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BMS COLLEGE OF ENGINEERING, BANGALOREAutonomous College under VTU
Cluster: Electrical Sciences Program: EE/EC/TC/ML/IT Semester: III
L Lecture Hours / week; T- Tutorial Lecture Hours / week; P-Practical Lecture Hours / week.
CIE- Continuous Internal Evaluation; SEE- Semester End Examination (of 3 Hours duration)
*The contact hours for ML
Subject Code Subject Title
Credit Hours/Week Contact
hrs/wk
Marks Page
L T P Total CIE SEE Total
M A 3 I C M A T Engineering Mathematics-III 3 2 0 4 5 50 50 100
E S 3 G C N A L Network Analysis 4 0 0 4 4 50 50 100
E S 3 G C A E C Analog Electronic Circuits 4 0 2 5 6 50 50 100
E S 3 G C D E C Digital Electronics 4 0 2 5 6 50 50 100
E S 3 G C
F T HField Theory (EE/EC/TC/IT)
4 0 0
4
4
50 50 100
F M PFundamentals of Microprocessors
(ML Only)3 0 2 5*
E S 3 G C
M S T Measurement Techniques (EE/IT/ML)
3 0 0 3 3 50 50 100E I M
Electronic Instrumentation and Measurements
(EC/TC) Total 25 28/29*600
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BMS COLLEGE OF ENGINEERING, BANGALORE
Autonomous College under VTU
Cluster: Electrical Sciences Program: EE/EC/TC/ML/IT Semester: IV
Subject Code
Subject Title
Credit Hours/Week Contact
hrs/wk
Marks Page
No.
L T P Total CIE SEE Total
M A 4 I C M A T Engineering Mathematics-IV 3 2 0 4 5 50 50 100
E S 4 G C L I C Op-amps and Linear ICs 4 0 2 5 6 50 50 100
E S 4 G CM P R 8086 Microprocessor (EE/EC/IT/TC)
3 0 2 4 5 50 50 100M C L Microcontrollers (ML Only)
E S 4 G CS A S Signals and Systems (EE/EC/IT/ML) 4 0 0 4 4
50 50 100A S P Analog Signal Processing (TC only) 4 0 0 4 4
E S 4 G C C S T Control Systems 4 0 0 4 4 50 50 100
E S 4 G C H D L Fundamentals of HDL 3 0 2 4 5 50 50 100
Total 25 29 600
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THIRD SEMESTER B.E COURSE - (Common to all branches except CSE / ISE)
MA3ICMAT
Engineering Mathematics - III
UNIT 1
FOURIER SERIES [9 hours]
Infinite series, convergence and divergence of infinite series of positive terms, power series,
periodic function, Dirichlets conditions, statement of Fourier Theorem, Fourier series of
periodic function of period 2 and arbitrary period, half range Fourier series, complex form of
Fourier series, practical harmonic analysis. (7L+2T)
UNIT 2
FOURIER TRANSFORM [9 hours]
Infinite Fourier transform, Fourier Sine and Cosine transforms, properties, Inverse transforms,
Convolution theorem (statement only), Parsevals identities for Fourier transform. Fourier
transforms of the derivatives of a function. (7L+2T)
UNIT 3
PARTIAL DIFFERENTIAL EQUATIONS [12 hours]
Formation of Partial differential equations-elimination of arbitrary constants, elimination of
arbitrary functions. Equations of first order- The linear equation P p + Q q = R (Lagrangespartial differential equation). Method of separation of variables (5L+2T)
APPLICATIONS OF PARTIAL DIFFERENTIAL EQUATIONS
Derivation of one-dimensional heat equation, wave equation, various possible solutions of these
by the method of separation of variables, DAlemberts solution of wave equation. (4L+1T)
UNIT 4
NUMERICAL METHODS [11 hours]
Finite Differences and interpolation: Forward differences, Backward differences.
Interpolation: Newton-Gregory forward interpolation formula, Newton-Gregory backward
interpolation formula, Newtons general interpolation formula, Lagranges interpolationformula, Lagranges inverse interpolation.
Numerical differentiation: Numerical differentiation using Newton-Gregory forward and
backward interpolation formula. (4L+2T)
Numerical integration: Trapezoidal rule, Simpsons 1/3rd rule, Simpsons 3/8th rule, Weddles
rule.
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Solution of algebraic and transcendental equations: Ramanujans method, Newton-Raphson
method, deductions.
Numerical solution of ordinary differential equations: Eulers modified method, Runge-Kutta
method of fourth order. (4L+1T)
UNIT 5
Z TRANSFORMS [11 hours]
Definition, Properties, Transforms of standard functions, Inverse transforms.
APPLICATIONS OF Z -TRANSFORMS
Solution of difference equations using Z- transforms. (4L+2T)
CALCULUS OF VARIATIONS
Variation of function and functional, Eulers equation, variational problem.
APPLICATIONS OF CALCULUS OF VARIATIONS
Geodesics, minimal surface of revolution, hanging chain, Brachistochrone problem.(4L+1T)
TEXT BOOKS:
1. Higher Engineering Mathematics, B.S. Grewal, 40th edition, 2007, Khanna Publishers.
2. Advanced Engineering Mathematics, Erwin Kreyszig, 8th edition, 2007, Wiley-India
3. Introductory methods of Numerical Analysis, S. S. Sastry, 3rd edition, 1999, Prentice-Hallof India.
Unit
No.
Text Book Chapter
No.
Article Number Page Nos.
I B.S. Grewal 10 10.1 to 10.7 429 454
10.10 to 10.11 456 - 463
II B.S. Grewal 22 22.1 to 22.2, 22.4 to 22. 7 836 - 851
III B.S. Grewal 17 17.1 to 17.3, 17.5 632 - 639
18 18.1 to 18.5 657 - 678
IV B.S. Grewal 29 29.1(1) to 29.1(2) 1038-1039
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29.5 (1) to 29.5(2) 1050-1055
29.8 to 29.10 1064-1071
29.12 1075-1083
28 28.2(3) 1011-1016
31 31.1, 31.4 to 31.5, 31.7 1096-1109
IV S.S. Sastry 2 2.6 38 - 43
V B.S. Grewal 23 23.1 to 23.11, 23.15(I), 23.15(II), 23.16 866 - 885
34 34.1 to 34.5 1204-1213
REFERENCE BOOKS:
1. Advanced Modern Engineering Mathematics, Glyn James, 3rd edition, 2004, Pearson
Education.2. Higher Engineering Mathematics, B.V. Ramana, 2007, Tata Mc. Graw Hill.
3. Advanced Engineering Mathematics, P. V. ONeil, 5th
Indian reprint, 2009, Cengagelearning India Pvt. Ltd.
Question Paper Pattern:
1. Each unit consists of one full question.
2. Each full question consists of three or four subdivisions.3. Five full questions to be answered.
4. Internal Choice in Unit 3 and Unit 5
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III SEMESTER ELECTRICAL CLUSTER
ES3GCNAL
Network Analysis
UNIT 1 :
Basic Concepts:Practical sources, Source transformations, Network reduction using Star Delta transformation,
Loop and node analysis With linearly dependent and independent sources for DC and AC networks,
Concepts of super node and super mesh. 08 Hrs
UNIT 2 :
(a)Network Topology: Graph of a network, Concept of tree and co-tree, incidence matrix, tie-set,
tie-set & cut-set schedules, Formulation of equilibrium equations, Principle of duality.
(b)Resonant Circuits: Series and parallel resonance, frequency response of series and Parallelcircuits, Q factor, Bandwidth. 10 HrsUNIT 3 :
Network Theorems :
Superposition, Reciprocity , Millmans Thevinins and Nortons theorems; Maximum Power transfertheorem. 12 HrsUNIT 4 :
Transient behavior and initial conditions:
Behavior of circuit elements under switching condition and their representation, evaluation of initial
and final conditions in RL, RC and RLC circuits
Laplace Transformation & Applications
Review of Laplace transforms, waveform Synthesis, initial and final value theorems, step, ramp and
impulse responses ,convolution theorem, solution of simple R-L,R-C,R-L-C networks for AC and
DC excitations using Laplace transforms. 12 Hrs
UNIT 5 :
Two port network parameters and State Variable analysis:
Definition of z, y, h and transmission parameters, modeling with these parameters, relationship between parameters sets. Writing State equations and solution using Laplace transforms.
10 Hrs
TEXT BOOKS:
1. Network Analysis, M. E. Van Valkenburg, PHI / Pearson Education, 3rd Edition. Reprint
2002.
2. Networks and systems, Roy Choudhury, 2nd edition, 2006 re-print, New Age
International Publications.3. Theory and Problems of Electric Circuits (Schaum Series), 2nd Edition Mc Graw Hill
REFERENCE BOOKS:
1. Engineering Circuit Analysis, Hayt, Kemmerly and Durbin,TMH 6th Edition, 2002
2. Network analysis and Synthesis, Franklin F. Kuo, Wiley
3. Analysis of Linear Systems, David K. Cheng, Narosa Publishing House, 11th reprint,2002
4. Circuits, Bruce Carlson, Thomson Learning, 2000. Reprint 2002
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III SEMESTER ELECTRICAL CLUSTER
ES3GCAEC
Analog Electronic Circuits
UNIT 1
Semiconductor Diodes Semiconductor diode, ideal versus practical, resistance levels, diode
equivalent circuits, transition and diffusion capacitance, reverse recovery time, diode
specification sheets, semiconductor diode notation, diode testing.
Diode Applications Introduction, load line analysis, series diode configurations, parallel and
series parallel configurations, AND/OR gates, clippers, clampers, voltage multipliers.
10
hours
UNIT 2
DC biasing of BJTS Introduction, operating point, fixed bias circuit, emitter bias, voltage
divider bias, dc bias with voltage feedback, miscellaneous bias configurations, design operations,transistor switching networks, troubleshooting techniques, PNP transistors, bias stabilization.
BJT AC Analysis Introduction, amplification in the ac domain, BJT transistor modeling, retransistor model, the hybrid equivalent model, CE fixed bias, voltage divider bias, CE emitter
bias, Determining the current gain, Effect of RL and RS, two-port system approach, summarytables, complete hybrid equivalent model , problems on h parameters(only CE configuration)
12hours UNIT 3Power amplifiers Introduction definitions and amplifier types, series fed class A amplifier,
transformer coupled class A amplifier, class B amplifier operation, class B amplifier circuits.Amplifier distortion, Power transistor heat sink, class C and class D amplifiers. Cascaded
systems, Darlington connections. 10 hours
UNIT 4
Feedback and Oscillator Circuits (BJT version only) Feedback concepts, feedback
connection types, practical feedback circuits, feedback amplifier phase and frequency
considerations, oscillator operation, phase shift oscillator, Wein bridge oscillator, tuned oscillatorcircuit, crystal oscillator, unijunction oscillator. 10hoursUNIT 5
BJT frequency response Introduction, logarithms, decibels, general frequency considerations,
low frequency analysis bode plot, BJT low frequency response, miller effect capacitance, BJT
high frequency response.
FETs Introduction, construction and characteristics of JFETs, transfer characteristics,
important relationships, Depletion and Enhancement type MOSFETS. 10 hours
LAB EXPERIMENTS- Clipping, clamping, half wave and full wave rectifiers, RC coupled
amplifiers, Darlington emitter follower, RC phase shift oscillator, crystal oscillator, Hartley and
Colpitts oscillator, voltage series feedback amplifier, Simulation experiments using Multisim/P-Spice.
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Text Book
1. Electronic Devices and Circuit Theory - Robert L.Boylestad and Louis Nashelsky -9th edition - Pearson
Reference Books
1. Integrated Electronics - Jacob Millman and Christos C. Halkias - TMH
2. Electronic Devices and Circuits - David A. Bell - PHI 4th edition
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III SEMESTER ELECTRICAL CLUSTER
ES3GCDEC
Digital Electronics
UNIT 1 :Introduction :
Review of Boolean algebra, logic gates.
Simplification of Boolean functions : The Map Method, Two and Three Variable Maps, FourVariable Map, Product of sums simplification, NAND and NOR implementation, Other Two level
implementations, Dont care conditions, The Tabulation Method, Determination of Prime
Implicants, Selection of prime implicants , Concluding Remarks. 10 Hrs
Unit 2 :
Combinational Logic Circuits:
Introduction, Design Procedure, Adders, Subtractors, Code conversion ( binary to gray, BCD to
Excess-3)
,Combinational Logic with MSI and LSI:Introduction, Binary Parallel Adder, Decimal Adder, Magnitude Comparator, Decoders,
Multiplexers. 11 Hrs
Unit 3:
Flip-Flops and Simple Flip Flops Applications:
The Basic Bistable Element, Latches, Timing Considerations, Master Slave Flip-Flops (Pulse-
Triggered Flip-flops), Edge Triggered Flip Flops, Characteristic Equations. 10 Hrs
Unit 4:
Sequential Logic Circuits:
Registers, Counters, Design of Synchronous Counters. 10 Hrs
Unit 5:
Synchronous Sequential circuits:
Structure and Operation of Clocked Synchronous sequential Networks, Analysis of clocked
synchronous sequential networks, Modeling clocked synchronous sequential network behavior, statetable reduction, The state assignment, Completing the design of clocked synchronous sequential
networks. 11 Hrs
LAB experiments: Verification of gates, implementation of Boolean expressions using basicgates and universal gates, code conversion (binary to gray and BCD to Excess-3), adders,
subtracters, multiplexers, demultiplexers, comparators & code converters, Flipflops, counters,
shift registers.
TEXT BOOKS:
1. Digital logic and computer design- Morris Mano, Prentice Hall
2. Digital Principles and Design- Donald Givone, Tata Mc Graw Hill
REFERENCE BOOKS:
1. Fundamental of Logic Design- Charles Roth Jr., Thomas Learning
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2. Digital Logic Applications and principles- John Yarbrough, Pearson Education
III SEMESTER ELECTRICAL CLUSTER
ES3GCFTH
Field Theory (EE/EC/TC/IT only)
UNIT-1:
Coulombs Law, Electric Field Intensity (EFI):
Experimental Law, EFI, due to Line Charge , Surface and Volume Charge.
Electric Flux Density (EFD), Gauss Law, Divergence:
Electric Flux Density (EFD), Gauss Law, Application, Divergence and Divergence Theorem.
10 Hrs
UNIT-2:
Energy and Potential:Energy spent in moving charge, Definition of Potential Difference (PD), PD due to Point Charge and
System of Charge, Energy Density
Current and current density:
Current and Current Density, Continuity of Current, Conductor, Properties, and Boundary
Conditions.
10 Hrs
UNIT-3:
Dielectric and capacitance:
Dielectric materials, boundary conditions, capacitance of different configuration.
Poissons and Laplaces equations:
Derivations of Poissons and Laplaces Equations, solution of Poissons and Laplaces for Single
Variables. 10 Hrs
UNIT-4:
Steady Magnetic Field:- Biot-Savart Law, Amperes circuital law, curl, Magnetic Flux, FluxDensity, Scalar and Vector Magnetic Potentials. 10 Hrs
UNIT-5:
Magnetic forces and Inductance: Force on a moving charge, Force on different current element,
Magnetic Boundary Condition, Inductance and Mutual Inductance.
Time varying fields and Maxwells equations: Faradays Law, Displacement Current, Maxwells
Equations in Point and Integral Form, Uniform plane waves, Wave equations , solution of wave
equation, wave propagation through good dielectric, good conductor, skin depth, Poynting Theorem.
12 Hrs
TEXT BOOK:
1. Engineering Electromagnetics, William J Hayt Jr. and John A Buck, Tata McGraw-Hill,
7th Edition, 2006.
REFERENCE BOOKS:
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2. Electromagnetics with Applications, John Krauss and Daniel A Fleisch, McGraw-Hill, 5th
Edition, 1999.
III SEMESTER ELECTRICAL CLUSTER
ES3GCFMPFundamentals Of Microprocessors (ML only)
UNIT 1
Architecture and Operation: Introduction to 8085, Microprocessor organization/architecture
& its operation, Microprocessor-based system, Memory interfacing, basic interfacing concepts,
Interfacing I/O devices
Programming: Programming model. Instruction classification, Instruction Format, addressing
modes. Writing Assembly level programs - overview of instruction set, timing diagrams. Data
Transfer, Arithmetic, Logic branch operations.. 08 Hours
UNIT 2Programming Techniques - Looping, Counting and Indexing, 16 bit arithmetic operations,
logic operations, Compare and rotate operations. Counters and Time Delays, Generation of pulsewaveforms. Stacks and subroutines - Conditional CALL and RETURN instructions. Advanced
Subroutine concepts. BCD to Binary and Binary to BCD conversions, BCD to 7 segment
conversion. Binary to ASCII and ASCII code conversion, BCD addition and subtraction,
multiplication and division. 08 Hours
UNIT 3
Memory Interface: Memory and I/O mapping and interfacing concepts.
Interrupts: 8085 vectored interrupts, Restart as software instructions, Additional I/O concepts
and processes. 07 Hours
UNIT 4
Interfacing of peripherals (1/Os) and applications: Interfacing Keyboard and 7 segment
display including multiplexers, The 8279 programmable keyboard / display interface. 8255Programmable Peripheral Interface 08 Hours
UNIT 5
8253 interfacing, 8259 Programmable interrupt controller, DMA and 8257 DMA controller,
Serial communication using 8251, D to A converters, A to D converters and interfacing.
08
Hours
Lab experiments- Data transfer instructions,block move block exchange, sorting an array,
addition, subtraction, multiplication, division, counters logic and rotate instructions, conditional
CALL and RETURN instructions, code conversion
TEXT BOOK:
R. S. Gaonkar, "Microprocessor Architecture, Programming and Application with 8085",Penram Int.3rd Edn.
REFERENCE BOOKS:
Douglas V. Hall, "Microprocessors and digital systems", MIL
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Aditya P. Mathur, /'Introduction to microprocessors", 3rd edition, TMH
III SEMESTER ELECTRICAL CLUSTER
ES3GCMST
Measurement Techniques (EE/IT/ML only)
UNIT 1:
Fundamentals of Measurement:
Introduction, Static Characteristics, Dynamic Characteristics, Errors in measurement, Types of
errors, Sources of error.
Electrical Measuring Instruments :
Types of Instruments, Principle of Operation, Constructional features of PMMC instrument, shunts
& multipliers, universal shunt, multi range voltmeters. 07 Hrs
UNIT 2:
Electronic Measuring Instruments:
Need for electronic measuring instruments, True RMS responding voltmeter, Digital voltmeters-Ramp Type, Integrating Type, Successive Approximation Type, Q meter, Digital Multimeter -
Block Diagram description. 08 HrsUNIT 3:
Measurement of Resistance, Inductance & Capacitance:Wheatstones Bridge- Sensitivity analysis, Limitations, Kelvins Double Bridge, Maxwells Bridge,
Schering Bridge, sources & Detectors, Minimization of AC Bridge Errors, Problems. 08 Hrs
UNIT 4 :
Transducers -I:
Classification & Selection, Principle of operation of Thermocouples, Resistance Temperature
Detectors, Thermistors, LVDT, Capacitive Transducers, Piezoelectric Transducers. 08 HrsUNIT 5 :
Transducers -II:
Strain Gauges- Types, Expression for gauge factor, Photosensitive Devices.Display Devices & Recorders : Method of Measuring Amplitude, Phase, Frequency & Period using
CRO. Use of Lissajous Patterns. LCD & LED displays, Strip Chart & X-Y Recorders. Introduction
to Printers. 08 Hrs
TEXT BOOKS:
1. Modern Electronic Instrumentation & Measurement Technique- Albert D.
Helfrick, William D. Cooper, 3/e, Pearson, Prentice Hall .
2. Electronic Instrumentation- H. S. Kalsi, Tata McGraw Hill.
REFERENCE BOOKS:1. A Course in Electrical & Electronic Measurements & Instrumentation- A. K.
Sawhney, 18/e, Dhanpat Rai & Co., New Delhi.
2. Electronic Instrumentation & Measurement- by David A. Bell, 2/e, PHI Publications.
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III SEMESTER ELECTRICAL CLUSTER
ES3GCEIM
Electronic Instrumentation And Measurement (EC/TC only)
UNIT 1:
Introduction and Measurement Errors: Introduction, Instrumentation system , Advantages
of electronic measurement, Errors in measurement, Gross errors and systematic errors, Absoluteand relative errors, Static Characteristics., Introduction to Signal conditioning, Computer based
Data Acquisition, virtual instrumentation 8 hoursUNIT 2:
Voltmeters and Multimeters: Introduction, Deflection instrument fundamentals, DC Ammeter,DC Voltmeter, AC Voltmeter, True RMS Voltmeters, peak response Voltmeter DigitalVoltmeters Introduction, DVMs based on V T, V F and Successive approximation
principles, Digital Multi-meters 8 hours
UNIT 3:
Signal Generators. Low frequency signal generator, Function generator, Pulse generator, RF
Signal generator, sweep frequency generator, frequency synthesizer, arbitrary waveformgenerator. Oscilloscopes. Cathode ray tube, Dual trace oscilloscope, Measurements with CRO,
Digital storage oscilloscope, DSO applications, Spectrum Analyzer
8hours
UNIT 4:
Measurement of resistance, inductance and capacitance
Introduction, Voltmeter and ammeter methods, substitution method, Wheatstone bridge, Low
resistance measurement using kelvins bridge, AC bridges, Capacitance Comparison Bridge,
Maxwells bridge, Digital L, C and R measurements, Q meter 8 hours
UNIT 5:
Transducers
Introduction, Strain gauges, RTD, Thermistor, LVDT, capacitive transducer, Thermocouple,Piezoelectric transducer, Photoelectric transducer, Photovoltaic transducer, Semiconductor photo
devices, IC sensor 7 hours
TEXT BOOKS:
1. Electronic Instrumentation and Measurements, David A Bell, PHI / Pearson Education,
2006.Electronic Instrumentation, H. S. Kalsi, TMH, 2004
REFERENCE BOOKS:
Electronics & Electrical measurements, A K Sawhney, Dhanpat Rai & sons, 9th edition
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IV Semester Electrical Cluster (Common to all branches except CSE / ISE / BT)
MA4ICMAT
Engineering Mathematics - IV
UNIT 1
STATISTICS [11 hours]
Curve fitting Fitting a straight line, fitting of a parabola, fitting of curves of the form
, , x b bx
a b a x ae . Correlation, regression. (4L+1T)
PROBABILITY 1
Probability of an event, axiomatic definition, addition theorem, conditional probability,multiplication theorem, Bayes theorem. (4L+2T)UNIT 2
PROBABILITY 2 [9 hours]Probability distributions: Random variables, Discrete probability distributions, continuous
probability distributions, Some standard distributions: Binomial distribution, Poisson
distribution, exponential distribution, normal distribution. (7L+2T)
UNIT 3
COMPLEX ANALYSIS 1 [10 hours]
Function of a complex variable, Analytic functions, Cauchy-Riemann equations, construction of
analytic functions, Cauchy-Reimann equations in Polar form.
APPLICATION TO FLOW PROBLEMS
Complex potential, velocity potential, equipotential lines, stream functions, stream lines.
Transformations-2
,
z
w z w e= = and ( )
2
0
a
w z zz
= + , Bilinear transformations. (8L+2T)
UNIT 4
COMPLEX ANALYSIS 2
[12 hours]
Complex integration-Cauchys theorem, Cauchys integral formula, Taylors and Laurents
series, Singular points, poles, residues, the residue theorem.
(5L+2T)
SERIES SOLUTION OF DIFFERENTIAL EQUATIONS
Series solution-Frobenius method, series solution of Bessels differential equation leading to
Bessel function of first kind, equations reducible to Bessels differential equation, series solutionof Legendres differential equation leading to Legendre polynomials, Rodrigues formula.
(4L+1T)
UNIT 5
OPTIMIZATION
[10 hours]
Linear programming, mathematical formulation of linear programming problem (LPP), graphicalmethod, simplex method, artificial variable technique- M method, two phase method. (7L+3T)
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TEXT BOOKS:
1. Higher Engineering Mathematics, B.S. Grewal, 40th edition, 2007, Khanna Publishers.
2. Advanced Engineering Mathematics, Erwin Kreyszig, 8th edition, 2007, Wiley-India
Unit
No.
Text Book Chapter
No.
Article Number Page Nos.
I B.S. Grewal 24 24.1, 24.4 to 24.6 886 899
25 25.12 to 25.14 924 932
935 -936
26 26.2 to 26.6 938 - 952
II B.S. Grewal 26 26.7 to 26.10(2), 26.14 to 26.16,26.19(6)
952 - 981
III B.S. Grewal 20 20.1 to 20.7, 20.8(4), 20.9 to 20.10 738 - 760
IV B.S. Grewal 20 20.12 to 20.14, 20.16 (2) to 20.19 762 - 784
16 16.1 to 16.5, 16.8, 16.13 to 16.14 591- 617
V B.S. Grewal 33 33.1 to 33.9(1) 1144
1172
1176-1177
REFERENCE BOOKS:
1. Advanced Modern Engineering Mathematics, Glyn James, 3rd edition, 2004, Pearson
Education.
2. Higher Engineering Mathematics, B.V. Ramana, 2007, Tata Mc. Graw Hill.
3. Advanced Engineering Mathematics, P. V. O Neil, 5th Indian reprint, 2009, Cengage
learning India Pvt. Ltd.
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Question Paper Pattern
1. Each unit consists of one full question.2. Each full question consists of three or four subdivisions.
3. Five full questions to be answered.
4. Internal Choice in Unit 2 and Unit 4
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IV Semester Electrical Cluster
ES4GCLIC
OP AMPS and Linear ICS
UNIT 1:
OPERATIONAL AMPLIFIER FUNDAMENTALS: Operational Amplifier Description,
basic operational Amplifier circuit, input and output voltage, common mode and supply
rejection, offset voltages and currents, input and output impedances, slew rate and Frequencylimitations.
.
OPAMPS AS DC AMPLIFIERS: Biasing operational :Amplifiers, Direct coupled voltage
followers, Direct coupled non-inverting amplifiers, Direct coupled inverting amplifiers, summingamplifiers, Difference amplifiers. 11 Hrs
UNIT 2 :
DIFFERENTIATING AND INTEGRATING CIRCUITS: Differentiating circuit,
Differentiator Design, Differentiating circuit Performance, Integrating Circuit, Integrator Design,
Integrating Circuit performance
SIGNAL PROCESSING CIRCUITS : Precision Half wave and Full wave Rectifiers, Limiting
Circuits, Clamping circuits, peak Detectors, sample and hold circuit 11 Hrs
UNIT 3 :
OP-AMP NON LINEAR CIRCUITS: op-amp and switching circuits, crossing detectors,
inverting and non-inverting Schmitt trigger circuits, Astable and Monostable Multivibrator.
SIGNAL GENERATORS: Triangular/rectangular wave generator , waveform GeneratorDesign, phase shift oscillator, oscillator amplitude stabilization, wien bridge oscillator, Signal
Generator output control. 10 Hrs
UNIT 4 :
ACTIVE FILTERS: All pass phase shifting circuits, 1st order low:pass active filter, 2nd orderlow pass filter, 1st & 2nd order high pass filter
VOLTAGE REGULATORS: Introduction, Series Op-Amp Regulator, IC voltage Regulators,723 General purpose Regulator. 10 Hrs
UNIT 5 :
555 TIMER: Introduction, Description of Functional Diagram, Monostable and Astable
Operation, Schmitt trigger.
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A/D AND D/A CONVERTERS: Introduction, Basic DAC Techniques, A:D Converters,
DAC/ADC Specifications.
10 Hrs
LAB EXPERIMENTS:
Inverting amplifier, non:inverting amplifier, summing amplifier and voltage follower, precision
halfwave and full wave rectifier, limiting circuits, clamping circuits, peak detectors, sample andhold circuits, differentiator and integrator, Schmitt trigger and zero crossing detector, Wien
bridge oscillator, first order low:pass and high pass filter, IC 723 low voltage and high voltage
regulator Simulation experiments using Labview/PSPICE.
TEXT BOOKS:
1. Operational Amplifiers and Linear ICs : David A.Bell, 2nd ed, PHI/Pearson, 2004.
2. Linear Integrated circuits: D.Roy Choudhury and Shail B.Jain,2nd ed, Reprint 2006, New
Age International.
REFERENCE BOOK:
1. Op Amps and Linear Integrated Circuits: Ramakanth A.Gayakwad,4th ed,PHI
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IV SEMESTER ELECTRICAL CLUSTER
ES4GCMPR
8086 Microprocessor (EE/EC/TC/IT)
UNIT 1Introduction, Microprocessor based computer system, Architecture of 8086 Microprocessor, Pin
functions, Clock generator, Minimum /Maximum mode of operation. 8 HrsUNIT 2
Read /Write Timing diagrams, Assembly level programming of 8086, 8086 instruction set,
addressing modes. Assembler directives, Programming examples. 8 HrsUNIT 3
Stacks, Procedures and Interrupts. Interfacing 8086 with Memory devices. 8 Hrs
UNIT 4
Interfacing 8086 with I/O devices. 8255 PPI device, modes of operation. Interfacing. Keyboard,
display, ADC, DAC, Stepper motor and Printer interfacing using 8255. 8 Hrs
UNIT 5Programmable Interval Timer modes of operation of 8253 and interfacing. 8087 Numeric data
processor and interfacing, 8087 Data types. 7 Hrs
LAB Experiments
Data and address transfer operations, unsigned and signed arithmetic operations using
instructions for add/sub/mul/div, logical operations, linear search and sorting, code conversionprograms using procedures, interfacing I/O devices like DSC, stepper motors, Keyboard, 7
segment display to 8086 using 8255 PPI, realization of ALU, Counters and multiplexer using
8086
TEXTBOOKS:1. Advanced Microprocessor and Peripherals- A.K.Ray and K.M. Bhurchandi, Tata
McGraw Hill.
1. Microcomputer systems 8086/8088 family, Architecture, Programming and
Design - Yu-Cheng Liu & Glenn A Gibson, 2nd ed, July 2003, PHI
REFERENCE BOOKS:
1. Microprocessor and Interfacing, Programming & Hardware- Douglas V Hall,
2nd ed, TMH
2. Microprocessor Architecture, Programming and Applications with the 8085-
Ramesh S Gaonkar, 4th ed, Penram International.
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IV SEMESTER ELECTRICAL CLUSTER
ES4GCMCL
Microcontrollers (ML only)
UNIT 1
INTRODUCTION TO MICROCONTROLLERS:Microprocessors and microcontroller. Introduction,Difference between Microprocessors and
Microcontrollers, A. RISC & CISC CPU Architectures, Harvard & Von-Neumann CPU
architecture. Embedded Electronic Systems and Microcontrollers, comparison of Differentmicrocontrollers and applications.
The 8051 Architecture: Introduction, 8051 Microcontroller Hardware, Input / Output Pins,
Ports and Circuits, External Memory. 8 Hrs
UNIT 2
ASSEMBLY LANGUAGE PROGRAMMING IN 8051
Addressing Modes and Instruction set: Introduction, Addressing modes, Data transfer
instructions, Example Problems, Arithmetic instructions, Logical instructions, Example
Problems, JUMP and CALL Program range, Jumps, calls and Subroutines, Returns, ExampleProblems . 8 HrsUNIT 3
EMBEDDED C PROGRAMMING :
8051 programming in C: Data types and time delays in 8051 C, I/O programming, logic
operations, data conversion programs, accessing code ROM space, data serialization.
Timer / Counter Programming in 8051: Counters and timers programming 8051 Timers,Counter Programming, programming timers 0 and 1 in 8051 C. 8hrsUNIT 4
8051 Serial Communication: Basics of Serial Communication- Serial data input/output, 8051connections to RS-232, 8051 Serial communication Programming,
Interrupts Programming:, 8051 Interrupts, Programming Timer Interrupts, Programming
External Hardware Interrupts, Programming the Serial Communication Interrupts, Interruptprogramming in C. 8 hrs
UNIT 5
8051 INTERFACING AND APPLICATIONS:
Interfacing 8051 to LCD, Keyboard, DAC, ADC, Stepper motor, DC motor interfacing and
PWM. 07 Hrs
LABORATORY EXPERIMENTS:
A. Data Transfer , Logical-Byte/Bit manipulations ,Jump and Subroutine Calls using Assembly.
B. Interfacing: Counters and generate delay using timers, LCD Display, Stepper motor controlusing interrupt, Serial transmission/Receiving of Number of characters using serial interrupt ,
Temperature Controller interface, Elevator interface and & segment interface.
The Experiments will be implemented using Keil software with Embedded IDE. For
interfacing 8051 target board is used.
TEXT BOOKS:
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1. The 8051 Microcontroller Architecture, Programming & Applications, Kenneth J.
Ayala 2e, Penram International, 1996 / Thomson Learning 2005
2.The 8051 Microcontroller and Embedded Systems using assembly and C,
Muhammad Ali Mazidi and Janice Gillespie Mazidi and Rollin D. McKinlay; PHI, 2006 /
Pearson, 2006
REFERENCE BOOKS:
1.Programming and Customizing the 8051 Microcontroller, Predko, TMH
2.Microcontrollers: Architecture, Programming, Interfacing and System Design, RajKamal, Pearson Education, 2005
3. PIC Microcontrollers, J.B. Peatman, PHI, 2006
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IV SEMESTER ELECTRICAL CLUSTER
ES4GCSAS
Signals And Systems (EE/EC/IT/ML)
UNIT 1:INTRODUCTION: Definitions of a signal and a system, classification of signals, basicOperations on signals, elementary signals, Systems viewed as Interconnections of operations,
properties of systems. 10 Hrs
UNIT 2:
TIME-DOMAIN REPRESENTATIONS FOR LTI SYSTEMS: Convolution, impulse
response representation, Convolution Sum and Convolution Integral. Properties of impulseresponse representation, Differential and difference equation Representations, Block diagram
representations. 12 Hrs
UNIT 3:
FOURIER REPRESENTATION FOR SIGNALS - 1 : Introduction, Discrete time andcontinuous time Fourier series (derivation of series excluded) and their properties .
FOURIER REPRESENTATION FOR SIGNALS 2: Discrete and continuous Fouriertransforms(derivations of transforms are excluded) and their properties. 12 Hrs
UNIT 4:
APPLICATIONS OF FOURIER REPRESENTATIONS: Introduction, Frequency response
of LTI systems, Fourier transform representation of periodic signals, Fourier transform
representation of discrete time signals. 8Hrs
UNIT 5:
Z-TRANSFORMS 1: Introduction, Z transform, properties of ROC, properties of Z
transforms,inversion of Ztransforms.
Z-TRANSFORMS 2: Transform analysis of LTI Systems, unilateral Z- Transform and itsapplication to solve difference equations. 10 Hrs
TEXT BOOK:
Simon Haykin and Barry Van Veen Signals and Systems, John Wiley & Sons, 2001.Reprint
2002
REFERENCE BOOKS:
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1. Alan V Oppenheim, Alan S, Willsky and A Hamid Nawab, Signals and Systems PearsonEducation Asia / PHI, 2nd edition, 1997. Indian Reprint 2002
2. H. P Hsu, R. Ranjan, Signals and Systems, Schams outlines, TMH, 2006
3. B. P. Lathi, Linear Systems and Signals, Oxford University Press, 2005
4. Ganesh Rao and Satish Tunga, Signals and Systems, Sanguine Technical Publishers, 2004
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IV SEMESTER ELECTRICAL CLUSTER
ES4GCASP
Analog Signal Processing
UNIT 1
INTRODUCTION
Signal definition; signal classification; signal transformation: independent, dependent variable;elementary signals; transformation of elementary signals. System definition; system
classification; the Linear Time Invariant (LTI) system; properties of the LTI system.
11
hours
UNIT 2
TIME-DOMAIN REPRESENTATION & ANALYSIS OF LTI SYSTEMS Impulse
response; the convolution integral; methods of evaluating the convolution integral; Properties ofimpulse response. The constant coefficient differential equation; Block diagram representation;
State-variable description. 11 hours
UNIT 3
FREQEUNCY-DOMAIN REPRESENTATION OF CONTINUOUS TIME SIGNALSFourier transform of continuous time non-periodic signals; the frequency response; properties of
Fourier transform. Fourier series of continuous time periodic signals; the spectrum of theperiodic signal, Fourier transform of the periodic signal. 10 hours
UNIT 4
REPRESENTATION OF LTI SYSTEMS
Time domain representation: impulse response; differential equation; block diagram; state-spacedescription.
Transform domain representation: Laplace transform; pole-zero plot.
Frequency domain representation: frequency response;Relating all above representations; to obtain different representations for a given passive (R-L-C)
circuit.
Practical measurement of impulse response, step response, frequency response. To test a blackbox for LTI. 10 hours
UNIT 5
ANALOG SYSTEMS
Condition for Distortion-less transmission; definition of equalizer.
Ideal filters characteristics;
Design of practical passive filters: LP, HP, BP, BE, Notch
Design of LP Butterworth & Chebychev filters. Frequency transformation for LP to HP, BP, BP,BE.
Op-AMP realization of a given filter. 10 hours
Text Book:
1. Signals & Systems, Simon Haykin and Barry Van Veen, John Wily and Sons
Reference Books:
1. Signals & Systems, Allan V Oppenheim, Alan S Willsky, and A Hamid Nawab,
Pearson Education Asia/ PHI
2. Signals and Systems, Schaums Outline series3. Linear systems and signals, B P Lathi, Oxford University Press
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IV SEMESTER ELECTRICAL CLUSTER
ES4GCCST
Control Systems
UNIT-1
INTRODUCTION: Examples of Control Systems, open loop vs Closed loop Systems,
Classifications of Control Systems.Mathematical Modeling of Linear Systems: Transfer functions, Mechanical Systems, Analogous
Systems, Block diagram, Signal Flow graph (excluding gear trains lever) 12 HrsUNIT-2
TIME RESPONSE ANALYSIS OF CONTROL SYSTEMS : Step response of first order,second order systems, response specification , steady state error and error constants 10 Hrs
UNIT-3STABILITY ANALYSIS: Concept of stability, RH criterion, applications of RH criterion with
limitations, Nyquist plot, Polar plots, Stability Analysis using Nyquist criterion 10 Hrs
UNIT-4
ROOT LOCUS TECHNIQUE: Introduction to root locus concepts, Construction rules, Analysis of
stability by root locus plot 10 Hrs
UNIT-5
FREQUENCY RESPONSE ANALYSIS: Bode plots, Relative stability, Frequency domain
specification. 10 Hrs
TEXT BOOKS:
1. Control Engineering by Nagrath & Gopal, New Age International Publishers
REFERENCES:
1. Modern control Engineering- Ogata, Prentice Hall
2. Automatic Control Systems- B.C Kuo, John Wiley and Sons
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IV SEMESTER ELECTRICAL CLUSTER
ES4GCHDL
Fundamentals of HDL
UNIT-1
INTRODUCTION:
Why HDL? , A Brief History of HDL, Structure of HDL Module, Operators, Data types, Types ofDescriptions, simulation and synthesis, Brief comparison of VHDL and Verilog. 7 Hrs
UNIT-2
DATA-FLOW DESCRIPTIONS:
Highlights of Data-Flow Descriptions, Structure of Data-Flow Description, Data Type Vectors.
Behavioral Descriptions: Behavioral Description highlights, structure of HDL behavioral
Description, The VHDL variable Assignment Statement, sequential statements. 8 Hrs
UNIT-3
STRUCTURAL DESCRIPTIONS:
Highlights of structural Description, Organization of the structural Descriptions, Binding, state
Machines, Generate, Generic, and Parameter statements. 8 Hrs
UNIT-4PROCEDURES AND FUNCTIONS: Procedures, Tasks, and Functions: Highlights of Procedures,
tasks, and Functions, Procedures and tasks, Functions. Advanced HDL Descriptions: FileProcessing, Examples of File Processing. 8 Hrs
UNIT-5
SYNTHESIS BASICS: Highlights of Synthesis, Synthesis information from Entity and Module,
Mapping Process and Always in the Hardware Domain. 8 Hrs
LAB Experiments
Verification of combinational logic circuits, sequential circuits using data flow and sequential
descriptions & structural descriptions. Interfacing experiments : stepper motor, dc motor, relay,
waveform generation.
TEXT BOOKS:
1. HDL Programming (VHDL and Verilog)- Nazeih M.Botros- Dreamtech Press(Available through John Wiley India and Thomson Learning), 2006 Edition
REFERENCE BOOKS:
1. Verilog HDL -Samir Palnitkar, Pearson Education
2. VHDL -Douglas Perry,TMH3. Fundamentals of Digital Logic with Verilog Design-Stephen Brown, TMH
4. Circuit Design with VHDL-Volnei A.Pedroni, PHI
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