Syllabus for EIE Students Admitted From 2007 Onwards

SCHEME OF STUDY & SYLLABI FOR B.TECH

ELECTRONICS & INSTRUMENTATION ENGINEERING STUDENTS

ADMITTED FROM 2007 ONWARDS

ELECTRONICS & INSTRUMENTATION ENGINEERING

SCHOOL OF ELECTRICAL & ELECTRONICS ENGINEERING

SHANMUGHA ARTS, SCIENCE, TECHNOLOGY & RESEARCH ACADEMY

(SASTRA UNIVERSITY)

III Semester

Course Code

Name of the Course

Periods/Week

No. of

Credits L T P

Core Subjects – 26 Credits

BEICMA 301 R01/

MICCEI 301

Complex Analysis & Transform

Techniques

4 1 0 5

BEICEI 302 R01/

MICCEI 302 R01

Electronic Circuits – I 3 1 0 4

BEICEI 303 R01/

MICCEI 303

Sensors & Transducers 4 0 0 4

BEICEI 304 R01/

MICCEI/ 304

Digital Electronics 3 1 0 4

BEICEI 305 R01/

MICCEI/ 305

Circuit Analysis & Synthesis 3 1 0 4

BEICEI 306 R01/

MICCEI/ 306

Electrical & Electronic

Measurements

5 0 0 5

Laboratories – 4 Credits

BEICEI 307 R01/

MICCEI 307

Electronic Devices & Digital Lab 0 0 3 2

BEICEI 308 R01/

MICCEI 308

Electrical & Electronic

Measurements Lab

0 0 3 2

BEICTP 309 R01/

MICCEI 309

HR Skills – I 1 0 0 1

Total 23 4 6 31

BEICMA 301 R01 / MICCEI 301 R 01COMPLEX ANALYSIS &

TRANSFORM TECHNIQUES Credits: 5

No. of contact periods: 75

UNIT I: 20 PERIODS COMPLEX VARIABLES: Analytic functions – necessary and sufficient conditions for

f(z) to be analytic – C-R equation in polar coordinates – Harmonic functions –

Orthogonal system – Construction of an analytic function given real or imaginary parts .

Bilinear transformation – Conformal mapping – Sine z, Cos z, ez and

z

1only.

UNIT II: 15 PERIODS

COMPLEX INTEGRATION: Cauchy’s integral theorem, Integral formula – Taylor’s

and Laurent’s series (without proof) – Singularities-residues – calculus of residues –

residue theorem - evaluation of definite integrals of the type θθθ

π

dfo

∫2

)cos,(sin and

∫∞

+o ax

mxdx

22

cos

UNIT III: 20 PERIODS LAPLACE TRANSFORMS: Definition – Transform of standard functions – properties

– Transforms of derivates and integrals – Transforms of the type tn f(t) and f(t)/t – inverse

Laplace transforms – convolution theorem – Transforms of periodic function, unit step

function and unit impulse function – Application to ordinary differential equations with

constant coefficients and integral equations – simultaneous linear equations with constant

coefficients.

UNIT IV: 20 PERIODS

FOURIER SERIES & FOURIER TRANSFORM: Euler’s formula – Diriichlet’s

conditions – convergence statement only – change of interval – odd and even functions.

Half Fourier series – harmonic analysis. The infinite Fourier Transform – sine and cosine

transforms – properties – inversion theorem – finite Fourier transform – sine and cosine

transform – convolution theorem. Solving PDE using Finite Fourier transform -

Introduction to wavelet transforms.

Reference Books:

1. Dr.M.K.Venkatraman - Engineering Mathematics, National Publishing Co., 1985,

9th

edition.

2. Dr.P.Kandasamy et al. - Engineering Mathematics, Vol III, S.Chand & Co, New

Delhi 1990/ 2nd

edition.

3. P.P.Gupta – Integral Transform, Kedarnath & Ramnath Publishers, Meerut, 1989.

4. Erwin Kreyszig - Advanced Engineering Mathematics, Wiley Eastern Ltd., 1990,

5th

edition.

5. B.S.Grewal - Higher Engineering Mathematics, Khanna Publishers 1989.

BEICEI 302 R01/ MICCEI 302 ELECTRONIC CIRCUITS – I

Credits: 4


UNIT I: 15 PERIODS

LINEAR POWER SUPPLY: Half wave rectifier, full wave rectifier, bridge rectifier.

Various filters: L, C, LC, CLC filter (determination of ripple factor, efficiency).

Regulators: Zener regulator, transistor regulator. Switched mode power supplies,

uninterrupted power supply, short circuit protection circuit analysis.

UNIT II: 15 PERIODS

DC ANALYSIS AND AC ANALYSIS: DC analysis of a NPN and PNP transistor and

FET (discuss on Q point, load line, compensation and thermal stability).

Small signal model: AC analysis for transistor (BJT & FET)-ac load line (input

resistance, output resistance, current gain, voltage gain, and power gain).

UNIT III: 15 PERIODS

HIGH FREQUENCY MODEL: High frequency model for BJT & FET, Miller

theorem. Design: Transistor as a switch, transistor as a current amplifier, transistor as a

voltage amplifier, FET as a voltage variable resistor, FET as an amplifier.

UNIT IV: 15 PERIODS

CASCADE AMPLIFIER AND POWER AMPLIFIER: Direct coupled amplifier,

capacitive coupled amplifier, transformer coupled amplifier (design analysis). Frequency

& time response analysis of an amplifier.

Power amplifier: Class A, class B, class C (analysis of power, efficiency), Darlington

amplifier.

Reference books:

1. Adel S.Sedra and Kenneth C.Smith, Microelectronics, 2nd

edition. Oxford

university press

2. Robert L Boylestad and Louis Nashelsky, Electronic Devices and Circuit Theory,

8th

Edition, Prentice Hall of India Pvt. Ltd.

3. S.Salivahanan, N.Suresh Kumar, and A.Vallavaraj, Electronic Devices and

Circuits, Tata McGraw Hill Publishing Co. Ltd.

4. Jacob Millman and C.C.Halkias, Electronic Devices and Circuits, McGraw Hill,

1972.

BEICEI 303 R01/ MICCEI 303 SENSORS AND TRANSDUCERS Credits: 4


UNIT I 15 PERIODS

INTRODUCTION TO SENSORS AND TRANSDUCERS – Primary and Secondary;

Active and Passive Sensors – Classification, Characterization: - Electrical, Mechanical,

thermal, optical, chemical and biological.

STATIC & DYNAMIC CHARACTERISTICS – Accuracy, Precision, Sensitivity,

Linearity, Resolution, Hysterisis, Threshold, Input impedance and Loading. I order & II

order system response.

UNIT II 15 PERIODS

RESISTIVE SENSORS: Resistive potentiometers – loading effect, Strain gauge Sensor

– theory – Gauge factor. RTD, Thermistors, Hot wire anemometers (both constant current

and temperature) – Humidity and Dew Point Sensor.

INDUCTIVE SENSORS: LVDT: Construction, Signal Conditioning Circuit,

applications – Magnetostrictive or electromagnetic Sensors.

CAPACITIVE SENSORS: Variable area, gap and dielectric type – Signal Conditioning

– Capacitor Microphone – Frequency response

UNIT III 15 PERIODS

THERMAL SENSOR:, Gas thermometer Thermal expansion, Thermoemf Sensor –

Thermocouple: Construction, Cold junction Compensation;

PIEZOELECTRIC SENSORS: Piezoelectric Crystal – Piezoelectric accelerometer -

Charge Amplifier – measuring circuit.

MAGNETIC SENSORS: Force and displacement sensors (Pressductor); Hall effect

Sensors; Variable reluctance Pickup Sensor; Eddy current Sensor – Drag cup type.

UNIT IV 15 PERIODS

RADIATION SENSORS: Introduction, Photoconductive, resistive and voltaic Sensors,

SMART SENSORS – Smart Transmitter – Standards and automation – Intelligent

Sensors.

RECENT TRENDS IN SENSOR TECHNOLOGY: MEMS (Micro electro

Mechanical Sensors) – Micro Machining – applications. Nano sensors– Microstructure –

Voltage vs Current Characteristics – Single walled Carbon Nanotube.

Reference Books:

1. D. Patranabis – Sensors and Transducers, Tata McGraw Hill, 2 ed

2. D. Patranabis – Principles of Measurements systems, Tata McGraw Hill 2 ed,

1997

3. E.D. Doeblin – Measurements systems – Application and design, McGraw Hill,

1990

4. S K Singh – Industrial Instrumentation and Control, 2nd

edition

5. D.M Considine – Process Instrumentation and Control HAND BOOK, McGraw

Hill

BEICEI 304 R01/ MICCEI 304 DIGITAL ELECTRONICS

Credits: 4


UNIT I: 15 PERIODS

COMBINATIONAL LOGIC –Introduction to number systems-binary logic level

reduction methods-minterms-tables and maps- incompletely specified functions, multiple

output minimizations - implementation of simple Boolean expressions using universal

gates - expandable gates and expanders-tristate buffer.

UNIT II: 15 PERIODS

DIGITAL INTEGRATED CIRCUITS: Decoders - encoders - multiplexers -

implementation of Boolean functions with multiplexers-decoders and encoders with

multiplexers-combinational circuits-parallel and serial-adders-subtractor circuits(1's and

2's complement) - multiplier circuits.

FILP-FLOPS: RS, JK, T & D filpflops. Master-slave flipflops. Edge triggering, Level

triggering. Switch debouncing. (Timing diagrams)


DIGITAL COUNTER & SEQUENCIAL LOGIC CIRCUITS: Ripple counter design-

type T counter design-type D counter design-type JK counter design-cycle counters –

Johnson counter - shift registers - pulse train generators-shift counters - timing circuits -

asynchronous sequential circuits-design using state equations – logic latches

UNIT IV: 15 PERIODS

Logic arrays. ASM design of digital systems for traffic, alarm, electronic lift, staircase &

network switching. CMOS memories - Programming of digital logic into FPGA.

Reference Books:

1. W.H.Gothmann, Digital Electronics, II Edition Prentice Hall of India, 1990

2. Jacob Millman and Arvin Grabel, Microelectronics, McGraw-Hill, 1987.

3. S.C.Lee, Digital Circuits and Logic Design, Prentice Hall of India, 1984

4. Morris Mano, Digital Design, Prentice Hall of India., 1996, 2nd

edition.

5. Paul Horowitz and Winfield Hill, The Art of Electronics, Cambridge Low price

Edition, 1997.

BEICEI 305 R01// MICCEI 305 CIRCUITS ANALYSIS &

SYNTHESIS

Credits: 4


UNIT I: 15 PERIODS

NETWORK THEOREMS: Thevenin’s theorem – Norton’s theorem – Superposition

theorem – reciprocity theorem – Substitution theorem – compensation theorem –

Maximum Power transfer theorem –Millman’s theorem – Tellegen’s theorem – DC and

AC circuits.

UNIT II: 15 PERIODS

AC AND DC TRANSIENTS: RL transient: Decay of current in RL circuit – RC

transient: Decay of current in RC circuits – RLC transient: Over damped, critically

damped and under damped – Natural frequency – damping ratio.


RESONANCE &COUPLED CIRCUITS: Resonance in series and parallel circuits – Q

factor – bandwidth of a resonant circuit – locus diagram – principle of quality factor.

Self inductance – Mutual inductance – analysis of coupled circuits – dot rule – coupled

circuits in series and parallel – co-efficient of coupling – single and double tuned circuits

– frequency response of tuned coupled circuits.

UNIT IV: 15 PERIODS

NETWORKS ANALYSIS AND SYNTHESIS: Network functions – poles and zeros –

complex frequency – Hurwitz polynomial – positive real functions – properties of

transfer function – transfer admittance – transfer impedance – two port parameters: z, y, h

and ABCD parameters – scaling network functions – basic synthesis procedure of driving

point functions – synthesis of LC, RC & RL driving point functions – Foster and Cauer

forms.

Reference Books:

1. K.Nagappan and K.R.Mohan Ram – Electric circuit theory, 1987.

2. M.E.Van Valkenburg – Network analysis, 3rd

edition, Prentice Hall of India,

1976.

3. 03.W.H.Hayt and J.E.Kemmerley – Engineering Circuits, Mcmillan & McGraw

Hill 1992.

4. Theodore F.Bogart – Electric Circuits, Macmillan & McGraw Hill 1992.

5. Joseph Edminster – Electric Circuits, Schaum’s outline series, 1985.

6. M.L.Soni and J.C.Gupta – Electrical circuit analysis, Dhanpat Rai and sons, 1981.

BEICEI 306 R01// MICCEI 306 ELECTRICAL & ELECTRONIC

MEASUREMENTS

Credits: 5


UNIT I: 20 PERIODS

CHARACTERISTICS OF A MEASUREMENT SYSTEM: Generalized scheme of a

measurement system – block diagram – errors in measurement system – types – statistical

analysis of measurement system - mean – standard deviation - variance, probability of

errors – reliability – failure rate - factors affecting reliability – reliability improvement.

ELECTRICAL MEASUREMENTS:D-Arsonval galvanometer – principle, operation

and constructional details of moving coil, moving iron. Power measurement –

electrodynamic wattmeter – errors and compensation –Hall Effect wattmeter – Induction

type wattmeter – compensated wattmeter – single phase and 3-phase power

measurements. Energy measurement- induction type energy meter- calibration of

wattmeters and energy meters.

UNIT II: 20 PERIODS AMMETER & VOLTMETER: DC ammeter – multi range ammeter – the Aryton

shunt or universal shunt – extension of ammeter range – RF meter – measurement of very

large current by thermocouples - a.c. current measurement.

DC Voltmeter – multi range voltmeter – extension of voltmeter – transistor voltmeter –

chopper type voltmeter – solid state voltmeter – AC voltmeter using rectifiers –

multirange AC voltmeter – average responding voltmeter – peak responding voltmeter –

true rms voltmeter – ohm meter – shunt type – multimeter – calibration of DC meter.


BRIDGES AND DIGITAL INSTRUMENTS : Series and shunt type ohmmeter –

Wheatstone’s bridge – Kelvin bridge – megger – AC bridges – Maxwell’s bridge – Wein

bridge – Anderson’s bridge – Hay bridge – Schering bridge.

Voltmeter: Ramp technique – dual slope integrating type DVM (voltage to time) –

integrating type DVM (voltage to frequency) – successive approximation type DVM –

potentiometer type DVM – digital panel meter – specification of DVM – microprocessor

based DVM. Digital frequency meter – universal counter – decade counter – electronic

counter – digital measurement of time – digital tacho meter – digital pH meter – digital

phase meter – digital capacitance meter – digital Q meter.

UNIT IV: 15 PERIODS

DISPLAY DEVICES & SIGNAL GENERATORS & WAVE ANALYZERS:

Cathode Ray Oscilloscopes: block diagram of general purpose oscilloscope - functions of

each block - sampling oscilloscope – storage oscilloscope – digital read out oscilloscope

– application of CRO: measurement of frequency and phase using Lissajous method –

checking of diodes – measurement of capacitance and inductance – probes for CRO.

Standard signal generator – random noise generator –– Wobbluscope – beat frequency

oscillator – Vectroscope – basic wave analyzer– harmonic distortion analyzer – spectrum

analyzer – digital fourier analyzer.

Reference books:

1. A.K.Sawhney - A course in electrical and electronic measurements and

Instruments, Dhanpat Rai & sons, 17th

edition, 2000.

2. W.D.Cooper and A.D.Helfrick - Electronic Instrumentation and measurement

techniques, third edition, Prentice Hall of India, 1991.

3. H.S. Kalsi - Electronic instrumentation, Tata McGraw-Hill Publishing Company

Limited

4. Golding & Widdies - Electrical measurements and measuring instruments, 5th

edition, Wheelers student edition.

5. F.K.Harris - Electrical measurements, Wiley eastern Pvt., Ltd., 1974.

6. M.B.Stout - Basic electrical measurements, Prentice Hall of India, 1981.

BEICEI 307 R01/ / MICCEI 307 ELECTRONIC DEVICES &

DIGITAL LAB (Credits: 2)

01. Characteristics of PN junction & zener diode.

02. Design of rectifiers with filters & analyze the ripple factor.

03. Characteristics of CE & CC configuration of the given transistor and analyze the

hybrid parameters.

04. Analysis of DC & AC parameters of the given transistor for biasing.

05. Characteristics of JFET & UJT with its parameters.

06. Verification of various flip-flops using gates. Half adder, full adder, half

subtractor & full subtractor

07. Modulo-N Counter

08. Asynchronous sequential circuit using state equations

09. Shift registers using the conventional IC

10. Decoder & encoders

11. Multiplexer for the given Boolean expression.

12. ASM design of digital system for lift & traffic control

BEICEI 308 R01/ / MICCEI 308 ELECTRICAL & ELECTRONIC

MEASUREMENTS LAB

(Credits: 2)

1. Measurement of resistance using Wheatstone bridge & Kelvin’s double bridge.

2. a) Measurement of capacitance using Schering Bridge

b)Measurement of frequency using Wein bridge

3. Measurement of inductance using Maxwell’s bridge & Anderson’s bridge.

4. Extension of range of ammeter and voltmeter.

5. Calibration of wattmeter using phantom loading.

6. Calibration and testing of energy meter.

7. Design of multi range voltmeter.

8. Design of multi range ammeter

9. Analyze the transient response of an RLC circuit on a spectrum analyzer.

10. Measurement of impedance for a given circuit.

11. Calibration of RTD & thermistor.

12. Measurement of amplitude & phase difference using Lissaujous pattern on CRO.

BEICTP 309 R01/ MICCTP 309 HR Skills -I

1 SWOT Analysis and Presentation (Individual exercise)

2 Listening Skill Exercise (Audio - visual presentation)

3 Team Skills - Product Launching

4 Aptitude Test I

5 Leadership Exercise (Problem solving exercise)

6 Etiquettes - Discussion & Reporting

7 Person I admire - Oral presentation

8 Emotional intelligence - Written Exercise

IV Semester

Course Code

Name of the Course

Periods/Week

No. of

Credits L T P


BEICMA 401 R01 /

MICCMA 401

Linear Algebra, Partial Differential

Equations & Their applications

4 1 0 5

BEICEI 402 R01

/MICCEI 402

Electronic Circuits – II 4 0 0 4

BEICEI 403 R01 /

MICCEI 403

Linear ICs & Applications 4 0 0 4

BEICEI 404 R01 /

MICCEI 404

Signals & Systems 3 1 0 4

BEICEI 405 R01 /

MICCEI 405

Electrical Machines 4 0 0 4

Department Electives (Choose 1 out of 2) – 4 Credits

BEIDEI 401 R01 /

MICCEI 401

Process Engineering 4 0 0 4

BEIDEI 402 /

MICCEI 402

Electromagnetic Fields 4 0 0 4


BEICEI 406 R01 /

MICCEI 406

Electronic Circuits Lab 0 0 3 2

BEICEI 407 R01 /

MICCEI 407

Linear Integrated Circuits Lab 0 0 3 2

BEICTP 408 R01 /

MICCTP 408

HR Skills – II 1 0 0 1

Total

24 2 6 30

BEICMA 401 R01/MICCEI 401 LINEAR ALGEBRA, PARTIAL

DIFFERENTIAL EQUATIONS & THEIR APPLICATIONS Credits: 5


UNIT I: 20 PERIODS

PARTIAL DIFFERENTIAL EQUATION: Formation of equation of arbitrary

constants and arbitrary functions – solution of equations – general, particular and

complete integrals – standard type of first order equations – Lagrange’s linear equation –

second order and higher order equations with constant coefficients, homogeneous and

non homogeneous equations.

UNIT II: 20 PERIODS

ONE DIMENSIONAL WAVE EQUATION AND HEAT EQUATION: Derivation of

one dimensional wave equation – transverse vibration of finite elastic string with fixed

ends – boundary and initial value problems – Fourier series solution. Derivation of one

dimensional heat equation – steady and unsteady states – boundary and initial value

problems.


TWO DIMENSIONAL HEAT EQUATION: Two dimensional heat equation – steady

state heat flow in two dimensions – Laplace in Cartesian and polar (including annulus)

Fourier series solution.

UNIT IV: 20 PERIODS

LINEAR ALGEBRA –Norms of matrices – Basis vectors – Linear dependence and

independence of vectors – Tri diagonal matrices – Canonical forms – Defective matrices

– Pseudo inverse – Singular value decomposition – QR algorithm – Least square

approximation.

Reference Books :

1. Dr.P.Kandasamy et.al – Engineering Mathematics, Vol III, S.Chand & Co., New

Delhi, 1990.

2. S.S.Sastry - Numerical analysis Prentice Hall of India, 2005.

3. Erwin Kreyzig – Advanced Engineering Mathematics, Wiley Eastern, 2003.

BEICEI 402 R01/ MICCEI 402 ELECTRONIC CIRCUITS- II

Credits: 4


UNIT I: 15 PERIODS

DIFFERENTIAL AND TUNED AMPLIFIERS: Dual input, balanced output

differential amplifier-inverting and non-inverting modes-CMRR-constant current bias

circuits, current mirror circuits-FET differential amplifiers. Single tuned amplifiers-

double and stagger tuned amplifiers-effect of cascading on bandwidth.

UNIT II: 15 PERIODS

FEEDBACK AMPLIFIERS AND OSCILLATORS: General theory of feedback-types

–negative and positive feedback-negative feedback in transistor circuits-requirements for

oscillations-classification of oscillators-LC, RC oscillators-Hartley, Colpitts, Wein bridge

RC phase shift and Crystal oscillators, Clapp oscillator-oscillator design for specific

frequencies.


MULTIVIBRATORS AND WAVESHAPING CIRCUITS: Relaxation oscillator-

astable, monostable and bi-stable multivibrators- schmitt trigger-tunnel diode oscillator-

UJT relaxation oscillator. Step, ramp and exponential voltages-linear wave shaping

circuits: Differentiating and integrating circuits. Applications: Narrow pulse from square

wave-voltage step from a ramp-generation of a triangular wave from a square wave-saw

tooth to rectangular wave conversion.

UNIT IV: 15 PERIODS

DIGITAL INTEGRATOR CIRUITS: Special characteristics- fan in, fan out,

propagation delay, noise margin, RTL and DTL circuits-TTL Logic-open collector output

gate-totem pole output-ECL Logic-CMOS logic circuits-comparison of logic families.

Reference Books:

1. Jacob Millman and C.C.Halkias, Integrated Electronics, McGraw Hill,1972.

2. Allen Mottershead, Electronic Devices and Circuits, Prentice Hall of India Pvt.,

Ltd., 1993

3. R. S. Sedha, A Text book of Applied Electronics, S. Chand Co., Ltd., 1987.

4. Jacob Millman and Herbert Taub, Digital and Switching Waveforms, TMH

Edition, 1997.

BEICEI 403 R01/ MICCEI 403 LINEAR ICs & APPLICATIONS Credits: 4


UNIT I. 15 PERIODS

OP AMP CHARACTERISTICS & APPLICATIONS

Ideal Op amp-internal diagram, Current mirror circuit- DC characteristics, AC

characteristics, frequency compensation. OP AMP APPLICATIONS: Scale changer-

inverter and non inverter-summer and subtractor-multiplier and divider-differentiator and

integrator. V to I and I to V converters-precision rectifiers-clipper and clamper circuits-

sample and hold circuits-log and antilog amplifiers- electronic analog computation-

monolithic power amplifiers- programmable Transconductance amplifier-

instrumentation amplifier-ac amplifier.

UNIT II. 15 PERIODS

COMPARATORS, SIGNAL GENERATORS &VOLTAGE REGULATORS

Comparator-applications of comparators - Schmitt trigger - astable multivibrator-

monostable multivibrator - triangular wave generators, sine wave generator-RC phase

shift, Wein bridge oscillator

Fixed series voltage regulator, IC 723 general purpose regulator- current limit protection-

current fold back-current boosting.

UNIT III 15 PERIODS

ACTIVE FILTERS & PLL

First order and second order low pass-high pass-band pass- band reject and notch filters-

state variable filter-switched capacitor filters.

Basic principles-block diagram-analog and digital phase detector-Voltage Controlled

oscillator-low pass filter-monolithic PLL- applications of PLL. Sample & hold circuit

analysis with applications.

UNIT IV 15 PERIODS

TIMERS, ADC & DAC

555 timer-block diagram - monostable operation- astable operation- Applications:

modulation- demodulation- Schmitt trigger-counters & timers.

ADC: Flash type, Successive approximation type, Dual slope & Tracking type. DAC: R-

2R binary weighted ladder & inverted R-2R. Details on Quantization error, resolution &

Conversion speed.

Reference Books:

1. G.Coughlin and Driscol, Operational amplifiers and Linear Integrated Circuits

Prentice Hall of India P.Ltd, 1992.

2. D. J Dailey, Operational Amplifiers and Linear Integrated Circuits, McGraw Hill,

1989.

3. R.A.Gaekwad, Op amp &Linear Integrated Circuits, Prentice Hall of India Pvt. Ltd,

2000.

4. Millman and Halkias, Integrated electronics, McGraw Hill, 1991.

5. Roy Choudhury and Shail Jain: Linear Integrated Circuits, Wiley Eastern Ltd 1991.

BEICEI 404 R01 / MICCEI 404 SIGNALS & SYSTEMS

Credits: 4


UNIT I 15 PERIODS

Basics of signal and systems: Sinusoids – exponential sinusoid – energy – power- signal

operations – classification of signals – test signals: unit step, impulse, exponential – even

and odd functions – classification of systems: linear, nonlinear, time varying and

invariant, causal and non-causal, continuous and discrete, stable and unstable systems.

UNIT II 15 PERIODS

Time domain analysis of continuous time systems: Zero input and zero state response –

unit impulse response – solution for differential equations – system stability (BIBO and

asymptotic) – system behavior: rise time, time constant, settling time and resonance

phenomenon – determining impulse response.

UNIT III 15 PERIODS

Time domain analysis of discrete time systems: Conversion of CTS to DTS – signal

operations – discrete time impulse function – exponential – sinusoid – complex

exponential – solution to linear difference equation – impulse response – system behavior

– convolution theorem and its properties.

UNIT IV 15 PERIODS

Continuous time signal analysis: The trigonometric Fourier series – existence and

convergence – system response – exponential Fourier series – computation of Fourier

coefficients.

Discrete time signal analysis: The z-Transform – Properties of z-transform – z-Transform

solutions for difference equations – system realization – frequency response – bilateral z-

Transform – relation between Laplace and z-Transform.

Reference Books:

01. Alan V. Oppenhem, Alan S. Willsky, and S. Hamid Nawab, Signals and Systems,

2nd

Ed., Prentice Hall of India Pvt., Ltd., Chennai, 2006.

02. B. P. Lathi, Linear Systems and Signals, 2nd

Ed., Oxford University Press, New

York, 2005.

03. P. Ramesh Babu and R. Ananda Natarajan, Signals and Systems, 2nd

Ed., Schitech

Pub (India) Pvt., Ltd., Chennai, 2006.

BEICEI 405 R01/ MICCEI 405 ELECTRICAL MACHINES

Credits: 4


UNIT I: 15 PERIODS

DC Machines – constructional details – types – principle of operation of separately and

self-excited dc generators – EMF equation – OCC & load characteristics – armature

reaction – commutation – applications.

DC Motors – concept of back emf – torque developed – performance characteristics –

starting and speed control of DC motor – applications.

UNIT II: 15 PERIODS

Transformer – constructional details of single phase and three phase transformer –

principle of operation – EMF equation – phasor diagram – equivalent circuit - regulation

- efficiency – auto transformers – applications.

Synchronous generators – constructional details – type – principle of operation – EMF

equation – applications.

Synchronous motors – principle of operation – applications.

UNIT III: 15 PERIODS Three phase induction motors – constructional details – types – principle of operation –

torque – slip characteristics – starting and speed control – applications.

Single phase induction motors – principle of operation – double revolving theory – types

of single phase motors – applications.

UNIT IV: 15 PERIODS

Welding transformers – DC/AC servo motors – stepping motors – DC and AC

tachogenerators – relays and contactors.

Reference Books:

1. Edward Huges – Electrical Technology, ELBS, 1987.

2. R.K.Rajput – A Text book of Electrical Machines, Lakshmi Publishers, 1991.

3. B.L.Theraja and A.K.Theraja – A Text book of Electrical Technology, Vol.II

AC & DC Machines, S.Chand & Co., Ltd., 2000.

4. Nagarath and Kothari, Electric Machinery, Tata McGraw Hill, 1990.

BEIDEI 401 R01/ MICDEI 401 PROCESS ENGINEERING

Credits: 4


UNIT I: 15 PERIODS Thermodynamics – Basic concepts – Laws of thermodynamics, Thermodynamic

relations, Closed & open systems - PVT relations – state & point functions- reversibility –

ideal gases – Maxwell’s relation- Z chart.

UNIT II: 15 PERIODS Fluid Mechanics: Newtonian & non newtonian fluids – fluid friction – incompressible &

compressible flow- Bernoulli’s equation – pumps, compressors (single and multistage),

nozzles, ejectors, turbines, manometers, orifice meter, pitot tube, venturimeter. - mixing

and agitation

UNIT III: 15 PERIODS Thermal process: Vapor compression and absorption refrigeration, liquefaction, heat

transfer, heat exchangers, evaporators- combustion – flame temperature – combustion

calculation

UNIT IV: 15 PERIODS Industrial processes: Reactors, distillation & absorption columns, Material and energy

balances – principle & relevant theory -P&I Diagram

Reference Books:

1. Dr. S. Sundaram, Thermodynamics, Ahuja Pub., 2nd

edn.,New Delhi( 2004)

2. McCabe and Smith : Unit Operations, McGraw-Hill, New York (2002)

BEIDEI 402/ MICDEI 402 ELECTROMAGNETIC FIELDS

Credits: 4


UNIT I: 15 PERIODS

ELECTRIC FIELD: Coulomb’s law – electric field intensity – electric flux density –

Gauss’s law and applications – absolute potential - potential difference – potential

gradient Poisson’s and Laplace’s equation – solutions – electrostatic fields – divergence –

divergence theorem – conservative field. Current and current density – continuity of

current – conductors and dielectrics – boundary conditions – capacitance, energy storage

– capacitance of different configuration – method of images.

UNIT II: 15 PERIODS

MAGNETIC FIELD: Magnetic flux and flux density – magnetic field intensity –

ampere’s circuital law – curl – stoke’s theorem – scalar and vector magnetic potential –

force and torque on a closed circuit – boundary condition for magnetic materials – energy

density in magnetic field.


MAGNETIC CIRCUITS: MMF calculation in simple magnetic circuits – lifting power

of magnets – Faraday’s law – motional emf – self and mutual inductance – different

configurations – calculations – energy of system of current loops – force on current loop

in terms of inductance.

UNIT IV: 15 PERIODS

WAVE EQUATIONS: Displacement current – Maxwell’s equations – wave equation,

uniform plane waves – free space – conducting medium – sinusoidal time variation – skin

depth – Poynting theorem and Poynting vector.

Reference Books:

1. K.A.GANGADHAR - Field theory, Khanna publishers, 1987.

2. J.D.KRAUS - Electromagnetics, McGraw Hill, 1987.

3. UMESH SINHA - Electromagnetic theory and its applications, Satyaprakashan

publishers, 1988.

4. WILLIAM H.HAYT - Engineering Electromagnetics, McGraw Hill, 5th

edition,

1986.

5. JORDAN AND BALMIN - Electromagnetic waves and radiating systems,

Prentice Hall of India, 2000.

BEICEI 406 R01/ MICCEI 406 ELECTRONIC CIRCUITS LAB (Credits: 2)

1. Design and construction of FET as an amplifier.

2. Design and construction of RC coupled amplifier.

3. Design and construction of push pull amplifier for the specified gain.

4. Design and construction of direct coupled amplifier.

5. Design and construction of transformer coupled amplifier for the specified gain

and bandwidth.

6. Design and construction of sweep generator for the specified time period.

(All experiments to be done using only transistors)

7. Design and construction of Hartley oscillator.

8. Design and construction of Colpitt’s oscillator.

9. Design and construction of RC phase shift oscillator.

10. Design and construction of Wein bridge oscillator.

11. Design and construction of an Astable multivibrator.

12. Design and construction of Schmitt trigger.

BEICEI 407 R01/ MICCEI 407 LINEAR ICs LABORATORY

(Credits: 2)

01. Determine the input bias current, output offset voltage, slew rate and CMRR for

the given OPAMP.

02. Applications of OPAMP: Summer, inverter, differentiator and integrator.

03. Square and triangular wave generation using OPAMP (without input) for the

given time period.

04. Design and construction of a first order Low pass and high pass filters for the

given cut-off. Study the frequency response in detail.

05. Design of first order band pass filter for the given bandwidth. Study the frequency

response in detail.

06. Design a precision half wave and full wave rectifier and give its significance over

conventional rectifiers.

07. Design and construction of astable and monostable multivibrator using OPAMP.

08. Design and construction of astable and monostable multivibrator using IC 555.

09. Schmitt trigger and zero crossing detector using OPAMP. Study the effect of

change in VUT & VLT

10. Sample and hold circuits.

11. D/A and A/D converters using OPAMPS.

12. Design and testing of voltage regulator using IC 723.

BEICTP 408 R01/ MICCTP 408 HR Skills - II

1. Creative Thinking - Picture/Case Study

2. Check your memory Power - Audio Visual presentation

3. If I were ...........?- Speech

4. Aptitude Test II

5. Skit/Mime Presentation - Group exercise

6. The Book I like - (Book Review)

7. Quiz on Current Affairs

V Semester

Course Code

Name of the Course

Periods/Week

No. of

Credits L T P


BEICMA 501 R01 /

MICCMA 501

Numerical Methods 4 1 0 5

BEICEI 502 R01 /

MICCEI 502

Control Systems 3 1 0 4

BEICEI 503 R01 /

MICCEI 503

Microprocessor, Microcontroller &

their Applications

4 0 0 4

BEICEI 504 R01 /

MICCEI 504

Digital Signal Processing 3 1 0 4


BEIDEI 501 R01 /

MICDEI 501

Industrial Economics & Management 4 0 0 4

BEIDEI 502 /

MICDEI 502

Communication Engineering 4 0 0 4

BEIDEI 503 /

MICDEI 503

Material Technology 4 0 0 4

BEIDEI 504 /

MICDEI 504

Java Programming 2 0 3 4


BEICEI 505 R01 /

MICCEI 505

Signal Processing Lab 0 0 3 2

BEICEI 506 R01 /

MICCEI 506

Transducers & Control Lab 0 0 3 2

BEICTP 507 /

MICCTP 507

HR Skills -III 1 0 0 1

Total

20/22 3 9 30

BEICMA 501 R01 / MICCMA 501 NUMERICAL METHODS Credits: 5


UNIT I : 15 PERIODS

SYSTEM OF EQUATIONS AND EIGEN VALUE PROBLEMS

Introduction-Bisection method-Secant method-Newton Raphson method-Iteration

method-Regula falsi method-Horner’s method-Graffe’s root squaring method of finding

real roots of an equation

Direct methods (review)-Gauss elimination method-Gauss Jordan method-Cholesky

method-Jacobi Iteration-Successive over relaxation method-eigen values and Eigen

vectors by Jacobi’s method-power method

UNIT II 15 PERIODS

NUMERICAL DIFFERENTIATION, INTEGRATION, INTERPOLATION AND

APPROXIMATION & FINITE ELEMENT METHODS

Introduction-numerical differentiation-methods based on finite differences-numerical

integration-trapezoidal rule-Simpson’s rule-3/8 rule-Quadrature formula

Introduction-Finite difference operators-relation between operators-Lagrange and

Newton interpolations, Finite element method-Ritz method-collocation method-weighted

residual method-Galerkin’s method-solving first order differential equations.

UNIT III 15 PERIODS

NUMERICAL SOLUTIONS OF ORDINARY AND PARTIAL DIFFERENTIAL

EQUATIONS AND FINITE ELEMENT METHODS

Power series approximation –solution by Taylor series-Improved and modified Euler

methods- Runge-Kutta -IV order method-Milne’s predictor-corrector method Solutions to

partial differential equations-classification of partial differential equations of the second

order-Laplace equation and its solution by Liebmann’s process-Solution of Poisson’s

equation-solution of parabolic and hyperbolic equations-

UNIT IV : 15 PERIODS

STATISTICS AND APPROXIMATIONS

Linear correlation – rank correlation and regression lines & simple results. Theoretical

distributions – Binomial - Poisson - Normal. Erlang, Gamma, Weibull – problems –

Random process – Classification – stationary process – WSS and SSS processes (Simple

problems)

UNIT V: 15 PERIODS

SAMPLING

Test of hypothesis: Level of significance – Type I and Type II errors – critical value –

test statistics – large sample test for mean – difference of means - proportion – difference

of proportions – SD. Small sample tests (based on t, F and Chi square). – ANOVA

table(one way classification)

Reference Books :

1. Irwin Miller and Jojn E.Freund - Probability and statistics for engineers, Prentice

Hall of India, Second Edition, 1977.

2. S.S.Sastry - Numerical analysis Prentice Hall of India, 2005.

3. Gupta & Kapoor: Mathematical Statitics – Sultan Chand & Sons, 2003

BEICEI 502 R01 / MICCEI 502 CONTROL SYSTEMS

Credits: 4


UNIT I 15 PERIODS

Mathematical review – Different forcing functions – First order systems – linearised first

order systems – Response to different forcing functions such step, ramp, pulse and

sinusoidal.

UNIT II 15 PERIODS

First order systems in series – higher order systems – transportation lag – response to

different forcing functions-decay ratio, overshoot response time.

UNIT III. 15 PERIODS

Controllers – Final Control element – Block diagram & signal flow charts– closed loop

transfer function-transient response

UNIT IV 15 PERIODS

Stability analysis – Routh test – frequency response analysis – Bode & Nyquist Diagram

for different systems & Controllers – Gain and Phase margin.

Reference Books:

1. D.R.Coughnowr ,Process system analysis and control , McGrawHill

Inc,NYork(1991)

2. S.Sundaram ,T.K.Radhakrishnan, Process dynamics and control, Ahuja Book

Pub.,N.Delhi (2003)

BEICEI 503 R01 / MICCEI 503 MICROPROCESSOR,

MICROCONTROLLER & THEIR APPLICATIONS

Credits: 4


UNIT –I 15 PERIODS

Architecture: Organization of 8086 microprocessor - memory - organization - pin

configuration - resister structure - addressing modes in 8086 - minimum and maximum

mode of operation - difference between 8086, 8088 microprocessor - assembler - two

pass assembler - timing parameters- interrupts - interrupt types and interrupt responses

UNIT – II 15 PERIODS

IO Interface: Type of Interfacing devices - 8255 I/O Ports and programming - 8251 Serial

communication interface - 8259 Interrupt controller - 8253 timer Interface - DMA

Controller 8257 - A/D - D/A interfacing -interfacing 6845 CRT controller-4 bit, 8 bit, 16

bit and 32 bit microcontroller.

UNIT- III 15 PERIODS

Microcontroller Architecture: Organization of 8031 Microcontroller -Register structure -

pin configuration -timer - Serial port -RAM - in 8031 microcontroller family - various

addressing modes - Instruction set - Arithmetic group - Logical group - Data Transfer

group - Bit Manipulation instruction - Program and machine controller instructions stack

operation.

UNIT – IV 15 PERIODS

Application: keyboard interfacing-seven segment display interfacing- LCD Interfacing.

8279 programmable keyboard display interface -stepper motor interfacing- Data transfer

between two microprocessors - data transfer through serial port-Time and frequency

measurement using timer-applications using interrupt.

Reference Books:

1. Ramesh Gaonkar Microprocessor Architecture Programming and Applications

with the 8085/8080, Third edition, Penram International publishing (India),1997.

2. Introduction to Microprocessor - Auditya P. Mathur ,2000

3. Barry B.Brey, The Intel Microprocessor 8086/8085, 80186/80188,

80286/80386,80486 Pentium and Pentium Pro processor /Architecture

Programming and interface Prentice Hall of India, Fourth Edition ,1997.

4. Udayakumar, Advanced Microprocessors and IBM-PC Assembly language

Programming, 1 Ed, Tata McGraw –Hill, New Delhi,1997

5. Kennath J Ayala.The 8051 microprocessor, Penram International publishing India

Ltd., 1990.

6. Intel 16 bit Embedded Controllers Handbook, Intel, 1990

BEICEI 504 R01 / MICCEI 504 DIGITAL SIGNAL PROCESSING

Credits: 4


UNIT I 15 PERIODS

Realization of digital linear systems: Network definitions and operations – IIR and FIR

filter realizations: Direct form I, form II realization, signal flow graph, transposed form

II, cascade form, parallel form and lattice structure.

UNIT II 15 PERIODS

Discrete time Fourier transform: Properties of DFT – N-point DFT on sequences – IDFT

– linear and circular convolution techniques – frequency response.

Fast Fourier transform: Decimation in time – decimation in frequency – IDFT using FFT.

UNIT III 15 PERIODS

Digital filter design techniques: Analog filter approximation, Butterworth, Chebyshev

and elliptical filters – frequency band transformations on analog domain. Digital filter

design equations: Low pass, high pass, band pass and band stop.

UNIT IV 15 PERIODS

Infinite impulse response filters: IIR filter design by bilinear transformation – frequency

band transformation & impulse invariant method on digital domain.

Finite impulse response filters: Linear phase FIR filters – frequency response – pole-zero

locations – realization of FIR filters using windows: rectangular, triangular, cosine, and

Hamming windowing techniques.

Reference Books:

1. John G. Proakis and Dimitris G. Manolakis, Digital Signal Processing: Principles,

Algorithms and Applications, Prentice Hall of India, 1997.

2. A. V. Oppenhem and R. W. Schaffer, Digital Signal Processing, Prentice Hall of

India, 1987.

3. P. Ramesh Babu, Digital Signal Processing, Schitech Pub (India) Pvt., Ltd.,

Chennai, 2001.

BEIDEI 501 R01 / MICDEI 501 INDUSTRIAL ECONOMICS &

MANAGEMENT

Credits: 4


UNIT I 15 PERIODS

Economics - definition, description and understanding of demand, supply, price,

National Income, productivity, exchange rate, inflation, indices and money value.

UNIT II 15 PERIODS

Costing - definition of various costs, methods of costing , Marginal costing method (PV

ratio, BEP analysis) and its use in management decision making.

Location - plant location, plant capacity, location decision, the factors governing location

and capacity. Product life cycle, layout decision, location and layout for products and for

services.

UNIT III 15 PERIODS

Ownership - single owner, partnership, joint-N stock firms, co-operatives, public

enterprises, statutory enterprises - their characteristics, merits, limitations. Formation

procedures in our country, Brief discussion on the scope and purpose of companies, Act

and MRTP Act.

UNIT IV 15 PERIODS

Management: Basic principles, the Indian heritage, western style and Japanese methods.

Functions of management, organization, (line, staff, matrix, project) Merits and

limitations, charts, definitions of authority, responsibility and accountability, brief

description on MBO, MBE and MIS.

Reference Books:

1. Managerial Economics, Varshney & Maheswari, S.Chand & Co, 1983

2. Advanced Cost Accounting, Jain and Narang, Allied Publishers, 1992

3. Practical Costing, Ahuja & Khanna, S.Chand & Co, 1982

4. Modern Production and Operating Management, Buffa & Rakesh Saxena. Tata

Mc Graw Hill I Ltd, 1996

5. Industrial Ownership in India, O.P.Khanna. Prentice Hall of India, 1992

6. Principles of Management, L.M.Prasad. Allied Publishers, 1997

7. Scientific management, Peter Drucker, 1992

BEIDEI 502 / MICDEI 502 COMMUNICATION ENGINEERING

Credits: 4


UNIT I 15 PERIODS

Modulation - need for modulation - amplitude modulation - frequency spectrum - power

relation - different types of modulators - SSB, DSB and VSB generation. AM

transmitters - block diagram - functions of each block - high level and low level

transmitters-. principle of frequency and phase modulation - bandwidth of FM - narrow

band and wide band FM - generation of FM wave - direct and indirect methods - FM

transmitters - block diagram –functions of each block.

UNIT II 15 PERIODS

Detection and Receivers - detection of AM waves - diode detectors - synchronous

detection - FM detectors - slope detectors - phase discriminators - ratio detectors. receiver

- different types - super heterodyne receivers - block diagram - choice of IF and

oscillator frequencies - tracking - alignment - AVC, AFC - receiver characteristics

UNIT III 15 PERIODS

Pulse modulation systems - sampling theorem, PWM - Pulse Amplitude Modulation -

channel bandwidth for PAM - detection of PAM signals - pulse time modulation -

generation of PDM and PPM - conversion of PDM to PPM - detection of PTM signals -

Pulse Code Modulation - quantization - PCM systems - encoder - Time Division

Multiplexing - Frequency Division Multiplexing.

UNIT IV: 15 PERIODS

(Block Diagram Approach)

Broadband Communication System - Facsimile system - Telephone system - crossbar and

electronic exchanges - Television system - microwave communication and optical

communication systems - Principle of satellite communication - computer

communication - Electronic mail.

Reference Books:

1. G. Kennedy, Electronic Communication Systems, McGraw Hill, 1984.

2. Ashokraj, Modern Electronic Communication Theory and Systems Vol I, Umesh

Publications, 1988.

3. Taub and Schilling, Principles of Communication System, McGraw Hill, 1989.

4. Bruce Carlson, Communication Systems, McGraw Hill, 1985.

5. Sanjeev Gupta, Principles of Communication Engineering, S.Chand & Co, 1990

BEIDEI 503 / MICDEI 503 MATERIAL TECHNOLOGY

Credits: 4


UNIT I: 15 PERIODS

PROPERTIES OF ENGINEERING MATERIALS: Electrical, mechanical, magnetic,

optical, thermal and dielectric materials.

STEELS AND CAST IRONS: Classification – properties and applications – Iron – Iron

carbide diagram. Effect of alloying cements and properties of steels and cast irons.

Alloys of Cu, Al, Mg, Ni, Zn and Pb and their uses.

UNIT II: 15 PERIODS

CONDUCTION IN METALS: Electrical and thermal conduction.

Dielectric materials – Magnetic materials – types of magnetism – magneto striction –

super conductivity.

Polymeric materials: Polyethylene, polystyrene, PVC, Teflon, polyesters, Bakelite,

varnishes and enamels.


HEAT TREATMENT: Introduction – hardness measurement – brinell, Rockwell and

Vickers method.

CREEP: Creep curve – various stages of creep – types of creep. Creep properties of

metals and non metals – stress relaxation – fatigue – mechanism of fatigue – effect of

stress concentration.

UNIT IV: 15 PERIODS

Criteria for the selection of materials for engineering applications. Elastic materials:

Materials for spring, bellows, diaphragm, and bourdon tube –choice of materials for

different operating conditions like temperature, pressure and humidity. Materials for

strain gauges, RTDs, thermistors, orifice plates - piping and pipe fitting. Corrosion:

Direct electrochemical and galvanic corrosion - prevention and control.

Reference Books:

1. C.S.Indulkar - An Introduction to Electrical Engineering Materials, S.Chand &

Co.,1981.

2. C.W.Richards - Engineering Materials Science, Prentice Hall of India, 1985.

3. L.H.Van Vlack - Elements of materials science, Addison Wesley, 1975.

4. M.Arumugam - Materials Science, Anuradha agencies, 1987.

5. ISA Handbook - Standards and practices for instrumentation, ISA 1986.

6. O.P.KANNA - A text book of material science and metallurgy, Dhanpat Rai and

Sons, 1986.

7. G.E.Dicter - Mechanical metallurgy, Tata McGraw Hill, ISE, 2000

8. S.H.avener - Physical metallurgy, Tata McGraw Hill, ISE. 1995.

BEIDEI 504 / MICDEI 504 JAVA PROGRAMMING

Credits: 4


UNIT - I 15 PERIODS

Introduction to Object Oriented Programming - Genesis of Java - Overview of Java -

Data types, Variables and Arrays - Operators – Control Statements - Introducing Classes

- Methods and Classes - Overloading - Understanding static, final - Nested and Inner

Classes - String class - Command Line Arguments - Inheritance - I/O Basics - Packages

and Interfaces - Exception Handling.

UNIT – II 15 PERIODS

Multithreaded Programming - Java Thread Model - Creating Multiple Threads - Thread

Priorities - Synchronization - Inter thread communication - Suspending, Resuming and

Stopping threads - Applets - Fundamentals - Applet class - Applet Skeleton - Event

Handling - Event classes – Event Listener Interfaces - Adapter Classes - Inner Classes.

UNIT – III 15 PERIODS

AWT - Window Fundamentals - Working with Frame Windows, Graphics, colors, and

Fonts - Using AWT controls, Layout managers and Menus – Control Fundamentals -

Understanding Layout Managers - Java RMI - Networking - Basics - Networking Classes

and Interfaces - InetAddress - TCP/IP Socket, ServerSocket classes - UDP

DatagramSocket, DatagramPacket classes

UNIT – IV 15 PERIODS

Java Library - String handling - String Operation, comparison, searching, modifying -

String Buffer - java.lang - Simple Type Wrappers – Math - java.util - Collection

Interfaces - Collection classes – Legacy classes - Stack - Dictionary - Hash table - Date

class - Random class - java.io - File - ByteStreams - CharacterStreams - Serialization .

Reference Books:

1. Herbert Schildt, "The Complete Reference Java 2", Fifth Edition, Tata McGraw

Hill Edition, 2002

2. Harvey M. Deitel, Paul J. Deitel, "Java: How to Program", 7th

Edition, Deitel &

Associates Inc., 2006.

BEICEI 505 R01 / MICCEI 505 SIGNAL PROCESSING LABORATORY (Credits-2)

(Analog signal processing)

01. Design a 2nd

order Butterworth active low pass and high pass filter for the given

cutoff frequency. Check the practical frequency response of the same with the

obtained transfer function.

02. Design an active filter which can filter out the 50 Hz power line noise in the

frequency range of 1 to 100 Hz. Illustrate on how to improve the attenuation band in

order to preserve the actual signal from being attenuated.

03. Design a differential amplifier cum filter which can amplify the difference signal in

the range of 100 Hz to 100 KHz by 100 times and filter out rest of the frequencies.

04. Design a differentiator to differentiate signal in the frequency range of 100 Hz to 1

KHz.

05. Determine the effect on CMRR due to the difference in capacitance and resistance

values of a differential amplifier cum filter.

06. Design an elliptical filter to reject the 50 Hz power line noise effectively from a

composite signal.

(Digital signal processing using MATLAB)

07. Write an algorithm for Butterworth low, high and band pass filters for the specified

cut-off frequencies and determine its impulse response.

08. Obtain the frequency spectrum of the given composite signal using FFT technique.

09. Determine the period of the given signal using auto-correlation technique.

10. Write an algorithm to reject white noise from a given signal using moving average

window technique.

11. Design a 25-tap low pass filter with cutoff frequency 0.5 radians using rectangular

and hamming windows and also its frequency response.

12. Design a FIR low pass and high pass filter for the given cutoff frequency using

hamming window and frequency sampling method.

BEICEI 506 R01/ MICCEI 506 TRANSDUCERS & CONTROL

LABORATORY (Credits-2)

1. Characteristics of LVDT, tacho-generator and stroboscope

2. Characteristics of Thermocouple, RTD and Thermistor

3. Conductivity and humidity measurement

4 Characteristics of Potentiometers, synchro transmitter & receiver

5 Characteristics of Strain gauge, torque sensor

6 Characteristics of capacitive transducers & AD590.

7 Analysis of various system responses using MATLAB

8 Instrumentation amplifier based PID controller design

9 Frequency response based analysis using operational amplifiers

10 Study of controller design using MATLAB

11 Investigation and analysis of DC Motor Control using Simulink models

12 Negative Feedback analysis using Electronic circuits

BEICTP 507/ MICCTP 507 HR Skills -III

1. Mock Press

2. Technical Quiz - By students

3. Technical Interview - By Parent Department Staff

4. Aptitude Test - III

5. Case Study on Conflict Resolution

6. Corporate Ethics & Culture - Staff lecture

7. Out of Box Thinking - Exercise

VI Semester

Course Code

Name of the Course

Periods/Week

No. of

Credits L T P


BEICEI 601 R01 Process Control 4 0 0 4

BEICEI 602 R01 Digital VLSI Design 4 0 0 4

BEICEI 603 R01 Data Acquisition & Processing 4 0 0 4

BEICEI 604 R01 Industrial Instrumentation 4 0 0 4


BEIDEI 601 R01 Fuzzy Logic & Neural Networks 4 0 0 4

BEIDEI 602 R01 Embedded Systems in Instrumentation 4 0 0 4

BEIDEI 603 R01 Power Plant Instrumentation 4 0 0 4

BEIDEI 604 R01 Operational Research 4 0 0 4


BEICEI 605 R01 Microcontroller & Interfacing Lab 0 0 3 2

BEICEI 606 R01 Data Acquisition & Processing Lab 0 0 3 2

BEICTP 607 R01 HR Skills - IV 1 0 0 1

Total 25 0 6 29

BEICEI 601 R01 PROCESS CONTROL

Credits: 4


UNIT I 15 PERIODS

Special Control techniques – feed forward, cascade, ratio, split range and selective control –

IMC and Smith predictor – Control of batch reactors- distillation columns, heat exchangers.

UNIT II 15 PERIODS

Control valves – design – Controller tuning – Cohen and Coon – Zeigler-Nichols tuning

methods-process identification FOPDT, SOPDT models.

UNIT III 15 PERIODS

State space methods- state space representation of physical systems – Transfer function

matrix- multivariable control - .stability analysis-interaction –decoupling.

UNIT IV 15 PERIODS

Sample Data Control – Basics of Z transforms – open & closed loop response – stability

sampled data control of different processes – design of digital controllers.

Reference Books

1. K. Ogata, Modern control engineering, PHI, New Delhi, 2006.

2. D. R. Coughnowr, Process systems analysis and control, McGraw Hill Inc.,New

York(1991).

BEICEI 602 R01 DIGITAL VLSI DESIGN

Credits: 4


UNIT I 15 PERIODS

CMOS PROCESSING TECHNOLOGIES

Introduction to Integrated circuit Technology – Basic MOS transistors – Enhancement

mode, depletion mode – Basic properties of CMOS – Review of fabrication of FET,

transistor, monolithic diodes, Capacitors and resistors. Basic CMOS technology –n well

process, p-well process, twin tub

UNIT II 15 PERIODS

INVERTER: CMOS inverter – dc characteristics, dynamic characteristics – Analytic delay

model, CMOS – Gate transistor design, Power dissipation, Noise margin, Parasitic

capacitance, design rules – Lamda based rule CMOS – logic gate design, - CMOS NAND

and NOR, fan in, fan out- CMOS logic structures – CMOS complementary logic,

Transmission gates – BiCMOS logic, Pseudo n-MOS logic – Dynamic CMOS logic-

Clocked CMOS logic- pass transistor logic -CMOS domino logic - clocking strategies –

latches and registers, two phase clocking.

UNIT III 15 PERIODS CMOS SUBSYSTEM DESIGN – Single bit adder – Transmission gate adder – Carry look

ahead adder –carry select adders – carry by pass adders - mirror adder, Array multiplication–

Wallace tree multiplication, RAM, ROM, PLA control implementation, Decoders – shifters,

PAL.

UNIT IV 15 PERIODS

DESIGN METHODOLOGY & SUBMICRON TECHNOLOGY

Introduction – Ground rules for successful design- Design Rule checkers (DRC)-

Simulators – Introduction to Gallium arsenide Technology – Technology development-

GaAs devices – Introduction to MESFET – V –I characteristics of MESFET- MESFET as

inverter.

Reference Books

1. Dougles A. Punknell & Kamran Eshraghian, “Basic VLSI design”, 3/e prentice hall

of India Ltd, 1995.

2. JAN. M. Rabaey, “Digital Integrated circuits A design perspective”, Practice Hall of

India ,3rd

edition, 2001

3. A. Neil H.E. Weste, Kamran Eshraghian “Principles of CMOS VLSI design, a system

perspective, Second edition, Pearson education 2004.

BEICEI 603 R01 DATA ACQUISITION & PROCESSING

Credits: 4


UNIT I: (Qualitative analysis) 15 PERIODS Effect of noise in measurement signals. Sources of noise and coupling mechanism. Statistical

representation of signals. Signal pre-amplification & filtering to bring it to the range of

acquisition. Interfacing techniques.

UNIT II: (Qualitative analysis) 15 PERIODS Utilization of full range of ADC. Concept of analog to digital & digital to analog conversion.

Sampling quantization & encoding. Errors in conversion & correction. Time division

multiplexing, Frequency shift keying.

UNIT III: (Qualitative analysis) 15 PERIODS AC carrier system – AC bridge as balanced modulator – Interference & drift rejection –

Phase sensitivity demodulation – Current transmitters: open & closed loop transmitter.

UNIT IV: (Qualitative analysis) 15 PERIODS

Digital filter designs. Window filters. Convolution. DFT filtering techniques. Analysis of the

signals, error detection & correction after transmission. Feature extraction and decision

making.

Reference Books

01. John P. Bently, Measurement systems, 3rd

edition, 2000.

02. John G. Proakis and Dimitris G. Manolakis, Digital Signal Processing: Principles,

Algorithms and Applications, Prentice Hall of India, 1997.

03. A. V. Oppenhem and R. W. Schaffer, Digital Signal Processing, Prentice Hall of

India, 1987.

BEICEI 604 R01 INDUSTRIAL INSTRUMENTATION

Credits: 4


UNIT I 15 PERIODS TEMPERATURE MEASUREMENT-Different types of filled system thermometers-

Sources of error and compensation. Installation and maintenance activities.

PRESSURE MEASUREMENT-Pressure Units- Manometers- Bourdon gauges. Motion and

force balance designs using bellows, diaphragms- Testing and calibration of Pressure gauges

using pressure standards. Installation and maintenance of Pressure gauges. High vacuum

measurement- Mc Leod gauge-Knudsen gauge, pirani gauge- Ionization gauge.

UNIT II 15 PERIODS

FLOW MEASUREMENT-Differential Pressure flow meters- Operating principle-

Different types- orifice-venturi meters- their Installation and maintenance. Positive

displacement mechanical flow meters- Different types. Inferential flow meters- Rotameters-

Turbine flow meters. Electrical types- Principle, Construction of electromagnetic flow

meters- Ultrasonic flow meters. Mass flow meters- coriolis flow meters- Calibration,

Installation and maintenance.

UNIT III 15 PERIODS LEVEL MEASUREMENT-Sight glass- Float actuated and displacer devices. Torque tube-

purge system- manometer type. Boiler drum level measurement- Differential pressure

method.

DENSITY - buoyancy – air pressure balance methods

VISCOSITY & CONSISTENCY - Saybolt and Industrial viscometer- Industrial

consistency meter.

UNIT IV 15 PERIODS VELOCITY- Relative velocity- Translational & Rotary velocity measurement.

ACCELARATION- Accelerometers of different types.

SPEED- magnetic-photo electric pulse counting-stroboscopic methods.

FORCE, TORQUE & VIBRATION-Torque measurement- mechanical and electrical

methods. Vibration measurement- seismic pick up with piezo electric measurement.

Reference Books:

1. Deoblin. E.O, Measurements systems-application and design. Tata McGrawHill,2002

2. Eckman.D.P, Industrial instrumentation. Wiley Eastern Ltd, 2004

3. Partanabis.D Principle of measurement systems. Tata McGrawHill, 2004

4. Sawhney.A.K. Electrical and Electronic measurements. Dhanpat Rai & Sons,2000

5. Singh.S.K. Industrial Instrumentation and control. Tata McGrawHill,2004

6. Considine.D.M. Process Instruments & control Hand book,2002

7. Liptak.B.G. Instrument Engineers Hand Book. Chilton Book company.1973

BEIDEI 601 R01 FUZZY LOGIC AND NEURAL NETWORKS

Credits: 4


UNIT I 15 PERIODS

Introduction to Fuzzy logic- Fuzzy sets – Fuzzy conditional statements- Fuzzy rules- Fuzzy

algorithms

UNIT II 15 PERIODS

Fuzzy logic controller- Fuzzification interface- knowledgebase- decision making logic-

defuzzification interface- design of Fuzzy logic controller- case study

UNIT III 15 PERIODS

Introduction to Artificial neural networks: Artificial neuron- Learning algorithms-

perceptron- Multilayer perceptron- EXOR problem- back propagation algorithm- Hop field

networks- Kohenen’s self organizing maps- adaptive resonance theory.

UNIT IV 15 PERIODS

Neural networks for control Schemes of neuro control- Identification and control of

dynamical systems- case study related to one specific process control problems like

Distillation column- Optimization of membership function and rule bases of fuzzy logic

controller using neural networks.

Reference Books:

01. Simon Haykins Neural network – A comprehensive foundation, prentice hall 1992.

02. Bose N.K and Liang .P Neural Networks Fundamentals with Graphics, Algorithm and

Applications, TataMcGraw Hill, New Delhi 1996.

03. Timothy Ross – Fuzzy logic for engineering Applications – Prentice hall -1994.

04. Lawrence Fausett, Fundamentals of neural networks, Prentice Hall, Eaglewood cliffs,

N.J.1992.

BEIDEI 602 R01 EMBEDDED SYSTEMS IN INSTRUMENTATION Credits: 4


UNIT-I 15 PERIODS

Atmel RISC Processor-AVR architecture overview-. Memory- flash,-data – register – i/o

registers – SRAM - EEROM memory-. Reset and interrupt functions-Interrupts –watchdog

timer4. Parallel i/o ports-. Timer/Counters-Timer/Counter Prescalar and Input Selectors-

Timer 0-Timer 1-Timer 2-Serial Communication using UART

UNIT- II 15 PERIODS

Timer 0-Timer 1-Timer 2-one second recording interval using Timer 0-engine rpm-

measurement using Timer 1- Drive Shaft measurement using Timer 1. Analog Interfaces-

Analog to Digital background - Analog Comparator peripheral - measuring engine

temperature using a/d-sending collecting data to the PC - Serial Communication using SPI –

Instruction set.

UNIT- III 15 PERIODS

Interfacing to External devices - Digital Interface-Interfacing digital input signal-Switch

debouncing - Switch arrays and keypads - Transistor switches - Optical Devices – Opto

isolator-Object sensors-Shaft encoder-Inductive Loads-On/Off switching-Relays –Electronic

relay using TRIAC - H Bridge -The DC Motor-Motor principles-Driving the dc motor PWM

– continuous variable control - Stepper motor-Introduction-Drive waveforms-Motor speed

profiles - Switching the motor phases-Measurement Consideration for the design -

Temperature - Barometric Pressure- Humidity-Wind Speed-Wind Direction-Rainfall-Dew

Point Computation-Wind Chill Computation- Battery Health-Real Time-. Hardware Design-

Wind speed input-Rain gauge input-900 MHz transmitter-Power supply

UNIT IV 15 PERIODS

Control Applications - PID controller- TC/thermistor transducer linearization DC motor

position/speed measurement and control (iv). Discrete state process control-Introduction to

RTOS: Task scheduling, event based models, real time kernels, memory requirements and

control. Concepts of RTX -51.Developing applications

Reference Books :

1. Embedded C Programming and the Atmel AVR – Richard Barnett, Larry O’Cull &

Sarah Cox – Thomson Delmar Learning Edition 2003.

2. Programming and Customizing the AVR Microcontroller – Dhananjay V. Gadre –

Tata McGraw-Hill Edition 2003.

3. An introduction to the design of small-scale embedded system – Tim Wilmshurst –

Palgrave Edition 2001.

4. Design with PIC Microcontrollers, 7th

Indian reprint,2002, Pearson education.

5. Intel Embedded application Handbook, Intel, 1990.

6. Ye .Chang Lio and Glen .A.Gibson, Microcomputer systems - 8086/8088 family,

Prentice, Hall of India Ltd, 1987.

BEIDEI 603 R01 POWER PLANT INSTRUMENTATION

Credits: 4


UNIT I 15 PERIODS

Piping and Instrumentation diagram of a thermal power plant - basic processes in a boiler -

fuel measurement - review. of pressure and temperature measurement - steam and water flow

measurement - instrument applications in power station- review of indicating and recording

instruments- water level gauges for boiler drums- closed circuit television instruments- gas

analysis meter-leak measurement- dust monitor - measurement of impurities in feed water

and steam - instrument - instrument maintenance aspects- pollution control instruments- CO,

SOX/NOX '

UNIT II 15 PERIODS

Boiler control objectives - combustion of fuels (gaseous, liquid and solid) - excess air

combustion chemistry and products of combustion- requirement for excess combustion air

calculation of efficiency of boilers- Input/Output method- heat loss method - steam

temperature control systems - super heaters and desuperheaters.

UNIT III 15 PERIODS

Feed water supply and boiler water circulation systems - drum level control systems - boiler

draft system - measurement and control of furnace draft - measurement and control of

combustion draft and air flow control related functions.

UNIT IV 15 PERIODS

Flue gas analysis - trimming of combustion control systems - combustion control for liquid

and gaseous fuel boilers - coal or solid fuel stokers - combustion control for stoker fired boilers. Nuclear power plant instrumentation: Piping and instrumentation diagram of

different types of nuclear power plants- radiation detection instrument - process sensors for

nuclear power plants spectrum analyzers - nuclear reactor control systems and allied

instrumentation.

Reference Books

01. B.G.LIPTAK, Instrumentation in Process Industries, Vol I and II, Chilton Book and

Co., 1973.

02. SAM .G.DUKELOW, The Control of Boilers, Instrument Society of America Press,

1996.

03. ASHERRY et.al (EDITORS), Modern Power Station Practice, Vol 6 Instrumentation,

(Controls and Testing) Pergamon Press, 1971.

BEIDEI 604 R01 OPERATIONAL RESEARCH

Credits: 4


UNIT I: 15 PERIODS

LINEAR PROGRAMMING: Introduction – formulation of LPP – formulation of

engineering optimization problems – simplex method – principles of simplex method –

algorithm – Big-M – two-phase method – duality – application of transportation model.

UNIT II: 15 PERIODS

DYNAMIC PROGRAMMING: Introduction – recursive equation approach –

characteristics – Bellman’s principle – algorithm – solution of discrete DPP – solution of

LPP by dynamic programming – probabilistic – DPP – applications.


SIMULATION: Introduction – formulation and implementing a simulation model –

experimental design for simulation – generation of random numbers – Monte-carlo

simulation – cycle method of statistical analysis – simulation of networks, investment and

budgeting, queuing system.

UNIT IV: 15 PERIODS

NON-LINEAR OPTIMIZATION AND SEARCHING TECHNIQUES: Introduction –

searching methods – direct search methods – Hooke-Jeeves pattern search method – Gradient

based method –Newton’s method – Non-traditional optimization algorithm – genetic

algorithm – simulated annealing – global optimization – problems.

Reference Books

1. Operations Research, Kanti Swarup, P. K. Gupta, Man Mohan, 8th

edition, Sultan

chand & sons, 1999.

2. Operations Research, F. S. Hillier, 2nd

edition, CBS Publishers & Distributers, 1987.

3. Optimization Concepts and Applications in Engineering, Ashok D. Belegundu, T. R.

Chandrupatla. 2nd

edition, Pearson Education, 2003.

4. Optimization for Engineering Design, Kalyanmoydeb, 1st edition, Prentice Hall India,

2000.

5. Genetic Algorithms in search, optimization, and machine learning, D. E. Goldberg,

Addison-Wesley, 1989.

BEICEI 605 R01 MICRO CONTROLLER & INTERFACING LAB (Any Twelve Experiments) (Credits-2)

1. Keyboard interfacing

2. Seven segment display interfacing

3. LCD interfacing

4. Wave form generation

5. Frequency measurement

6. DC motor speed controller

7. Temperature measurement using Thermocouple

8. LVDT interfacing

9. Stepper Motor interfacing

10. Traffic control interfacing

11. Water level measurement

12. Serial communication with PC

13. Electronic relay interfacing (using TRIAC)

14. Light intensity measurement

15. Mass/Force measurements with strain gauge

BEICEI 606 R01 DATA ACQUISITION & PROCESSING LAB

(Credits-2)

01. Interfacing of an instrumentation amplifier with a differential signal

02. Analyze the performance of instrumentation amplifier for the given specifications

such as frequency component of the signal, noise spectrum, gain & CMRR.

03. Design a precision cum averager circuit and analyze its performance.

04. V/I, I/V converter for the given specifications

05. Analyze the loading effects of V/I & I/V.

06. Design an ADC using the IC0800.

07. Design an ECG circuit.

08. Extract the ECG signal and store it in PC and analyze it.

09. Design a signal conditioning unit for any one of the given system such as load, pH,

level and conductivity.

10. Analyze the statistical parameters for the above acquired signal and comment on the

linearity of the sensor.

BEICTP 607 R01 HR Skills- IV

1. Employers' Expectation - staff lecture

2. Selection Process - Staff lecture

3. Resume Writing - Preparation - staff lecture

4. Group Discussion

5. Mock Interview

6. Aptitude Test - IV

VII Semester

Course Code

Name of the Course

Periods/Week

No. of

Credits L T P


BEICEI 701 R01 Programmable Logic & Distributed

Control System

4 0 0 4

BEICEI 702 R01 Modern Control Theory 4 0 0 4

BEICEI 703 R01 Biomedical Instrumentation 4 0 0 4

BEICEI 704 R01 Analytical Instrumentation 4 0 0 4


BEIDEI 701 R01 Instrumentation System Design 4 0 0 4

BEIDEI 702 Process Modeling & Simulation 4 0 0 4

BEIDEI 703 R01 Instrumentation in Petrochemical

Industries

4 0 0 4

BEIDEI 704 R01 Semiconductor Sensors & Applications 4 0 0 4


BEICEI 705 R01 Biomedical Instrumentation Lab 0 0 3 2

BEICEI 706 R01 Process Control Lab 0 0 3 2

Total 24 0 6 28

BEICEI 701 R01 PROGRAMMABLE LOGIC & DISTRIBUTED

CONTROL SYSTEM

Credits: 4


UNIT I 15 PERIODS

Review of computers in process control: Data loggers, Data Acquisition Systems (DAS),

Direct Digital Control (DDC). Supervisory Control and Data Acquisition Systems (SCADA),

sampling considerations. Functional block diagram of computer control systems.

UNIT II 15 PERIODS

Programmable logic controller (PLC) basics: Definition, overview of PLC systems,

input/output modules, power supplies and isolators. General PLC programming procedures,

programming on-off inputs/ outputs. Auxiliary commands and functions, PLC Basic

Functions, register basics, timer functions, counter functions. PLC intermediate functions:

Arithmetic functions, comparison functions, Skip and MCR functions, data move systems.

UNIT III 15 PERIODS

PLC Advanced intermediate functions: Utilizing digital bits, sequencer functions, matrix

functions. PLC Advanced functions: Alternate programming languages, analog PLC

operation, networking of PLC, PLC-PID functions, PLC installation, troubleshooting and

maintenance. Design of interlocks and alarms using PLC.

UNIT IV 15 PERIODS

Distributed Control Systems (DCS): Definition, Local Control Unit (LCU) architecture, LCU

languages, LCU - Process interfacing issues, communication facilities, redundancy concept –

case studies in DCS. Introduction to Field bus and HART bus concepts.

Reference Books

1. John.W. Webb Ronald A Reis, “Programmable Logic Controllers - Principles and

Applications”,4th Edition, Prentice Hall Inc., New Jersey, 1998.

2. Lukcas M.P, “Distributed Control Systems”, Van Nostrand Reinhold Co., New York,

1986.

3. Frank D. Petruzella, “Programmable Logic Controllers”, 2nd Edition, McGraw Hill,

New York,1997.

4. Krishna Kant, “Computer-based Industrial Control”, Prentice Hall, New Delhi, 1997.

BEICEI 702 R01 MODERN CONTROL THEORY

Credits: 4


UNIT I: 15 PERIODS

Concept of state & state models-state equation from transfer function. Building blocks of

state space models. Modeling through energy approach of electrical & mechanical. Canonical

forms, Solution to state-space equations, state transition matrix, properties of state transition

matrix, computation of state transition matrix.

UNIT II: 15 PERIODS Equilibrium points and stability concepts, stability definitions, Modeling energy of the

system in terms of quadratic functions. Controllability, observability- simple problems,

Linopunov stabilizability criterion.


State feedback control for controllable canonical form, State feedback control in general,

Output feedback controller by pole placement method. Full-order and reduced-order

observers-simple problems.

UNIT IV: 15 PERIODS

Nonlinear system – common nonlinearities – phase plane method – describing function

analysis – simple problems.

Reference Books

1. W. L. Brogan, Modern Control Theory, 3rd Edition, Prentice Hall Inc., New Jersey,

1990.

2. Raymond A. DeCarlo, Linear Systems, A state variable approach with numerical

implementation, Prentice Hall Inc., New Jersey, 1987.

3. Skelton R. E, Dynamic System Control and Linear Systems Analysis and Synthesis,

John Wiley, 1993.

4. K. Ogatta, Modern Control Engineering, Prentice Hall of India, 2002.

BEICEI 703 R01 BIOMEDICAL INSTRUMENTATION Credits: 4


UNIT I 15 PERIODS Electrophysiology: Review of physiology and anatomy - resting potential - action potential propagation of action potential - bioelectric potentials - cardiovascular dynamics - electrode theory - bipolar and unipolar electrodes - surface electrodes - physiological transducers - systems approach to biological systems.

UNIT II 15 PERIODS

Bioelectric potential and cardiovascular measurements: EMG - evoked potential response -

EEG - fetal monitor-ECG - phonocardiography - vector cardiography - BP - blood flow -

cardiac output - plethysmography - impedance cardiology - cardiac arrhythmias - pacemakers

defibrillators - Incubator.

UNIT III: 15 PERIODS Respiratory and pulmonary measurements and rehabilitation: Physiology of respiratory system respiratory rate measurement - oximeter. Hearing aids - functional neuro muscular simulation physiotherapy - diathermy - nerve simulator. Patient monitoring systems: Design of Micro controller based patient monitoring systems

UNIT IV: 15 PERIODS

Recent trends: Medical imaging - laser applications - ultrasound scanner - echo cardiography

CT scan - MRI/NMR - cine angiograms - colour Doppler systems - Holter monitoring

endoscopy.

Reference Books

01. Leslie Cromwell, Fred J.welbell, Erich A. Pfeiffer, Biomedical Instrumentation and

Measurements, prentice -hall of India, 1980.

02. L.A. Geddes, L.E.baker, Principles of Applied Biomedical Instrumentation, John

Wiley, 1989. 03. B.Jacobson, J.G.Webster, medical and clinical engineers, prentice hall, 1979.

03. R.S.Khandpur, Handbook of biomedical instrumentation, Tata McGraw Hill, 1987.

04. M.Arumugam, Biomedical Instrumentation, Anuradha Publishers, 1992.

BEICEI 704 R01 ANALYTICAL INSTRUMENTATION Credits: 4


UNIT I 15 PERIODS

Electromagnetic radiation-characteristics - interaction of E.M. radiation with matter - spectral

methods of analysis - absorption spectroscopy - Beer's law - radiation sources – mono

chromators - filters - prisms - diffraction grating - ultraviolet spectrometer - single beam and

double beam instruments - Infra-red spectrophotometers - radiation sources-celIs-detectors -

sample preparation - analysis using attenuated total reflectance (ATR).

UNIT II 15 PERIODS

Methods of analysis in gas chromatography - column details - detectors - thermal

conductivity detectors, flame ionization detectors - flame photometric detectors - electron capture detectors. Liquid Chromatography - precolumn - separation column detectors - High

pressure Liquid Chromatography.

UNIT III 15 PERIODS

pH measurement - glass and calomel electrodes - measuring circuits-water purity meter -

steam purity meter - dissolved oxygen meter-sodium analyzer - flue gas analyzer - oxygen

analyzer using paramagnetic, zirconium, depolarization principle - dust and smoke meters -

CO,SOX/NOX analyzers.

UNIT IV: 15 PERIODS

Particles emitted in radioactive decay - nuclear radiation detectors - ionization chamber -

GeigerMuller counter - proportional counter - scintillation counter - semiconductor detectors.

X-ray spectroscopy - X-ray fluorescence spectrometer - X-ray diffraction - NMR and its

applications - Mass spectroscopy.

Reference Books

01. Willard Merrit, Dean Instrumental Methods of Analysis, Van Nostrand Co., 1965

02. R.K.Jain, Fundamentals of Mechanical and instrumental Instruments, Khanna

publishers, 1986.

03. C.K.Mann, J.J.Vickesr, W.H.Gullick, Instrumental analysis, Harper and Row

Publishers, 1974.

BEIDEI 701 R01 INSTRUMENTATION SYSTEM DESIGN Credits: 4

No. of contact periods: 60 UNIT I: 15 PERIODS Orifice meter - design of orifice foe given flow condition - design of rotameter - design of RTD measuring circuit -design of cold junction compensation circuit for thermocouple using RTD transmitters - zero and span adjustment in D/P transmitters and temperature transmitters.

UNIT II: 15 PERIODS

Bourdon gauges -factors affecting sensitivity- design of Bourdon tube- Design of Air purge

system for level measurement- Electronic P+I+D controllers- design - adjustment of set

point, bias and controller settings.

UNIT III 15 PERIODS

Control valves-design of actuators and positioners- types of valve bodies- valve

characteristics materials for body and trins- sizing of control valves- types of pumps- pump

performance- pump noise and vibration- selection of pumps. UNIT IV 15 PERIODS Design of logic circuits for alarm and Annunciator circuits- design of microprocessor based system for data acquisition- microprocessor based P+I+D controller.

Reference Books

01. N.A.Anderson, Instrumentation for Process Measurement and control, Chilton

Company, 1980.

02. D.M.Considine, Process Instruments and Controls Handbook, Mc Graw- Hill, 1985.

03. R.H.Warring, Pumping Manual, Gulf Publishing Co., 1984.

04. J.P.Benley, Principles of Measurement Systems, Longman Inc., 1983

05. C.D.Johnson, Process Control Instrumentation Technology, Prentice Hall of lndia,

1998.

BEIDEI 702 PROCESS MODELLING & SIMULATION

Credits: 4


UNIT I: 15 PERIODS Modeling formulation by Mass & Energy balance for mechanical, Chemical and thermal systems - Linearisation techniques - Brief review of first, second, lead / lag and inverse response processes - Matlab functions.

UNIT II: 15 PERIODS Non linear systems-phase plane analysis-nonlinear dynamics-growth model-bifurcation

theory-single and two state systems

UNIT III: 15 PERIODS Chaos-Lorenz equation-stirred tank heaters-CSTR-chaos in chemical systems. .

UNIT IV: 15 PERIODS

Model analysis of distillation-absorption columns - diabatic reactors

Reference Books:

01. B.Wayne Bequette, Process Dynamics, PH Int. Inc.m, NY(2004)

BEIDEI 703 R01 INSTRUMENTATION IN PETROCHEMICAL

INDUSTRIES

Credits: 4


UNIT I: 15 PERIODS

Introduction to petrochemicals - general physical and chemical properties and method of

production with flow charts of petrochemicals- ethylene, propylene, benzene and its

derivatives, toluene, xylene, butadiene, vinyl chloride, formaldehyde.

UNIT II: 15 PERIODS

Qualitative study of unit operation with an understanding of operating variables: distillation,

absorption, extraction and leaching.

UNIT III: 15 PERIODS Qualitative study of unit operation and processes with an understanding of operating variables evaporators, reactors, crystallizers and driers. UNIT IV: 15 PERIODS Study of process control systems for the production of formaldehyde, ethylene, propylene, butadiene, vinyl chloride, benzene, polyethylene, polypropylene, benzene hexachloride, nylon.

Reference Books

01. A.L.WADDAMS, Chemicals from petroleum, third edition, John Murray, London, 1973.

02. J.G.BALCHEN and KJ.MUMME, Process control structures and applications, VanNostrand Reinhold Co., 1988.

03. WARREN L.McCABE, JULIAN C.SMITH and PETER HARRIOTT, Unit Operations of Chemical Engineering, McGraw Hill, 1988.

04. GEORGE T.AUSTIN, Shreeve's Chemical Process Industries, fifth edition, McGraw Hill 1984.

BEIDEI 704 R01 SEMICONDUCTOR SENSORS & APPLICATIONS

Credits: 4


UNIT I: 15 PERIODS

Classification and fabrication: Sensor characterization - evaluation of semiconductor sensors

semiconductor sensor technologies - basic fabrication process - micromechanical process

design - bulk micro matching - surface micro machining - other micro machining

UNIT II: 15 PERIODS

Acoustic and mechanical sensors: Piezo electric materials - acoustic sensing - SAW sensors

Piezo resistivity - Piezoresistive sensors - capacitive sensors - applications.

UNIT III: 15 PERIODS Magnetic and radiation sensors: Integrated Hall's sensors - Magneto transistors -Other

magnetic sensors - Infrared sensors - Visible light colour sensors - High energy photodiodes -

silicon drift chamber X-ray sensors - Applications.

UNIT IV: 15 PERIODS

Thermal sensors and solar cells :Thermal sensing elements -thermal and temperature sensors

basic principle of solar cells - VI characteristics - response - Hetero junction and cascaded

solar cells Schottky barrier cells - design consideration -applications.

Reference Books

01. Simon M.Sze, Semiconductor Sensors, John Wiley, New York, 1996.

02. Pallab Bhattacharya, Semiconductor and optoelectronic devices, PHI, 1994. 03. Size, Semiconductor devices, Willey Eastern, Bangalore, 1996.

BEICEI 705 R01 BIOMEDICAL INSTRUMENTATION LAB (Any 12 experiments to be done)

(Credits-2)

1. Analysis of segments and intervals using PC based ECG.

2. Time and frequency domain analysis using PC based EEG.

3. Study of Endoscopy.

4. Image scanning using ultrasonography.

5. Heart rate measurement using IR sensor.

6. Characteristics of hearing through audiometer.

7. Analysis of given signal using Lab view.

8. Physiological modeling using Matlab simulink .

9. Measurement of various lung parameter using Respiration analyzer.

10. Measurement of blood pressure using sphyghnomanometer.

11. Study of skeleton & clay models.

12. Study of EMG system.

13. Image analysis using high resolution CCD camera. .

14. Study of blood flow meter.

15. Conductivity studies on blood & skin.

BEICEI 706 R01 PROCESS CONTROL LAB (Credits-2)

1. Realization on-off control in pressure process station and input and output

characteristics.

2. Study of pressure process station

3. Study of flow process station

4. Study of Temperature process station

5. Study of Level process station

6. Configuration of AIs, AOs, DIs & DOs using PLC

7. Design of interlock based on ladder logic and alarming

8. Calibration of pressure gauge using dead weight tester

9. Realization of relay logic latching concept

10. Alarm Enunciator for PLC & DCS

11. Calibration of PID controller

12. Frequency response analysis

VIII Semester

Course Code

Name of the Course

Periods/Week

No. of

Credits L T P


BEICEI 801 Project Work 9

BEIOEI 801 Open Elective – I 3 0 0 3

BEIOEI 802 Open Elective – II 3 0 0 3

BEIOEI 803 Open Elective – III 3 0 0 3

BEIOEI 804 Open Elective – IV 3 0 0 3

Total 12 0 0 21

Note: If all the 4 or some open electives are opted by students in previous semesters evening

class, they can drop it during this semester or do the left out ones here.

Syllabus for EIE Students Admitted From 2007 Onwards

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Transcript of Syllabus for EIE Students Admitted From 2007 Onwards