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Electronics and Instrumentation Engineering (EI)

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EN010301A ENGINEERING MATHEMATICS II

(Common to all ranc!es e"ce#t CS $ IT)

Teac!ing sc!eme Credits% &

2 hours lecture and 2 hour tutorial per week

'ecties1 To apply standard methods and basic numerical techniques for solving problems and to

know the importance of learning theories in Mathematics.

M'*+,E 1 Vector differential calculus ( 12 hours)

Scalar and vector fields gradient-physical meaning- directional derivative-divergence an

curl - physical meaning-scalar potential conservative field- identities - simple prolems

M'*+,E - Vector integral calculus ( 12 hours)

!ine integral - work done y a force along a path-surface and volume integral-applicationof "reens theorem# Stokes theorem and "auss divergence theorem

M'*+,E 3 $inite differences( 12 hours)

$inite difference operators and - interpolation using %ewtons forward and

ackward formula prolems using Stirlings formula# !agrange&s formula and %ewton&s divided

difference formula

M'*+,E & 'ifference alculus ( 12 hours)

%umerical differentiation using %ewtons forward and ackward formula %umerical

integration %ewton&s cotes formula rape*oidal rule Simpsons 1+, rdand ,+thrule 'ifference

e.uations solution of difference e.uation

M'*+,E . / transforms ( 12 hours)

'efinition of / transforms transform of polynomial function and trignometric functions

shifting property # convolution property - inverse transformation solution of 1st and 2

nd order

difference e.uations with constant coifficients using / transforms0

Reerence

10rwin reys*ing 3dvance ngg0 4athematics 5iley astern !td0

20 60S0 "rewal 7igher ngg0 4athematics - hanna 8ulishers

,0 60V0 9amana - 7igher ngg0 4athematics 4c"raw 7ill

:0 Venkataraman- %umerical methods in science and ngg -%ational pulishing co

;0 S0S Sastry - an and 09amachandran- %umerical 4ethods- 4c"raw 7ill

?0 6au 9am ngg0 4athematics -8earson0

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0 700ane>a 3dvanced ngg0 4athematics Vol <

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EN010 30- Economics and Communication Sills(ommon to all ranches)

Teac!ing sc!eme

-!ours lecture and - !ours tutorial #er 2ee Credits% &(31) 'ecties

1 o impart a sound knowledge of the fundamentals of conomics0

Economics

Module I (? hours)

9eserve 6ank of

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Communication Sills

'ecties

1 o improve !anguage 8roficiency of the ngineering students

2 o enale them to e@press themselves fluently and appropriately in social andprofessional conte@ts

, o e.uip them with the components of different forms of writing

M'*+,E 6 1 (1. !ours)

endra 0 Sharma# S00ataria and sons# 2DD?

20 ommunication skills for ngineers and Scientists# Sangeeta Sharma and 6inod 4ishra#87< !earning private limited# 2D1D

,0 8rofessional ommunication# umkum 6hardwa>#

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EI010 303 Net2or T!eor7

(Common to AI010 303, EC010 303 and IC010 303)

Teac!ing sc!eme Credits% :2 hours lecture and 2 hours tutorial per week

'ecties

1 To study time domain, phasor and Laplace transform methods of linear circuit analysis

Module I (1- !rs)

9eference directions for two terminal elements - irchhoff&s !aws -

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$re.uency 9esponseE %etwork functions in the sinusoidal steady state with s F > 4agnitude and

8hase response - 4agnitude and 8hase response of $irst order !ow pass and 7igh pass 9 circuits

- 6ode 8lots $irst order and Second order factors0

wo port networksE haracteri*ation in terms of

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EI010 30& Electronic *eices and Circuits I

Teac!ing sc!eme Credits% :, hours lecture and 1 hour tutorial per week

'ecties

10 To provide adequate knowledge to various electronic devices and electronic circuits.

20 To impart the basic concepts of electronic devices such as diodes, "%T, &ET and M'$&ET.,0 To give a basic introduction of different types of special devices.

:0 To have an adequate knowledge in power supplies and wave shaping circuits.

;0 To provide basic knowledge in transistor biasing and amplifier configurations.

Module 1 (1- Hours)

6and theory of solidsE nergy and structure of 4etals# Semi conductors and unction 'ifferent techni.ues

Module - (1- Hours)

6ipolar Cunction ransistorsE $undamentals of 6C operation- 3mplification with 6C-Switching--'rift in

ase regionH6ase narrowingH$re.uency limitations of transistors0

$ield ffect ransistorsE 6asic structure- Aperation- 8inch off and saturationHV < characteristics0

4AS$SE n 4AS and p 4AS- nhancement and 'epletion typesH4AS capacitance0

Module 3 (1- Hours)

Special 'evicesE unnel diode#

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'ifferent transistor amplifier configurations omparison -- h parameter model analysis of

configuration0

Te"t 5oos%:

10 Streetman# 60 and San>ay# 60# JSolid State lectronics 'evicesK# 8earson ducation0

20 6oylsted and %ashelsky# Jlectronic 'evices and ircuit heoryK# 8rentice 7all of

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EI010 30. 5asic Instrumentation


'ecties

10 To create a strong base in the fundamental philosophies of #nstrumentation engineering.

20 To study the different instruments, different static and dynamic characteristics of instruments,performance, errors etc.

,0 To give basic knowledge in different types of electrical machines used in instrumentation field.:0 To have an adequate knowledge in fluid mechanics and air compressors.

;0 To give an idea about unit operations and different process involved in a process industry.

Module 1 (1- Hours)

7istorical development of

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Module . (1- Hours)

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EI010 30; C'M

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EI010 30> Electronic Circuits ,a I

Teac!ing sc!eme Credits% 2, hours 8ractical per week

10 $amiliari*ation of 4ulti meter# Signal generators# 9A# 'V4 etc and measurement of electrical

.uantities (V#

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EN010&01 Engineering Mat!ematics III

(ommon to all ranches)



'ectiesEpply standard methods of mathematical -statistical analysis

M'*+,E 1 $ourier series ( 12 hours)

'irichlet conditions $ourier series with period 2 and 2l 7alf range sine and cosine series

7armonic 3nalysis r0m0s Value

M'*+,E - $ourier ransform ( 12 hours)

Statement of $ourier integral theorem $ourier transforms derivative of transforms-

convolution theorem (no proof) 8arsevals identity

M'*+,E 3 8artial differential e.uations ( 12 hours)

$ormation y eliminating aritrary constants and aritrary functions solution of !agrange&s e.uation

harpits method solution of 7omogeneous partical differential e.uations with constant coefficients

M'*+,E & 8roaility distriution ( 12 hours)

oncept of random variale # proaility distriution 6ernoulli&s trial 'iscrete distriution 6inomial

distriution its mean and variance- fitting of 6inominal distriution 8oisson distriution as a limiting

case of 6inominal distriution its mean and variance fitting of 8oisson distriution continuous

distriution- Bniform distriution e@ponential distriution its mean and variance %ormal

distriution Standard normal curve- its properties

M'*+,E . esting of hypothesis ( 12 hours)

8opulations and Samples 7ypothesis level of significance type < and type

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0 Veerara>an ngg0 4athematics 4c "raw 7ill

=0 "0 7ariaskaran 8roaility# Iueueing theory and reliaility ngg0 !a@mi 8ulications

?0 V0 Sundarapandian - proaility #Statistics and Iueueing theory 87a 3dvanced ngg0 4athematics Vol

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4ahatma "andhi Bniversity

EN010 &0-(ME)% ectives of personnel management-

4anpower planning- 9ecruitment and Selection of manpower- raining and development of

manpower- !aour welfare- !aour turnover- Iuality circle- ect planning with 84 and 89- 6asic concepts in

network0

Module I4 (1- !ours)

&inancial ManagementE A>ectives and $unctions of $inancial 4anagement- ypes ofapital- $actors affecting working capital- 4ethods of financing0

Cost ManagementE lements of cost- omponents of cost- Selling 8rice of a product0

Module 4 (1- !ours)

$ales and Marketing ManagementE Sales management- oncept- $unctions of sales

department- 'uties of sales engineer- Selling concept and 4arketing concept- 4arketing-

'efinition and principles of marketing- 4arketing management and its functions- Sales

forecasting- 8ricing- 3dvertising- Sales promotion- hannels of distriution- 4arketresearch0

Te"t 5oos

10 oont* and 5eihrich#Essentials of Management# ata 4c"raw 7ill0

20 4aha>an 40##ndustrial Engineering and (roduction Management# 'hanpat 9ai and o0

,0 emthose and 'eepak##ndustrial Engineering an Management,8rentice 7all of

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EI010 &03 Signals and S7stems

(Common to AI 010&03 and EC010 &03)

Teac!ing sc!eme Credits% :

2 hours lecture and 2 hours tutorial per week

'ecties

To study the methods of analysis of continuous time and discrete time signals and systems to

serve as a foundation for further study on communication, signal processing and control

Module I (1- !rs)

lassification of signalsE ontinuous time and 'iscrete time# ven and Add # 8eriodic and %on-

periodic # nergy and 8ower 6asic operations on signalsE Aperations performed on the dependent

variale # operations on the independent varialeE Shifting # Scaling lementary 'iscrete time and

ontinuous time signalsE @ponential # Sinusoidal # Step #

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SamplingE he sampling theorem 9econstruction of a signal from its samples using interpolation

3liasing

Module 4 (1- !rs)

6ilateral !aplace ransform 9A

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EI010 &0&% *IGITA, E,ECTR'NICS(Common to AI010&0& = EC010&0& and IC010&0&)

Teac!ing

sc!eme

Credits

% &

, T < % 3 1 0

'ecties

1 To /ork with a variety of number systems and numeric representations,including signed and unsigned binary, he0adecimal, 1)s complement.

2 To introduce basic postulates of "oolean algebra and show the correlationbetween "oolean e0pression.

, To introduce the methods for simplifying "oolean e0pressions.

: To outline the formal procedures for the analysis and design ofcombinational circuits and sequential circuits.

Module I (1-!ours)

8ositional %umer SystemE 6inary# Actal# 'ecimal# 7e@adecimal numer system# %umerase conversions# complements - signed magnitude inary numers - 6inary 3rithmetic-addition# sutraction - 6inary codes- 5eighted# 6'# :21# "ray code# @cess , code#3S

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Reerence 5oos

10 'onald ' "ivone#2igital (rinciples and 2esign# ata 4c"raw 7ill# 2DD,0

20 " harate#2igital Electronics# A@ford university press# 2D1D

,0 9onald C occi#2igital $ystems# 8earson ducation# 1Dth

edition 2DDM0:0 homas ! $loyd#2igital &undamentals# 8earson ducation#

thedition# 2DD,0

;0 'onald 8 !each# 3lert 8aul 4alvino#2igital (rinciples and pplications# ata 4c"raw7ill =

thedition# 2DD=0

=0 harles 709oth# &undamentals of Logic 2esign# homson 8ulication ompany;

thedition# 2DD:0

?0 4ilos rcegovac, #ntroduction to 2igital $ystems# 5iley

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EI010 &0. Electronic Instrumentation


'ecties

10 To equip the students to apply all types of common electrical and electronic instruments withthe knowledge about the construction and working of the instruments.

20 To provide the details of various electronic instruments which are used to measure current,voltage, power, energy, resistance, capacitance and inductance.

,0 To introduce the construction and working of different types of ammeters, voltmeters andbridges.

:0 clear idea has been given about digital electronic instruments which are used to measurevoltage, frequency, period, total count etc.

;0 n e0posure is given to the student about signal generation, display and recording deviceswhich help in analysing and displaying the data.

Module 1 (1- Hours)

4easurement of electrical parametersE ypes of ammeters and voltmeters 8rinciple of operation #

construction and sources of errors and compensation of d&3rsonval galvanometers - 844

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Module . (1- Hours)

'isplay and 9ecording devices E athode 9ay Ascilloscope lassification - Sampling and storagescopes- 'igital Storage Asilloscope ('SA)- ypical measurements using 9A- 8roes for 9A-3pplications of 9A0

'isplay devicesE lassification of 'isplays- !'- !'- Seven segment and dot matri@ displays -ypical uses of display devices

9ecordersE Strip chart recorders- "alvanometric recorders- %ull type recorders- ircular chart

recorders- PN recorders BV recorder-4agnetic tape recorders 'igital waveform recorders- $4

recorders- 'ata loggers- 8rinters0

Te"t 5oos

10 alsi 70S0# Jlectronic

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EI010 &0; Electronic *eices and Circuits II


'ecties

10 To study the working, analysis and design of 3C coupled and &ET amplifiers.

20 To get an idea about feed back amplifiers and oscillators.

,0 To familiarie with different types of amplifier circuits.

:0 To have an adequate knowledge in multivibratotrs and power amplifiers.

Module 1 (1- Hours)

ransistor amplifiersE 9 coupled amplifierH5orkingH3nalysis and design $re.uency responseH

6and width0

$ amplifierE $ iasingH3nalysis and design $ common source amplifierH$ source

followerHomparison of $ with 6C0

Module - (1- Hours)

$eedack amplifiersE %egative and positive feedack - 'ifferent types of negative feedack amplifier

- Voltage shunt - Voltage series - urrent shunt - urrent series

AscillatorsE ondition for oscillation - 6ark7ausen criteria --9 oscillators 9 phase shiftH

5ienridge-- ! oscillators - 7artley # olpitts # lapp# rystal oscillator 0

Module 3 (1- Hours)

3mplifier circuitsE mitter follower- 'arlington emitter follower- ascade amplifier- ascode

amplifier- 'ifference amplifier- uned amplifier - 8rinciple - Single tuned and doule tuned

amplifiers- $re.uency response- 3pplications (no analysis)- 4ulti stage amplifiers- $re.uency

response0

Module & (1- Hours)

4ulti viratorsE 3nalysis and design of 3stale# 4onostale and 6istale multi virators0

3pplicationsHSchmitt triggerH5orking- 'esign0 Sweep generator- Voltage and current sweeps-

ime ase generators- 4iller and oot strap sweeps- 3pplications0

Module . (1- Hours)

8ower amplifiersE lassification- lass 3 # lass 6Q lass 36# lass and class '0 ransformer

coupled class 36 8ower amplifier - ransformer less class 36 -8ush pull 8ower amplifier--

complementary symmetry power amplifier--7armonic distortion in 8ower amplifiers --ransistor

rating --7eat sinks --Switching amplifiers 0

Reerences%

10 6oylsted and %ashelsky# Jlectronic 'evices and ircuit heoryK# 8rentice 7all of

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EI010 &0> Electronic Circuits ,a II

Teac!ing sc!eme Credits% 2

, hours 8ractical per week

10 3mplifying circuits

1) 'esign of 9 coupled amplifier (with and without feed ack)---gain and andwidth0

2) ommon source $ amplifier

20 8ower amplifiersE 'esign of class 3# class 6# class 36

,0 AscillatorsE 'esign of 9 phase shift# 5ein ridge# 7artleyG olpitts

:0 'esign and testing of ascade amplifiers0 $re.uency response

;0 'esign and testing of uned amplifiersH$re.uency response

=0 4ultiviratorsQ 3stale# 4onostale# 6istale0

?0 Schmitt trigger

0 'esign of sweep generators-Simple and 6oot strap

M0 S9# 9

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EI010 &0? (S) 5asic Instrumentation ,a

Teac!ing sc!eme Credits% 2

, hours 8ractical per week

1) 4easurement of !# # 9 using ridges

2) 4easurement of arth resistance0

,) onstruction and testing of a digital fre.uency +phase meter

:) onstruction and testing of a digital volt meter gating circuit

;) onstruction and testing of a true 94S volt meter

=) onstruction and testing of a $ input volt meter

?) onstruction and testing of a multi range rectifier type volt meter and ammeter

) aliration of voltmeter and ammeter using precision potentiometer

M) aliration of wattmeter

1D) aliration of energy meter

11) Bsage of 'igital storage oscilloscope

12) @perimental verification of 6ernoulli&s theorem

1,) 'etermination of 9eynolds numer

1:) aliration of Venturi meters

1;) aliration of Arifice meter1=) aliration of %otches

1?) est to estimate frictional losses in pipe flow0

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EN010.01A ENGINEERING MATHEMATICS I4

(Common to all ranc!es e"ce#t CS $ IT)



'ecties% se basic numerical techniques to solve problems and provide scientific techniques to

decision making problems.

M'*+,E 1 $unction of omple@ variale (12 hours)

3nalytic functions 'erivation of 090 e.uations in cartision co-ordinates harmonic and orthogonal

properties construction of analytic function given real or imaginary parts comple@ potential

conformal mapping of *2# : 6ilinear transformation cross ratio invariant property (no proof)

simple prolems

M'*+,E - omple@ integration (12 hours)

!ine integral auchy&s integral theorem auchy&s integral formula aylor&s series- !aurent&s series

/eros and singularities types of singularities 9esidues 9esidue theorem evaluation of real

integrals in unit circle contour integral in semi circle when poles lie on imaginary a@is0

M'*+,E 3 %umerical solution of algeraic and transcendental e.uations (1D hours)

Successive isection method 9egula falsi method %ewton 9aphson method - Secant method

solution of system of linear e.uation y "auss Seidel method

M'*+,E &%umerical solution of Ardinary differential e.uations ( 1D hours)

aylor&s series method uler&s method modified uler&s method 9unge utta method (

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;0 'r040 Venkataraman- %umerical methods in science and ngg -%ational pulishing co

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S0S Sastry -

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EI010 .0- Industrial Electronics and A##lications(Common to AI010 .0- and IC010 .0-)


, hours lecture and 1 hour tutorial per week

Module 1

8ower semiconductor 'evices-ratings and specification -8ower diodes power transistor power

4AS$ - characteristics of S9# riac

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EI010 .03 ,inear Integrated Circuits and A##lications



'ecties

1) To study different parameters, characteristics of op4 mps

2) To know about the different applications of op4 mp

,) To give the basic concepts of special #Cs like timers, (LL, regulators etc.

:) To introduce the theory and applications of 2C and 2C.

Module 1 (1- Hours)

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9amakant 30"ayakward# LAp-amps and !inear

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EI010 .0& Transducer Engineering


'ecties

1) This course introduces the various types of transducers and their working principle.

2) To give an insight about classification and characteristics of transducers

,) To have an adequate knowledge in passive transducers.

:) To obtain a basic knowledge in active and digital transducers and e0posure to other specialtransducer.

Module 1 (1- Hours)

'efinition of ransducers- 9ole of transducers in instrumentation- 3dvantages of electrical

transducers - lassification of transducers- 3nalog and 'igital# 3ctive and passive# 8rimary and

Secondary transducers-

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300 Sawhney# 3 course in mechanical measurements and instrumentation0# 'hanpat 9ai0

20 6 S Sonde# ransducers and 'isplay Systems# ata 4c "raw 7ill# %ew 'elhi

,0 8atranais# '# Sensors and ransducers# 5heeler 8ulishing o0# !td0 %ew 'elhi

:0 9enganathan# S0# ransducer ngineering# 3llied 8ulishers# hennai

;0 3lan S 4orrisE 4easurement and instrumentation principles0 lsevier0

=0 7ermann 080 %euert# L

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EI010 .0. Control Engineering I(Common to AI010 .0.)

Teac!ing sc!eme Credits% :2 hours lecture and 2 hour tutorial per week

'ecties

1) To give the fundamental concept of the analysis and design techniques of control systems bytransfer function approach.

2) To get an adequate knowledge in the time response of systems and steady state error analysis.,) To learn the concept of stability of control system and methods of stability analysis.

:) To study the three ways of designing compensation for a control system.

;) To get an e0posure to MT lab programs for control system analysis0

Module 1 (1- Hours)

System modeling - ransfer function approach E

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Reerences

10 4odern control engineering atsuhiko Agata# 8earson dn0

20 ontrol systems principles and designE 40 "opal# 470,0 3utomatic control system 600 uo# 87

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EI010 .0; Micro#rocessors $ Microcontrollers(Common to AI010 .0; and IC010 .0;)



'ecties

10 To Create an e0posure to basic microprocessors, peripherals and its programming.

20 To impart the basic concepts of advanced microprocessors.

,0 To have an adequate knowledge in 54bit microcontrollers.:0 To provide the basic concepts of programming in 5678.

;0 To provide basic knowledge in 3#$C.

Module 1

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rates- power on reset circuit- A% mode- on chip oscillator interrupts - interrupt sources - interrupt

enale register -interrupt priority - interrupt control system - interrupt handling #single step operation0

8rogramming e@amples

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EI010 .0> Instrumentation la I

10 Strain gauge G !oad cell characteristics0

20 !'9 and Apto coupler characteristics0

,0 apacitive G 8ie*oelectric transducer0

:0 8hoto electric G 7all effect transducers0

;0 !V' and acho generator haracteristics

=0 9'# hermocouple and hermistor characteristics

?0 4easurement of 87 and water conductivity0

0 haracteristics of stepper motor and servo motor0 0

M0

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EI010 .0? Integrated Circuits ,a

Teac!ing sc!eme Credits% 2, hours 8ractical per week

10 Ap-3mp configurations-

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EI 010 ;01

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Te"t 5oos%

10 "eorge StephenopoulosE Chemical (rocess Control,

20 'onald 80 ckman#utomatic (rocess Control

,0 8eter 7arriot E(rocess Control#47#1M;0

:0 ' 9 oughanowrE(rocess $ystems nalysis and Control# 4c"raw 7ill0

Reerences%

10 8atranais 'E(rinciples of (rocess Control# 47# 1M10

20 60" !iptak#(rocess Control,hilton 6ook ompany

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EI010 ;0- *IGITA, SIGNA,

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Module 4 (1- !rs)

he 'iscrete $ourier ransform - 9elation with '$ 8roperties of '$ !inearity ircular shift

'uality Symmetry properties ircular convolution !inear convolution using the '$ !inear

convolution of two finite length se.uences !inear convolution of a finite length se.uence with an

infinite length se.uence Averlap add and overlap save omputation of the '$ 'ecimation in time

and decimation in fre.uency $$ $ourier analysis of signals using the '$ ffect of windowing

9esolution and leakage ffect of spectral sampling0

Reerences

10 3 V Appenheim# 9 5 Schaffer#2iscrete Time $ignal (rocessing# 2nd

dition

8earson ducation0

20 S 4itra#2igital $ignal (rocessing* Computer "ased pproach ,47

,0 C " 8roakis# ' " 4anolakis#2igital $ignal (rocessing* (rinciples, lgorithms and pplications#

87

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EI 010 ;03 Industrial Instrumentation I(Common to AI010 ;03 and IC010 ;03)

Teac!ing sc!eme CreditsE :, hours lecture and 1 hour tutorial per week

'ecties

10 To provide e0posure to various measuring techniques for force, torque velocity, acceleration,

vibration, density, pressure and temperature.

20 t the end of the course the student will have an indepth knowlwdge in units, different

techniques, and significance of measuring devices.

Module 1 (1- !ours)

4easurement of $orce# or.ue# Velocity E-

6asic methods of measurement of force (weight) Escales and alances- mechanical alances- electromagnetic alance 'ifferent types of load cells E hydraulic load cells - pneumatic loadcell - magnetoelastic (pressductor)- strain gauge loadcell - proving ring0

'ifferent methods of tor.ue measurementE Strain gauge# 9elative regular twist-measurement of tor.ue

with spur gears and pro@imity sensors0

Speed and velocity measurementE 9evelution counter- apacitive tachometer -'rag cup type tacho

meter- '0 and 30 tacho generators Strooscope- translational velocity transducers0 Velocity

measurement using variale reluctance pro@imity pickup0 aliration methods0

Module - (1- !ours)

4easurement of acceleration# viration and density E-

3ccelerometers potentiometric type !V'- 8ie*o-electric# capacitive - Strain gauge and varialereluctance type accelerometers0

4echanical type viration instruments Seismic instrument as an accelerometer and virometer

measurement of relative motion - aliration of viration pick ups

Bnits of density# specific gravity and viscosity used in industries 6aume scale 38< scale hydrometer- density measurement using !V'- differential pressure method- pressure head type

densitometer float type densitometer Bltrasonic densitometer 6ridge type gas densitometer-

coriolis densitometer0 0

Module 3 (1- !ours)

8ressure measurement E - Bnits of pressure different types of pressure - 4anometers 'ifferent

types errors in manometers- lastic type pressure gauges 6ourden tue - 6ellows 'iaphragms

lectrical methods lastic elements with !V' and strain gauges potentiometric pressure

transducers- apacitive type pressure gauge 8ie*o electric pressure sensor 9esonator pressure

sensor optical pressure transducers- pressure switches- 4easurement of vacuum 4c!eod gauge

hermal vacuum gauges

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emperature measurement E - 'efinitions and standards 8rimary and secondary fi@ed points

aliration of thermometers - 'ifferent types of filled in system thermometer Sources of errors in

filled in systems and their compensation 6imetallic thermometers lectrical methods of

temperature measurement resistance thermometers-, lead and : lead 9's - hermistors

!ineari*ation techni.ues0

Module . (1- !ours)

hermocouples thermocouple >unctions- !aw of thermocouple $arication of industrial

thermocouples Signal conditioning of thermocouple output ommercial circuits for cold >unction

compensation Special techni.ues for measuring high temperature using thermocouples 9adiation

methods of temperature measurement 9adiation fundamentals otal radiation pyrometers Aptical

pyrometer infra red pyrometers- wo colour radiation pyrometer0-

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EI 010 ;0& *ata Ac@uisition and Communication


'ecties

10 To get an awareness of modern data acquisition system

20 To help students understand different types of data acquisition boards.

,0 To give an idea about industrial communication systems.

Module 1 (1- !ours)

$undamentals of data ac.uisitionE ransducers and sensors# $ield wiring and communications caling#

Signal conditioning# 'ata ac.uisition hardware# 'ata ac.uisition software# 7ost computer0

'ata ac.uisition and control system configuration %omputer plug-in

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Coseph C0 arr# 'ata ac.uisition and controlE microcomputer applications for scientists andengineers# a 8rofessional and 9eference 6ooks0

10 V0B06akshi B0306akshi# 4easurements 3nd

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EI 010 ;0. Control Engineering II(Common to AI010 ;0. )

Teac!ing sc!eme CreditsE :2 hours lecture and 1 hour tutorial per week

'ecties

10 To study the modeling of the systems using $tate $pace methods

20 To learn $tate variable analysis and design of continuous time systems

,0 To get an e0posure to digital control systems.

:0 To understand the basic concepts of nonlinear systems

Module 1 (1- Hours)

System modeling using state variale approach -!imitation of onventional ontrol heory0 oncepts

of state variales and state model - State model for linear time invariant systems0-State spacerepresentation of dynamic systems %onuni.ueness of state model- 6lock diagram representations-

State diagrams- !agrange&s e.uations 0

Module - (1- Hours)

ransformation of state variales- State space representations of transfer functions- Solution of

differential e.uations in state space form-

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EI 010 ;0; ,01 *igital S7stem *esign

Teac!ing Sc!eme Credits%&


'ecties

10 To design and implement combinational circuits using basic programmable blocks

20 To design and implement synchronous sequential circuits

,0 To study the fundamentals of 9erilog :2L

:0 bility to simulate and debug a digital system described in 9erilog :2L

Module 1 (1-!ours)

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7ill# 2DD20

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Samir 8alitkar# 9erilog :2L ;uide To 2igital 2esign nd $ynthesis# 8earson# 2nd

edition# 2DD,0

,0 8eter C 3shenden J'igital 'esign# an emedded system approach using VerilogK lsevier#2DD

:0 $rank Vahid#2igital 2esign# 5iley 8ulishers0

;0 9 8admanahan# 'esign through Verilog 7'!#

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EI010 ;0; ,;0-% *ataase Management S7stems(Common to EC010 ;0; ,0-)


'ecties

1 To impart an introduction to the theory and practice of database systems.

2 To develop basic knowledge on data modelling and design of efficient relations.

, To provide e0posure to oracle database programming.

Module I (10 !ours)

6asic oncepts - 8urpose of 'ataase Systems- , Schema 3rchitecture and 'ata

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Reerence 5oos

10 lmsari and %avathe#&undamentals of 2atabase $ystem,8earson ducation 3sia#

;th

dition# %ew 'elhi# 2DD020 7enry $ orth# 3raham Silershat* #2atabase $ystem Concepts# 4c "raw 7ill

=td

dition# Singapore# 2D110

,0 lmsari and %avathe#&undamentals of 2atabase $ystem,8earson ducation 3sia#

,rd

dition# %ew 'elhi# 2DD;# for oracle

:0 3le@is !eon and 4athews !eon#2atabase Management $ystems# !eon vikas

8ulishers# %ew 'elhi0

;0 %arayanan S# Bmanath and 9ichard 50Scamell, 2ata Modelling and 2atabase

2esign,Cengage !earning# %ew 'elhi# 2DDM0

=0 S0 Singh#2atabase $ystems Concepts,2esign and pplications,8earson ducation

3sia# %ew 'elhi# 2DD=0

?0 8rana umar 'as "upta#2atabase management $ystem 'racle $

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EI 010 ;0; ,03 Com#uter net2ors


'ecties

1) To understand the concepts of computer networks

2) To study the functions of different layers.

,) To introduce #EEE standards employed in computer networking.

:) To make the students to get familiaried with different protocols and network components.

Module 1 (1- !ours)

%etwork goals -topologies- configurations-concept of internet-

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EI 010 ;0; ,0& Micro:controller 5ased S7stem *esign


'ecties

10 To give an idea about micro controllers and its interfacing techniques.

20 To get an e0posure in microcontroller programming

Module 1

Various logic families features comparison 8!3 83!- "3! - comparison cominational

83! 83! with flip-flops study of 1=!# 22V1D "3! dual port 934 $

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10 he D;1 4icrocontrollerE 4uhammad 3li 4a*idi# 8earson ducation0

20 he D;1 4icrocontrollerE enneth C 3yala# 8enram

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EI 010 ;0; ,0. Telemetr7 and Remote Control

Teac!ing sc!eme CreditsE :


'ecties

10 To study the concepts of classical telemetry systems

20 To get an e0posure to radio and satellite telemetry systems.

,0 To learn the fundamentals of optical telemetering systems.

:0 To understand the essential principles of telecontrol systems and installation

Module 1

$undamental concepts functional locks of telemetry and telecontrol systems -elemetry methods-

lassical ones- 8neumatic and electrical telemetry- lectrical telemetry systems-Voltage# current#

position telemetry- 8rinciples of optical telemetry0

Module -

9adio telemetryE 9$ modulation methods- 4ultiple@ing techni.ues- '4# $'4 comparison-

ransmission channels in landline and 9adio telemetry0- 4ethods of data transmission in telemetry-

$4+$4# 84+$4 and 834+34 techni.ues0 9adio receiving techni.ues0

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EI 010 ;0; ,0; Rootics and Automation


'ecties

10 To give a basic knowledge of robots and their types.

20 To study in detail the power sources, sensors, manipulators, actuators, grippers involved withrobots and kinematics.

,0 To learn about robot programming techniques.

Module 1

6asic concepts E - 'efinition and origin of rootics 'ifferent types of rootics Various generations

of roots 'egrees of freedom 3simov&s laws of rootics 'ynamic staili*ation of roots0

Module -

8ower sources and sensors E - 7ydraulic# 8neumatic and lectric drives0 SensorsE Sensors in 9ootics-

actile Sensors- 8ro@imity and 9ange Sensors-Bses 4achine vision 9anging !aser 3coustic

4agnetic and $ier optic0

Module 3

4anipulators# actuators and grippers E - onstruction of manipulators 4anipulator dynamics and

force control lectronic and pneumatic manipulator control circuits nd effectors B various

types of grippers 'esign considerations0

Module &

9oot 8rogrammingE ypes of programming- !eadthrough programming-3 9oot 8rogram as a 8ath

in Space- 4otion

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4c errow 80C0

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EI010 ;0> Micro#rocessor $ Microcontroller ,a(Common to AI010 ;0>)

Teac!ing sc!eme Credits% -

, hours practical per week

'ecties

10 To provide e0perience on programming and testing of few electronic circuits using 565>

20 To provide e0perience on programming and testing of few electronic circuits using5678simulator.

,0 To understand basic interfacing concepts between trainer kit and personal computers.

A8

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student should sumit the report at the end of the semester0 3 demonstration and oral e@amination on

the mini pro>ect also should e done at the end of the semester0

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EI010 >01 9I5ER '

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4edical application of lasers !aser and tissue interaction !aser diagnosis - !aser instruments for

microsurgery# 9emoval of tumors of vocal chords# 6rain surgery# 'ermatology# Ancology andAphthalmology0

TET 5''S

10 eiser E Aptical $ier ommunication systems# 4c"raw 7ill !td# 1M,0

20 '00 Ashca and 50 9usel allenE introduction to lasers and 3pplications# 3ddision 5esley# 1M?0

,0 300 "hatak and 0 haiagara>anE Aptical lectronics# $oundation 6ooks 1MM10

:0 00 Sarkar#'00 SarkarE Aptoelectronics and $ier Aptics ommunication# %ew 3ge

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EI010 >0- C'M

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lectrical safetyE %43 standards# grounding and shielding standards # power grounding# concept of

shielding# electro static instrument shielding 0 8rocess safety managementE elements of process safetymanagement- process safety information process ha*ard analysis 0

Reerence 5oos

10 Stuart 306oyer JSupervisory Control and *ata Ac@uisition

20 Ceff 5eigunt0 Jreating 74

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< D1D ?D, 6

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4edical

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< D1D ?D: 3%3!N

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4ass spectrometerE 8rinciple of operation- 4agnetic deflection mass spectrometers- omponents of a

mass spectrometer

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Reerence oos%

20

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< D1D ?D;

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Smart sensorsE lock diagram- Smart transmitter0 9ecent trends in sensor technology6Semiconductor

sensors6$ilm sensors 44S - %anosensors0

Module .

4easurement of 'imension# Sound and hermal conductivity E hickness measurement- ontact type

thickness gauge -

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EI010 >0; ,01 '#timiDation Tec!ni@ues

(Common to EC010 >0;,01 and AI010 >0;,03)

Teac!ing Sc!emes Credits% &

2 hours lecture and 1 hour tutorial per week0

'b?ectives*

nderstand the need and origin of the optimiation methods. ;et a broad picture of the

various applications of optimiation methods used in engineering. 2efine an optimiation

problem and its various components.

Module I (1- !rs)

Ane 'imensional Bnconstrained 4inimi*ation techni.ues# single variale minimi*ation#

unimodality# racketing the minimum# necessary and sufficient conditions for optimality#

conve@ity# steepest descent method0

Module II (1-!rs)!inear programming# introduction# linear programming prolem# linear programming prolems

involving ! ( ) constraints# simple@ method# optimality conditions# artificial starting solutions#

the 4 method0

Module III (1-!rs)

ransportation models# definition# non traditional models# transportation algorithm# ast 5est

corner method# Vogel appro@imation method0 3ssignment model#

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EI010 >0; ,0- 4,SI Tec!nolog7



'ecties

1) To study the concepts of #C fabrication.

2) To get an idea about different types of monolitihic components..

,) To familiarie with different CM'$ technologies.

Module 1

unction and4AS structures-

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Gallium Arsenide Tec!nolog7E Su-micro 4AS technology- rystal structure- 'opingprocess-

hanneling effect- 4S$- "a3s farication- 'evice modeling0

Reerences

10 4odern V!S< designE 5olf# 8earson ducation0

20 V!S< technologyE S 4 S*e# 4c "raw 7ill pu0

,0 6asic V!S< designE 'ouglas 8ucknell# 87ee# J4AS V!S< 'esign# 3circuits and Systems 8erspectiveK# (,+e)# 8earson# 2DD=

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EI 010 >0; ,03 *IGITA, IMAGE

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detections - "radient operators - comined detection - hresholding - 9epresentation schemesE chain

codes - 8olygon appro@imation - 6oundary descriptorsE Simple descriptors - Shape numers $ourierdescriptors -

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EI 010 >0; , 0& A##lied sot com#uting


'5ECTI4E

1 This course introduces the basics of neural network, fuy logic and its applications in control..

Module 1

INTR'*+CTI'N AN* *I99ERENT ARCHITECT+RES '9 NE+RA, NETF'RS

3rtificial neuron 4odel of neuron %etwork architecture !earning process Single layer perceptron

!imitations 4ulti layer perceptron 6ack propagation algorithm 96$ 9%% 9einforcement

learning# ohnen&s self organising maps and adaptive resonance theory0

Module -

NE+RA, NETF'RS 9'R C'NTR',

Schemes of %euro-control

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TET 5''S

10 $ausett# !0# J$undamentals of %eural %etworksK# 8rentice 7all# nglewood liffs# %0C0#1MM:0

20 9oss# 0C0# J$u**y !ogic with ngineering 3pplicationsK# Cohn 5iley and Sons(3sia)!td0# 2DD:0

,0 "olderg# J"enetic 3lgorithm in Search# Aptimi*ation# and 4achine !earningK#3ddison 5esley 8ulishing ompany#

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EI 010 >0; ,0. Instrumentation in #etroc!emical industries


'ecties

10 To give an idea about the process. (roducts, and instrumentation applications in apetrochemical industry.

20 To get an e0posure of various controllers used in petrochemical industries.

Module 1

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EI 010 >0; ,0; Reliailit7 and Saet7 engineering



'5ECTI4ES

1 To learn the concepts of 3eliability, &ailure modes, Maintainability and safety aspects.

Module 1

RE,IA5I,IT

9eliailityE- 'efinition and asic concepts# lock diagrams# failure data# failure modes# reliaility in terms

of ha*ard rates and failure density function0 7a*ard models and Lath-tu& curve0 3pplicaility of 5eiull

distriution0 9eliaility calculation for series# parallel series and -out of 4 systems0

Module -

C'NCE

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"ovil# 300# J9eliaility ngineeringK# ata 4c"raw -7ill# %ew 'elhi# 1M,0

10 !0S sreenath# J reliaility engineering# east west press pulisher# 2DD20

20 Sinha and ale# J

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EI010>0> INSTR+MENTATI'N ,A5 II

Teac!ing Sc!eme -

credit

s, hours practical per week

10 'esign and testing of A%-A$$ controller using Ap-amp

20 'esign and testing of 8< controller using op-amp0

,0 aliration of pressure gauge using 'ead weight tester0

:0 7eart rate measurement using lectroardio"raph0

;0 Study of 3udiometer and Spirometer

=0 Study of recorders

?0 'esign and testing of and pass filter using op-amp

0 $lame photometers

M0 'igital Spectro photometer

1D0 8hoto colorimeter

110 7umidity measurement using hygrometer and psychrometer

120 hemical analysis using htromatographic method0

1,0 'issolved o@ygen analyser

1:0 $lue- "as analysers

1;0 'etermination of ransfer function model of emperature transducers0

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< D1D ?D SNS4 S

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EI 010 >0 Seminar

Teac!ing sc!eme credits% -

2 hours practical per week

he seminar power point presentation shall e fundamentals oriented and advanced topics in

the appropriate ranch of engineering with references of minimum seven latest international

>ournal papers having high impact factor0

ach presentation is to e planned for duration of 2; minutes including a .uestion answer session of

five to ten minutes0

he student&s internal marks for seminar will e out of ;D0 he marks will e awarded ased on

the presentation of the seminar y the students efore an evaluation committee consists of a

minimum of : faculty memers0 3pportioning of the marks towards various aspects of seminar (e@tentof

literature survey# presentation skill# communication skill# etc0) may e decided y the seminar evaluation

committee0

3 ona fide report on seminar shall e sumitted at the end of the semester0 his report shall

include# in addition to the presentation materials# all relevant supplementary materials along with detailed

answers to all the .uestions asked+clarifications sought during presentation0 3ll references must e given

toward the end of the report0 he seminar report should also e sumitted for the viva-voce

e@amination at the end of eighth semester0

9or Seminar= t!e minimum or a #ass s!all e .0 o t!e total mars assigned to t!e

seminar8

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EI 010 >10 ect work# in general# means design and development of a system with clearly specified o>ectives0

he pro>ect is intended to e a challenge to intellectual and innovative ailities and to give students the

opportunity to synthesi*e and apply the knowledge and analytical skills learned in the different

disciplines0

he pro>ect shall e a prototypeQ acked y analysis and simulation etc0 %o pro>ect can e deemed to e

complete without having an assessment of the e@tent to which the o>ectives are met0 his is to e done

through proper test and evaluation# in the case of developmental work# or through proper reviews in the

case of e@perimental investigations0

1 he pro>ect work has to e started in the seventh semester and to e continued on to eighth

semester0

2 8ro>ect work is to e done y student groups0 4a@imum of four students only are permitted in

any one group0

, 8ro>ects are e@pected to e proposed y the students0 hey may also e proposed y faculty

memer ("uide) or >ointly y student and faculty memer0

: Students are e@pected to finalise pro>ect themes+titles with the assistance of an identified faculty

memer as pro>ect guide during the first week of the seventh semester0

he progress from concept to final implementation and testing# through prolem definition and the

selection of alternative solutions is monitored0 Students uild self confidence# demonstrate independence#

and develop professionalism y successfully completing the pro>ect0

ach student shall maintain a pro>ect work ook0 3t the eginning of the pro>ect# students are re.uired to

sumit a pro>ect plan in the pro>ect ook0 he plan should not e@ceed =DD words ut should cover the

following matters0

1U 9elevance of the pro>ect proposed

2U !iterature survey

,U A>ectives

:U Statement of how the o>ectives are to e tackled

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1U ime schedule

2U ost estimate

hese proposals are to e screened y the evaluation committee (-

including the guide) constituted y the head of department# which will include a hairman and the will

evaluates the suitaility and feasiility of the pro>ect proposal0 he can accept# accept with modification#

re.uest a resumission# or re>ect a pro>ect proposal0

very activity done as part of pro>ect work is to e recorded in the pro>ect ook# as and when it is done0

8ro>ect guide shall go through these records periodically# and give suggestions+comments in writing in the

same ook0

he students have to sumit an interim report# along with pro>ect work ook showing details of the work

carried out y him+her and a power point presentation at the end of the ?th

semester to 0 he can

accept# accept with modification# re.uest a resumission# or e@tension of the pro>ect0

he student&s internal marks for pro>ect will e out of ;D# in which ,D marks will e ased on

day to day performance assessed y the guide0 6alance 2D marks will e awarded ased on the

presentation of the pro>ect y the students efore an evaluation committee consists of a minimum

of , faculty memers including the guide0

9or

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EI 010 ?01 INSTR+MENTATI'N SSTEM *ESIGN

(common to AI010 ?01 and IC 010 ?01)


, hours lecture and 2 hours tutorial per week

'ectie

To help the students get basic understanding of the following*

2esign of instrumentation systems for various applications.

2esign of electronic and pneumatic controllers.

(iping and instrumentation diagrams.

(rocedures for the preparation of an instrumentation pro?ect.

!oise and noise reduction techniques in measurement.

Module 1

Sensing element E lastic sensing elements - antilever and tor.ue elements# 8illar load cell#Strain gauge accelerometer- unction compensation for thermocouple0-!inearising techni.ues for thermocouple and thermistor- 'esign of charge amplifier-

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coupling mechanisms 4ultiple earths 4ethods of reduction of noise Shielding Screening

$iltering 4odulation 3veraging 3uto correlation 0

Te"t 5oos

10 Cohn 80 6entley E 8rinciples of measurement systems# !ongman 1M,

20 Cohnson 0'E 8rocess control instrumentation technology# :+e# 87

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EI 010?03 : A*4ANCE* INSTR+MENTATI'N AN* A

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Te"t 5oos

10 40 "hosh# S0 Sen# S0 4ukhopadhyay# L4easurement and endran# 808alanichamy# %arosa8ulishing 7ouse# $irst dition 2DD:0

:0 3lan rawford# LBltrasonic ngineering 3cademic 8ress

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EI 010 ?0& ,01 NAN' E,ECTR'NICS


2 hours lecture and 2 hours tutorial per week0

'ecties

1 To introduce students to the nano electronics and the systems.

2 To understand the basic principles of carbon nano tubes.

Module I (1-!rs)

hallenges going to su-1DD nm 4AS$s A@ide layer thickness# tunnelling# power density#non-uniform dopant concentration# threshold voltage scaling# lithography# hot electron effects#

su-threshold current# velocity saturation# interconnect issues# fundamental limits for 4AS

operation0

Module II (1- !rs)

%ovel 4AS-ased devices 4ultiple gate 4AS$s# Silicon-on-insulator# Silicon- on-nothing#

$in $s# vertical 4AS$s# strained Si devices0

Module III (1- !rs)

Iuantum structures .uantum wells# .uantum wires and .uantum dots# Single electron devices

charge .uanti*ation# energy .uanti*ation# oulom lockade# oulom staircase# 6loch

oscillations0

Module I4 (1- !rs)

7etero structure ased devices ype

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EI 010 ?0& ,0- MICR' E,ECTR' MECHANICA, SSTEMS


2hours lecture and 2 hours tutorial per week

'ecties

1 To introduce students to the MEM$ systems, its hardware.

2 To introduce devices and their working principles..

Module I (1-!rs)

Averview of 44S and 4icrosystems ypical 44S product volution of

4icrofarication 4ultidisciplinary nature of 44S 3pplications0

Module II (1- !rs)

5orking 8rinciple of 4icrosystems 4icrosensors 4icroactuation 4icroaccelerometers -

4icrofluidics

Module III (1- !rs)

ngineering Science for 4icrosystem 'esign - 3tomic Structure of 4atter

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EI 010 ?0& ,03 5I'ME*ICA, SIGNA,

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10 6iomedical Signal 8rocessing principles and techni.ues ' 9eddy# 47 8ulication 2DD;

20 6iomedical signal analysis 3 case study approach y 9angra> 4# 9angayyan# Cohn 5ileypulications

,0 6iomedical 'igital Signal 8rocessing 5illis C omkins# he 87< 8ulications

:0 7andook of 6iomedical

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EI 010 ?0& ,0& REA, TIME EM5E**E* SSTEMS


'ecties

1 To study various embedded systems and peripherals

2 To understand the concept of embedded programming

, To get an e0posure to various operating systems services

: To learn the basics of scheduler

; To study various 3T'$

Module I

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Study of 4icro +AS-

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EI 010 ?0& ,0. EN4I'RNMENTA, M'NIT'RING INSTR+MENTS


'ecties

1 To give an idea about concept of eco system and need for environmental monitoring

2 To study the different measurement techniques for environmental parameters

Module 1

oncept of ecosystemE Structure and function of an ecosystem# producers# consumers and decomposers#

energy flow in ecosystem# ecological succession# food chains and ecological pyramids# iodiversity and its

conservation0

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oncepts of waste water treatment methodsE physical treatments iological treatments - reuse and

recycle of water and waste water0

Module .

8ollution monitoring devicesE paper tape sampler - uler systems - gas

analysers 6asics of methods of measuring pollutionE

principle of sampling air +water+soil for pollution measurementQ amient air samplingE collection of

gaseous air pollutants# collection of particulate air pollutantsQ stack samplingE sampling system#

particulate sampling# and gaseous sampling0

Reerences%

10 S080 4aha>an# 8ollution control in process industries# ata 4c"raw 7ill#1M;0

20 "0%0 8andey and "00 arney# environmental engineering# ata 4c"raw 7ill#1MM0

,0 0 90 9a>agopalan# nvironmental Studies# A@ford

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EI010 ?0& ,0; AIRCRA9T INSTR+MENTATI'N


'5ECTI4E

To describe the principle and working of aircraft systems and instruments

M'*+,E 1 %::AIR

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,0 reager# S0# J"as urine echnologyK# 4c"raw-7ill# 1MM?0

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EI 010 ?0. G01 TEST ENGINEERING

Teac!ing Sc!emes Credits % &

2 hrs lecture and 2 hrs tutorial per week

Objectives

10 To provide an insight into multi4disciplinary approach to test engineering including test

economics and management.

20 To understand practical, concise descriptions of the methods and technologies in modern

mechanical, electronics and software testing.

,0 To provide an insight into the developing interface between modern design analysismethods and testing practice.

:0 To understand why products and systems fail, which testing methods are appropriate to

each stage of the product life cycle and how testing can reduce failures.;0 To provide an overview of international testing regulations and standards.

Module 1 (1- !rs)

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EI010 ?0. G0- Total @ualit7 management (Common to AI 010 ?0.

G01 and IC 010 ?0. G03)


'5ECTI4E

10 To understand the Total

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EI 010 ?0. G03 Human actors engineering (common to AI010 ?0.G0- )


'5ECTI4ES

10ppreciate the importance of the human factors discipline.20pply human factors A:&B methods and principles to the evaluation and designof systems in the world around you.

,0 nderstand human limitations and capabilities and how they impact the designof controls, displays, and related devices.

:0ppreciate how human factors can influence the effectiveness of human4system interactions.

Module 1%

ectE common e@amples of human machine interactions+systems need for

engineering approach and attention to human machine systems through simple common place e@amples

like handle positioning on doors# positioning of ath room fittings# stair case dimensions# heights of tale

and chair in relation# placing of alphaet keys on computer key oardQ definition of 7$0

Module -%

7uman machine systems+interfaces# 7$ at work place through e@amples from mechanical fitting shop#

electrical machine shop# assemly lines in manufacturing shops# front panels of electronic instruments0

Module 3%

3nthropometric 8rinciplesE 6ertillon&s oservations - 6ergmanns rule - 3llens ruleQ anthropometric

division of ody types - anthropometric data0

Module &%

3pplied anthropometry and work space design G seatingE positive and adverse effects related to work

design issues impact on worker performance and fatigue - illustration through simple e@amples

including dimensionsE safe clearances or heights# such as for doorways or walkways# safe reach distances#

such as for safety cords or e.uipment controls# safety features including machine guards and protective

shields0

Module .%

5ork related health issues# safety aspects and legal aspectsE work related musculoskeletal disorders#

visual environment# thermal environment# auditory environment# virations0

Te"t 5oos%

10 4cormick# 0C0# 7uman $actors in ngineering and 'esign# 4c"raw-7ill 6ook ompany0

20 ggleton# 040 (d0)# rgonomic 'esign for 8eople at 5orkE Volume 1 and 2# Van %ostrand 9einhold0

Reerences%

10

20 40 S0 Sanders and rnest C0 4cormick# 7uman $actors ngineering and 'esign0 4c"raw 7ill

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roemer# 0# 70 roemer# and roemer-lert# 0# rgonomicsE 7ow to 'esign for ase and

fficiency# 8rentice 7all

,0 4eister# '0# onceptual 3spects of 7uman $actors.6altimore# 4'# he Cohns 7opkins Bniversity8ress

:0 6urgess# C070# 'esigning for 7umansE he 7uman $actors in ngineering# 8etrocelli 6ooks0

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EI010 ?0. G 0& 5I' IN9'RMATICS

(common to IC010 ?0.G0&)


2 hours lecture and 2 hours tutorial per week0

'b?ective* To cater the needs of students who want a comprehensive study of the principle and

techniques of bioinformatics..

Module 1 (1- !rs)

%ature and scope of life science# Various ranches of life sciences# Argani*ation of life at various

levels# Averview of molecular iology# he cell as asic unit of life-8rokaryotic cell and

ukaryotic cell - entral 'ogmaE '%3- 9%3-8rotein#

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modulari

ty

and

astraction# feedack# control analysis# 4athematical modelingQ 6iological

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%etworks- Signaling pathway# "9%# 88

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EI010?0. G0. Intellectual

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Module . (1- Hours)

rade 4ark !aw in

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EI 010 ?0. G 0;

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dmund " Seeauer# 9oert ! 6arry# J $undamentals of thics for scientists and engineersK

A@ford Bniversity 8ress 2DD1:0 9 9"aur# 9 Sangal# " 8 6agaria# J 3 foundation course in value education and professional

ethicsK

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EI010 ?0;

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EI010 ?0> ect work is to e presented y the middle of eighth semester efore the

evaluation committee0 6y this time# the students will e in a position to pulish a paper in

international+ national >ournals+conferences0 he can accept# accept with modification# and re.uest

a resumission0

he progress of pro>ect work is found unsatisfactory y the during the middle of the eighth semester

presentation# such students has to present again to the at the end of the semester and if it is also found

unsatisfactory an e@tension of the pro>ect work can e given to the students0

ect group shall prepare and sumit se#aratereports0 9eport of

each memer shall give details of the work carried out y him+her# and only summarise other memers&

work0

he student&s sessional marks for pro>ect will e out of 1DD# in which =D marks will e ased on

day to day performance assessed y the guide0 6alance :D marks will e awarded ased on the

presentation of the pro>ect y the students efore an evaluation committee0

9or

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EI010 ?0? 4ia :4oce

Teac!ing sc!eme credits% -

3 comprehensive oral Viva-voce e@amination will e conducted to assess the students

intellectual achievement# depth of understanding in the specified field of engineering and papers

pulished + accepted for pulication etc0 3t the time of viva-voce# certified ound reports of

seminar and pro>ect work are to e presented for evaluation0 he certified ound report(s) of

educational tour+industrial training+ industrial visit shall also e rought during the final Viva-

Voce0

3n internal and e@ternal e@aminer is appointed y the Bniversity for the onduct of viva voce

Bniversity e@amination0

9or 4ia:oce= t!e minimum or a #ass s!all e .0 o t!e total mars assigned to t!e

4ia:oce8

!ote* #f a candidate has passed all e0aminations of ".Tech. course Aat the time of publication of

results of eighth semesterB e0cept 9iva49oce in the eighth semester, a re4e0amination for the

9iva49oce should be conducted within one month after the publication of results. Each candidate

should apply for this $ave a $emester e0amination) within one week after the publication of

eighth semester results.

8mgu Btech2010 Ei

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