 three phase auto-sequential commutated inverter. 32 Lecture 32 single phase series inverters & parallel or push pull inverters. 33 Lecture 33 Voltage control of inverters .
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
THIRD YEAR B.TECH. (VI SEMESTER)
LECTURE PLAN
Course No.: EE 323
Course Name: INSTRUMENTATION Faculty: Dr. Jai Kumar
Recommended Books:
S.No. Title Author 1. Electrical Measurement & Instrumentation A.K. Shawney
2. Electronic Instrumentation Kalsi
3. Electronic Instrumentation Albert Cooper
S.No. Lecture No. Topics and Contents 1. Lecture 1 Theory of errors: Accuracy and precision.
2 Lecture 2 systematic and random errors.
3 Lecture 3 limits of errors.
4 Lecture 4 probable errors and standard deviation.
5 Lecture 5 Gaussian error curves.
6 Lecture 6 Combinational errors.
7 Lecture 7 Transducers: Constructional features, operating characteristics and selection. Criteria of active, passive and digital transducers,
8 Lecture 8 Constructional features and operating characteristics of Transducers.
9 Lecture 9 Selection Criteria of active, passive transducers. 10 Lecture 10 Selection Criteria of digital transducers.
11 Lecture 11 block diagram representation for the instrumentation of strain.
12 Lecture 12 block diagram representation for the instrumentation of displacement and velocity
13 Lecture 13 Acceleration and force measurement.
14 Lecture 14 torque, flow, pressure and temperature.
15 Lecture 15 Signal conditioning: a.c. & d.c. Bridges
16 Lecture 16 analysis of unbalanced bridges,
17 Lecture 17 Instrumentation amplifier and operational amplifiers.
18 Lecture 18 choppers, established and carrier amplifiers
19 Lecture 19 charge amplifiers, A/D & D/A converters.
20 Lecture 20 Phase sensitive detectors, shielding and grounding.
21 Lecture 21 Signal recovery: Signal filtering, averaging, correlation and coding.
22 Lecture 22 Signal transmission and telemetry.
23 Lecture 23 Modulation and encoding methods, 24 Lecture 24 transmission media, Time division multiplexing. 25 Lecture 25 frequency multiplexing.
26 Lecture 26 Signal recording and display- Analog and digital display, Recorders. 27 Lecture 27 storage oscilloscopes, printers and plotters. 28 Lecture 28 Data acquisition system (analog and digital).
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
THIRD YEAR B.TECH. (VI SEMESTER)
LECTURE PLAN
Course No.: EE 325
Course Name: ELECTRICAL ENGINEERING MATERIALS Faculty: Mr. vahid hussain
Recommended Books:
S.No. Title Author 1. An introduction to Electrical Engineering Materials, C.S Indulkar & S. Thriuvengadam
2. A course in Electrical Engineering Materials, S.P.Seth & P.V.Gupta
3. Electrical Engineering Materials B.D.Indu
S.No. Lecture No. Topics and Contents
1. Lecture 1 Conductor Materials: Electrical, thermal properties of conductive and resistive material 2 Lecture 2 Mechanical properties of conductive and resistive material
3 Lecture 3 Important characteristics and applications of specific conductor materials like copper, aluminium 4 Lecture 4 Important characteristics and applications of specific conductor materials like AAC, ACSR 5 Lecture 5 Important characteristics and applications of specific conductor materials like silver, gold, platinum and tungsten, 6 Lecture 6 Study of important resistance materials, carbon and nicrome
7 Lecture 7 Study of important standard resistance materials.
8 Lecture 8 Soldering alloys.
9 Lecture 9 Super-conducting Materials: Introduction, critical field and critical current density, , 10 Lecture 10 Type I and type II superconductors 11 Lecture 11 Intermediate state, penetration depth and thin films 12 Lecture 12 Superconductivity at high frequencies 13 Lecture 13 Application of superconductivity 14 Lecture 14 Advancements in super conducting materials
15 Lecture 15 Dielectric materials: Dielectric behavior of materials under static and dynamic field 16 Lecture 16 Polarisation, induced and permanent dipole moments,
17 Lecture 17 Surface resistivity. Breakdown processes.
18 Lecture 18 Thermal properties Electrical properties of important dielectric materials including plastics and ceramics 19 Lecture 19 Ferroelectric and piezo-electric materials.
20 Lecture 20 Magnetic Materials: characteristics of diamagnetic,
21 Lecture 21 Paramagnetic, ferromagnetic
22 Lecture 22 Ferrimagnetic and anti-ferromagnetic materials,
23 Lecture 23 Properties and applications of common nonretentive and retentive magnetic materials including various alloys,.
24 Lecture 24 Ferrites and powder cores 25 Lecture 25 Eddy current and hysteresis losses, Curie point 26 Lecture 26 Semiconductor materials: Electric properties of semiconducting elements 27 Lecture 27 Compounds and their application. 28 Lecture 28 Zone refining and crystal growth 29 Lecture 29 Miscellaneous materials: important electronic properties of electron emitting materials, 30 Lecture 30 Photosensitive materials and luminescent materials. 31 Lecture 31 .
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
FOURTH YEAR B.TECH. (VIII SEMESTER)
LECTURE PLAN
Course No.: EE 421
Course Name: ADVANCED POWER SYSTEMS Faculty: Mr. Anshul Kumawat
Recommended Books:
S.No. Title Author
1. Power system analysis J J Grainger and W D Stevenson
2. Flexible AC transmission systems K. R. Padiyar
3. Power system analysis Wooden Woollen Berg
S.No. Lecture No. Topics and Contents
1. Lecture 1 EHV AC Transmission: Need of EHV transmission lines,
2 Lecture 2 power handling capacity and surge impedance loading.
3 Lecture 3 Problems of EHV transmission,
4 Lecture 4 bundled conductors geometric mean radius of bundle,
5 Lecture 5 properties of bundle conductors
6 Lecture 6 Electrostatic fields of EHV lines and their effects,
7 Lecture 7 corona effects: Corona loss, audio and radio noise
8 Lecture 8 HVDC Transmission: Types of D.C. links, ,
9 Lecture 9 advantages and disadvantages of HVDC transmission 10 Lecture 10 Basic scheme and equipment of converter station. 11 Lecture 11 Analysis of HVDC Converters, twelve-pulse converter 12 Lecture 12 Ground return. Basic principles of DC link control 13 Lecture 13 basic converter control characteristics, s 14 Lecture 14 ystem control hierarchy, various controls of HVDC like VDCOL,
15 Lecture 15 firing angle control, current and extinction angle control
16 Lecture 16 gamma controller, power controller.
17 Lecture 17 Introduction to multi-terminal DC systems, ,
18 Lecture 18 application of MTDC Systems, types of MTDC systems
19 Lecture 19 Control and protection of MTDC systems.
20 Lecture 20 Description of various converters and inverters circuits,
21 Lecture 21 HVDC circuit breakers, Harmonics and filters,
22 Lecture 22 Measurement of HVDC quantities
23 Lecture 23 Reactive power requirements and sources of reactive power. 24 Lecture 24 Converter Faults and. 25 Lecture 25 protection against over currents, over voltages 26 Lecture 26 FACTS: Problems of AC transmission lines. 27 Lecture 27 Phenomena of voltage collapse,. 28 Lecture 28 basic theory of line compensation 29 Lecture 29 Basic features of FACTS controllers 30 Lecture 30 Basic schemes and operations of thyristor controlled 31 Lecture 31 series compensator phase angle regulator, dynamic brake 32 Lecture 32 Introduction to static synchronous compensator (STATCOM) and 33 Lecture 33 unified power flow controller (UPFC).
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
FOURTH YEAR B.TECH. (VIII SEMESTER)
LECTURE PLAN
Course No.: EE 422
Course Name: NEURAL AND FUZZY BASED CONTROL SYSTEM Faculty: Dr. R.R. Joshi
Recommended Books:
S.No. Title Author
1. Introduction of artificial neural systems J.M. Zurada. (1997).
2. Neural networks S. Iiaykin. (1994).
3. Neuro control and its application S. Omatu, M. Khalid, R. Yusof. (1996).
S.No. Lecture No. Topics and Contents
1. Lecture 1 Artificial neural systems : Preliminaries, ,
2 Lecture 2 fundamental concepts & models of artificicalsystem, neural networks learning rules 3 Lecture 3 Hebbian, perceptron,
4 Lecture 4 delta Widrow-Hoff learning rules
5 Lecture 5 Single layer percepton classification : Classification model, features & decision regions training &, 6 Lecture 6 classification using discrete perception
7 Lecture 7 algorithm & examples
8 Lecture 8 single layer continuous perceptron networks for linear separable classification
9 Lecture 9 Multilayer feedback work networks Generalized delta learning rule 10 Lecture 10 feedforword recall & error back propagation training, learning factors. 11 Lecture 11 Single layer feedback networks : basic concepts of dynamical systems mathematical modeling of discrete time & 12 Lecture 12 gradient type Hopfield networks 13 Lecture 13 Neural network in control system : Neuro-control approaches, 14 Lecture 14 training algorithm evaluation of training algorithms, through simulation,
15 Lecture 15 self tuning neuro-control scheme,
16 Lecture 16 self tuning PID neural controller
17 Lecture 17 neuro-control scheme feed water bath temperature control system.
18 Lecture 18 Mathematical of fuzzy control: fuzzy sets, fuzzy set theory, .
19 Lecture 19 properties of fuzzy sets
20 Lecture 20 Operations of fuzzy sets, fuzzy relations
21 Lecture 21 Non linear fuzzy control: The control problem,
22 Lecture 22 FKBC as non linear transfer element PID
23 Lecture 23 sliding mode type FKBC 24 Lecture 24 some typical application of fuzzy based control systems.
25 Lecture 25 Adaptive Fuzzy control: Introduction, design &, 26 Lecture 26 performance evaluation, performance monitor 27 Lecture 27 main approaches to design 28 Lecture 28 Stability of fuzzy control system: state space approach, 29 Lecture 29 stability and robustness indices 30 Lecture 30 input-output stability 31 Lecture 31 FKBC design parameters: Structure of FKBC fuzzification and, 32 Lecture 32 defuzzification module 33 Lecture 33 rule based choice of variable
34 Lecture 34 contents of rules, derivation of rule data based,.
35 Lecture 35 choice of membership function and scaling factors
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
FOURTH YEAR B.TECH. (VIII SEMESTER) ELECTIVE – I
LECTURE PLAN
Course No.: EE 423(a)
Course Name: UTILIZATION OF ELECTRICAL POWER Faculty: Ms. Himani Paliwal
Recommended Books:
S.No. Title Author
1. Utilisation of Electrical Power H. Pratap
2. Electrical power systems Soni, Gupta, Bhatnagar
S.No. Lecture No. Topics and Contents
1. Lecture 1 Electric drives- Characteristics of load,
2 Lecture 2 Characteristic of different drives, size and rating of electric drives
3 Lecture 3 Load equalization and flywheel, ,
4 Lecture 4 Selection of electric drives for specific application
5 Lecture 5 Electric braking
6 Lecture 6 Behavior of motor during starting,.
7 Lecture 7 Acceleration braking & reversing operation
8 Lecture 8 Different methods of electric heating, Arc furnace & induction furnace
9 Lecture 9 Principle of high frequency induction and 10 Lecture 10 Dielectric heating 11 Lecture 11 Principles of illumination, 12 Lecture 12 Electric light sources, 13 Lecture 13 Designing scheme for commercial, 14 Lecture 14 Industrial street & flood lighting
15 Lecture 15 Systems of electric traction, track electrification, ,
16 Lecture 16 Means of supplying power & train lighting
17 Lecture 17 Substation equipment & layout, over head equipment
18 Lecture 18 D.C. & A.C. traction motor,
19 Lecture 19 Various method of starting
20 Lecture 20 Speed control
21 Lecture 21 Metadyne control series-parallel starting methods of electric braking of traction motor speed-time curve,
22 Lecture 22 Metadyne control series-parallel starting methods of electric braking of traction motor speed-time curve,
23 Lecture 23 Tractive efforts specific energy conversion 24 Lecture 24 Mechanics of train movement
DEPARTMENT OF ELECTRICAL ENGINEERING
COLLEGE OF TECHNOLOGY AND ENGINEERING
MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR
FOURTH YEAR B.TECH. (VIII SEMESTER) ELECTIVE – II
LECTURE PLAN
Course No.: EE 424(b)
Course Name: HIGH VOLTAGE ENGINEERING Faculty: Ms. Kusumlata
Recommended Books:
S.No. Title Author
1. High voltage engineering K. Naidu
2. High voltage engineering C.L.Wadhwa
S.No. Lecture No. Topics and Contents
1. Lecture 1 Mechanism of breakdown in gases, liquids and solids
2 Lecture 2 Townsands
3 Lecture 3 Streamer theories, Paschin’s law
4 Lecture 4 Impulse generator circuit
5 Lecture 5 Techniques to observe wave front on CRO
6 Lecture 6 Method of generation of power frequency high voltages- and
7 Lecture 7 Cascade transformers
8 Lecture 8 Resonance methods
9 Lecture 9 Generation of H.V.D.C. voltage stabilization, 10 Lecture 10 Tesla coil. 11 Lecture 11 Measurements of high voltage: Potential divider, sphere gap and
12 Lecture 12 Electrostatic voltmeter, oscilloscope 13 Lecture 13 Measurements of high voltage: Potential divider, sphere gap, and
14 Lecture 14 Electrostatic voltmeter, oscilloscope
15 Lecture 15 Their application in high voltage measurements and
16 Lecture 16 Measurement of loss angle
17 Lecture 17 Partial discharge measurement techniques
18 Lecture 18 H.V. testing: Wet and dry flash over test
19 Lecture 19 Testing of insulators in simulated pollution conditions.
20 Lecture 20 Accumulation of charges in clouds,
21 Lecture 21 Direct and indirect strokes
22 Lecture 22 Isokeravnic level
23 Lecture 23 Switching surges, protection of system against surges