Students must undergo Industrial
Training for at least 3 weeks in
summer vacation and submit the report
in standard format in next
semester( B.E. Part – I ) for
assessment.
Sem.
– V (
I )
FIBER OPTICS &
COMMUNICATION
Teaching Scheme Examination Scheme
Lectures : 4 Hrs / week Theory :- 100
Marks
Practicals : - 2 Hrs / week Term work
:- 25 Marks
Oral : 25 Marks
1) Introduction to Optical Fiber
Communitation : 4 Hrs
Elements of an Optical Fiber
Transmission link., Optical Fiber modes, and
configurations, Single mode fibers,
Fiber materials, Fiber fabrication.
2) OPTICAL SOURCES 4 Hrs
Topics from Semiconductor Physics,
Light Emitting Diodes, Laser Diodes,
Light source linearity, Reliability
considerations.
3) POWER LAUNCHING & COUPLING :
4 Hrs
Sources to Fiber power launching,
Lensing schemes for coupling
improvement, Fiber to fiber joints,
LED coupling to single mode fibers,
Fiber splicing, Optical Fiber
connectors.
4) PHOTODETECTOR : 5 Hrs
Physical principles of photo diodes,
Photo detector noise, Detector
response time, Avalanche
multiplication noise, Temperature effect on
avalanche gain.
5) WDM Concepts & Components : 5
Hrs
Operational principle of WDM, Passive
components, Tunable sources,
Tunable filters,
6) OPTICAL NETWORKS : 5 Hrs
Basic networks, SONET / SDH, Broadcast
and select WDM networks,
Wave length routed networks, Non
linear effects on network performance,
Performance of WDM +EDFA systems,
Optical CDMA, Ultra high capacity
networks.
7) MEASUREMENTS APPLICATIONS : 6
Hrs
Measurement Standards & Test
Procedure Test equipments, Attenuation
measurement, Dispersion measurement,
Distance measurement, Flow
measurement, Level measurement,
Pressure and Vibration measurement,
Endoscopy, Holography.
8) REMOTE SENSING : 7 Hrs
Parameters of a Sensors, Definition :
Components of Remote sensing –
Energy, sensor, interacting Body,
Active & passive Remote sensing –
platforms—Aerial & space
platforms--Balloons, Helicopter, Aircraft &
satellites – synoptivity and
Repetivity--Electro Magnetic Radiation ( EMR )
- EMR spectrum--visible, Infra Red
( IR ), Near IR, Middle IR, Thermal IR
& Microwave-Black body radiation--
plank’s Law- Stefan-Boltzman Law.
Recommended Books :
1) Opto Electronics – An Introduction,
J.Wilson J.F.B.Hawkes, Prentice Hall
of India New Delhi. 1996
2) Integrated circuits and
semiconductor devices theory and application-
Deboo Burrous ,McGraw Hill Second
Edition.
3) Optical fiber communications
principles and practice , J.M. senior
Prentice Hall of India , Second
Edition 1996
4) Fiber optics - communication and
other application, H. Zanger and
C.Zanger McGraw Pub
5) Fiber optics - communication , Gerd
Keiser.
6) Optical fiber systems, Tecnology,
Design & Application .- Kao C.K
McGraw Hill
7) Introduction to optical fibers,
Cherin, McGraw Hill
8) Text book on optical fiber
Communication & it’s application S.C.Gupta
(PHI)
9) Basics of Remote Sensing & GIS,
By: Dr. S. Kumar ( Laxmi publications )
Suggested Laboratory
Experiments
1) To plot spectral response
characteristics of photodiode
2) To plot spectral response
characteristics of photo transistor
3) To plot intensity response of photo
diode
4) To plot intensity response of
phototransistor.
5) Study of Fiber optic communication
trainer kit.
6) Numerical aperture measurement of
optical fiber.
7) Displace measurement by fiber optic
8) Data communication by fiber optic
9) Characteristics of opto coupler
Students are expected to perform
minimum six experiments based on above topics
******************************
Sem.
– V (
I I )
ADVANCED CONTROL
SYSTEMS :
Teaching Scheme Examination Scheme
Lectures : 4 hrs / week Theory paper :
100 Mark
Practical : 2 hrs / week Term work :
50 Mark
1) NONLINEAR SYSTEMS
: 5 HRS
Types of non – linearities, analysis
by describing functions method , phase
plane method, construction of
trajectories by isocline method .
2) STATE SPACE
REPRESENTATIONS OF CONTINUOUS
TIME SYSTEM 10 HRS
Definitions of state variable , state,
state vector, state space, state
trajectory. Multi input –multi output
system state model and block diagram.
SISO System State Model & block
diagram. Obtaining transfer function
from state-space model. Determination
of state transition matrix,
properties of state transition matrix.
Solution of homogeneous and non
homogeneous state equations. Concepts
of controllability and
observability.
3) DESIGN OF
CONTINUOUS –TIME SYSTEM IN STATE- SPACE 06
HRS
Introduction , Pole placement ,
solving pole-placement problems,
Ackerman’s formula, state observers,
observer design.
4) DISCRETE –TIME
CONTROL SYSTEM 08 HRS
Introduction of discrete time system.
Review of Z-transform, Z- plane
analysis of discreet time control
system. Pulse transfer function, Impulse
sampling, Laplace transform of impulse
sampled single starred Laplace
transform of signal involving both
ordinary and starred Laplace
transforms, Block diagram analysis,
5) STABILITY OF
DISCRETE –TIME SYSTEM :- 5 HRS
Introduction, equivalence between ‘Z’
domain and S- domain. Stability
analysis by Jury test and bilinear
transformation with Routh criterion
6) STATE-SPACE
REPRESENTATION OF DISCRETE –TIME
CONTROL SYSTEM :- 08
HRS
Introduction, state space
representation of discrete time control system.
Solving discrete time- state space
equations by recursion method & Ztransform
method. State transition matrix by
Z-transform and Cayley
Hamilton method. Realization of pulse
transfer function by direct
programming method.
7) DESIGN OF DISCRETE
–TIME CONTROL SYSTEM IN
STATE –SPACE :- 05
HRS
Controllability, Observability, Kalman’s
test for controllability and
observability. Design via pole
placement and observer.
Termwork :- The termwork shall consist
of at least ten assignments /
tutorials /MATLAB programs based on
above syllabus.
Suggested Books
1) Modern Control Engineering – K .
ogata , PHI Publication.
2) Discrete –time control systems - K
. ogata , Fourth Edition 2002
3) Control Systems engineering – R.
Anandnatarajan / P.
Rameshbabu.(Scientech)
4) Modern Control System Theory – M.
Gopal
5) Control Systems engineering –
I.J.Nagrath and M Gopal.
6) Digital Control & stak variable
methods, by M Gopal – McGraw Hill
Publication
7) Control Theory – Multivariable
& nonlinear methos by Torkel Glad &
Lennant Ljund Vikas Publication House.
8) Computational aids in control
systems using MATLAB– Hadi Saadat
Note : The MATLAB coverage is limited
only for practical No theory questions
will be asked on MATLAB.
******************************
Sem.
– V (
3 )
INDUSTRIAL POWER
ELECTRONICS
Teaching Scheme Examination Scheme
Lectures :- 3 Hrs / week Theory Paper –
100 Marks
Tutorial:-1Hour/Week Term work - 50
Marks
Practicals : -2 Hrs / week POE - 50
Marks
1) STUDY OF POWER
ELECTRONICS DEVICES 6 Hrs.
SCR with turn on /off methods, MOSFET
( with drive circuit ), IGBT,
Diac, Triac, Ratings and its
protection circuits,
2) Phase controlled
Rectifiers : 4 hrs
Single phase controlled rectifiers :
Half wave, center tapped Bridge (half
controlled and fully controlled ) with
R and R-L load ( calculation of
performance parameter ), with
continuous and discontinuous current mode
of operation.
3) DC. CHOPPER &
AC. CHOPPER 4 Hrs.
Basic chopper, Step up chopper, Step
down chopper, Series turn off
chopper,
Morgan chopper, Jones chopper,
AC.chopper : Principle and ON/OFF
control, Single phase Bi-directional
control of inductifve load,
4) Inverters : 6 hrs
Transistorized half bridge & full
bridge inverter, Series inverter, Parallel
inverter with R and RL load. Voltage
control technique of Single Phase
inverter, Harmonic reduction techniq.
5) DC MOTOR & AC
MOTOR CONTROL 6 Hrs.
Scheme for DC motor speed control,
Single phase separately excited
drives. Braking operation of rectifier
controlled separately excited motor.
Single phase series DC motor drives,
Speed control of induction motor.
Stator voltage control variable
frequency control, Rotor resistance control.
6) INDUSTRIAL
CIRCUITS & ITS APPLICATION 8 HRS
UPS online, off line (block diagram) ,
Servo Stabilizer (block diagram),
SMPS, ( Buck regulated, Boost
regulated, Line voltage fly back converter),
Emergency light, battery charger using
SCR, AC power flasher, DC power
flasher, DC timer circuit using UJT
and SCR.
7) CYCLO CONVERTERS :
2 Hrs
Single phase to single phase , Mid
point bridge type, Continuous current
mode and discontinuous current mode of
operation.
Suggested books:
1) M.H. Rashid , power electronics,
PHI India .
2) P.C sen, power electronics, TMH
India.
3) SCR Manual
4) Power Electronics. : M.D.
Khandchandani (MGH )
Suggested Laboratory
Experiments
1) To study SCR Characteristics.Also
calculate Values of holding and latching
current
2) To study Diac / Triac
Characteristics. Also calculate Break over voltage of
diac
3) To study different turn on Methods
of SCR
1)R-C 2)UJT
4) To study different turn off Methods
of SCR (Class A to Class E) any one
5) To study single phase full
controlled Rechfier with R and R-L Load ( with and
without Free wheeling diode)
6) To study single phase half
controlled Rechfier ( Semi converter) with R and RL
Load
( with and without Free wheeling
diode)
7) To study series inverter Draw and
observe voltage waveforms across RLC, RL
and pure resistive Load.
8) To study paralled inverter. Find
out efficiency at constant load
9) To study Morgon chopper Plot graph
of V Load Vs dutycycle at constant load.
10) To study D.C. power flasher using
SCR.
11) To study single phase cyclo
converter
12) To study speed control of d.c.
Motor using SCR
Note :- Students are expected to
perform minimum 8 experiments
******************************
Sem.
– V (
4 )
UNIT OPERATIONS
Teaching scheme : Examination scheme:
Lecture Scheme : 3 hrs / per week
Theory : 100 marks
1 INTRODUCTION : - 3
hrs
Basic concepts of unit operations and
unit processes, Material Balance –
Energy Balance, Batch and continuous
process – operations, endothermic
and exothermic reactions
2 MECHANICAL
OPERATIONS: - 6 hrs
2.1 Size Reduction : Theory and
Principles in crushing and grinding
Equipments used : Jaw crusher ,
Crushing Rolls, Hammer Mill, Ball
Mill.
2.2 Size separation : capacity and
screen effectiveness, ideal and actual
screens, Equipments : Trommels ,
Gravity setting tank, Magnetic and
Electrostatic separator.
Sedimentation, Cyclone Separator
2.3 Filtration : Principle , type of
filtration ,constant pressure and constant
rate filtration . Equipments : Rotary
drum filter, centrifuge.
3 HEAT TRANSFER : - 6
hrs
3.1 Basic modes of heat transfer,
Basic Laws and equations to calculate
Heat transfer rates
3.2 Heat transfer Equipments : Double
pipe heat exchanger. shell and tube
heat exchanger. Types of shell and
tube exchanger.
3.3 Evaporation , Types of evaporators
, multiple effect evaporators.
Methods of feeding multiple effect
evaporation.
3.4 Control systems for heat exchanger
and evaporators .
4 DISTILLATION : 6
hrs
4.1 Concept of distillation , Boiling
point diagram, Roult’s Law, Vapour
liquid equilibrium, Volatility ,
constant boiling mixtures azeotrope.
4.2 Methods of distillation,
importance of reflux ratio.
4.3 Fractional distillation
4.4 Control system for fractionating
column .
5 ABSORPTION : 3 hrs
5.1 Concept of absorption and
adsorption , concept of equilibrium ,
5.2 Gas absorption Equipments,
pressure drop across column,
Tower packings
5.3 Control system for packed
absorption column .
6 EXTRACTIONS : 3 hrs
6.1 General consideration of
extraction , equilibrium condition , ternary
system , ‘basic properties of solvent.
6.2 Extraction Equipments : mixer
settler , spray column
6.3 Control system for spray column.
7 CRYSTALLIZATION: 3
hrs
7.1 Concept of crystallization ,
saturation and super saturation , Effects of
temperature on solubility , methods of
super saturation.
7.2 Crystallizers : Agitated tank
crystallizer, Swenson –walker
crystallizer.
7.3 Control system for Agitated tank
crystallizer
8 DRYING : 3 hrs
8.1 Principles, equilibria, Bound
& unbound moisture, Rate of drying.
8.2 Drying equipments : Tray drier ,
Rotary drum drier, Vacuum drier ,
Fluidized bed drier
8.3 Control system for tray drier.
9 MANUFACTURING
PROCESSES : 6 hrs
9.1 Manufacturing Process &
control of Iron and steels, cement , sulphuric
acid , urea, ethanol , Give simple
process.
Suggested Books :
1 Mccabe and Smith - Unit operations
of chemical Engineering .
2 M gopal Rao and Mgrshall Sitting :
Dryden’s Outline of chemical technology .
3 Georget Austin - Shreve’s chemical
process industries .
4 Rober E. Trebal - Mass Transfer
operations.
5 Richardson and Colsun - Chemical
Engineering Vol. I & II
6 Perry’s ( 6th Edn ) - Chemical
engineering Handbook .
7 Liptak Bela – Process Control
Handbook.
8 Peter Harriot – Automatic Process
Control
9 Andrew William – Vol I /II.
10 Mass Transfer Operation :- Rober E.
Trebal.
* ** * * * * * * * *
* * * * * * * * * * * * * * * * * * * * *
Sem.
– V (
5 )
ANALYTICAL
INSTRUMENTATION
Teaching Scheme Examination Scheme
Lectures :- 3 Hrs/ week Therory Paper
:- 100 Marks
Practical :- 2 Hrs /week Termwork : -
25 Marks
Oral : 25 Marks
OBJECTIVES :
1) To understand basic priciples of
various Analytical Instruments.
2) To understand Instrumentation
required for different types of Analytical
Instruments
3) To know the typical clinical and
industrial applications of Analytical
Instruments.
1 UNIT – 1 8 Hrs.
Introduction to Chemincal Instrumental
Analysis, advantages over
classical methods, classification :
Spectral, electyroanalytical and
seperative methods, Laws of photometry
( Beer and Lambart’s Law) ,
Basic components of Analytical
Instruments.
2 UNIT – 2 8 Hrs.
Colorimeter, Spectrophotometer (
UV-Visible ), Monochrometer, Filters,
Grating, Prism, Dual wave length and
Monochrometor system, Rapid
scanning spectrophotometers,IR
spectrophotometers,
3 UNIT – 3 8 Hrs.
Flame photometry: Principle,
Construction details, Flue gases, Atomizer,
Burner, Optical system, Recording
system.
Atomic absorption spectrophotometers :
Theoretical concepts,
Instrumentation : Hollow cathode
lamps, Burners and flames, Plasma
excitation sources, Optical and
electronic system.
4 UNIT – 4 8 Hrs.
Industrial gas analyzers, pH,
conductivity, particle counting, detection on
the basis of scattering – Nephalomete,
Laboratory Instruments : Centrifuge,
oven, water bath, incubators, stirrers,
densitometer,
5 UNIT – 5 8 Hrs.
NMR Nuclear Magnetic Resonance
spectroscopy, basic principles,
continuous wave NMR spectrometers,
pulse FT NMR, spectrometer,
spectra and molecular structure.
6 UNIT – 6 8 Hrs.
Mass spectrometer ( MS ) : Principle,
ionization methods, mass analyzer
types – magnetic deflection type time
of flight, quadruple, double focusing,
detectors for MS, applications.
X-Ray spectrometry : Instrumentation
for X-Ray spectrometry,
X-Ray diffractometer,
7 UNIT – 7 8 Hrs.
Chromatography : Classification,
Gas chromatography: Principle,
constructional detail, GC detectors Liquid
Chromatography
High Performance Liquid Chromatography
(HPLC) : Principle,
constructional detail, HPLC detectors
Suggested Experiment
:
1) Study of filter photometer.
2) Study of flame photometer.
3) Study of Densitometer.
4) Study of Spectrophotometer (
visible and infra –red region)
5) Study of single beam
spectrophotometer for U.V./ VIS range.
6) Study of double beam
spectrophotometer for U.V./ VIS range.
7) Study of Mass spectrometers.
8) Study of gas chromatographs.
9) Study of liquid chromatographs.
10) Study of N.M.R. spectrometer
11) Study of atomic absorption
spectrophotometer
Note : Students are expected to
perform minimum 8 experiments.
Suggested books:
1) Instrumental Methods of Analysis 7th edition : by Willard
, Merrit, Dean
Settle, CBS Publishers &
distributors, New Delhi .
2) Handbook of Analytical
Instrumentation by R.S.Khandpur (TMH)
3) Principles of Instrumental Analysis
5 th edition By: Skoog, Holler, Nieman,
Thomson Books Publications.
Reference books :
1) Instrumental Methods of Chemical
Analysis 5 TH edition By; Galen W. Ewing
(TMH ).
2) Introduction to Instrumental
Analysis By : Robert D. Braun ( TMH )
3) Instrumental Methods of Chemical
Analysis By : Chatwal & Anand
* * * * * * * * * * * * * * * * * * *
* * ** * * * * * * * * * * *
Sem.
– V (
6 )
MATLAB PROGRAMMING
Teaching Scheme:- Examination Scheme
:-
Lectures :- 3 hrs /week
Practicals :- 2 hrs /week Termwork :-
50 Marks
1 UNIT – I 2 Hr.s
Introduction ot MATLAB, Desktop tool
and development environment :
Command window, Command history
window, Documents window, Editor debugger
, fig. window, workspace browser, Help
and Path browser,
GettingHelp : Help, helpwin, Help
desk, lookfor.
2 UNIT – I I 5 Hrs.
Variables : Local & Global,
Arrays, Initializing variables, MATLAB operators:
Arithmetic, Relational, Logical, multi
dimensional Arrays, Subscripting and
Indexing (Sub arrays), Displaying O/p
data, Scale and array operations, built
in functions for handling arrays,
Numeric data types, Sparse matrices, Matrix
method for linear equation, Polynomial
operations using arrays, Cell array
and structure arrays,
3 UNIT – I I I 4 Hrs.
MATLAB Programming : Script files,
Function files, Braches : If –else,
Switch –case and try / catch, Loops :
While, For, Break / Continue and
nesting loops, user defined functions,
function function, sub functions and
function handling.
4 UNIT – I V 4 Hrs.
MATLAB Graphics : Two dimensional
continuous plots, Discreet plots,
Multiple polts in same fig. window
using sub plots, Multiple graphs in same
plots using hold ON and hold OFF
commands, Formatting Plots : X labels, Y
labels, title, text, g text, Legend,
axis, Handle graphics, 3-D plots, Bar graphs,
Histograms, Polar plots, PIC plot.
5 UNIT – V 2 Hrs.
Graphical User interface :
Introduction, GUI components, Creating GUI with
guide, Creating GUI with
Programmatically.
6 UNIT – VI 2 Hrs.
Simulink : Introduction, Creating
models, working with blocks, running
simulation, creating sub system,
Masking sub system.
Suggested Books :
1) S.J. Chapman : MATLAB programming
for Engineers,
3/E cengage Learning
2) Duane Hanselman, Bruce Little
field, MASTERING MATLAB – 7,
Pearson Education LPE
3) William J. Palm – III INTRODUCTION
TO MATLAB 7.4
( TMH ) -for Unit 2 & 3
Reference Books :
1) Amos Gilat : MATLAB “ AN
INTRODUCTION WITH APPLICATIONS “,
Wiley publication
2) Documentation from
www.Mathworks.com
3) File exchange from www.
matlabcentral.com
****************************
Sem.
– VI (
1 )
MICROCONTROLLERS AND
APPLICATIONS
Teaching Scheme Examination Scheme
Lectures :- 3 Hrs/ week Theory Paper
:- 100 Marks
Practicals :- 2 Hrs / week Term work
:- 25 Marks
POE :- 50 Marks
1) INTRODUCTION TO
MICROCONTROLLERS : 4 hrs
MCS-51 family architecture, Prog.
& data memory organization. SFR and
their function. Clock and oscillator,
reset organization, power ON reset
circuit and its design., external
memory and I/P interface like 8255.
2) PROGRAMMING MCS-
51: 8 hrs
Addressing mode, instruction format,
instruction types, instruction sets.
Assembling Language Programming.
3) 8051 – ON CHIP
RESOURCES : 8 hrs
Interrupts structures, timer / counter
operation. Serial port operation (
modes of operation ) multi processor
communication.
4) 8051 C PROGRAMMING
: 6 hrs
Introduction, Adv/Disadvantage of
8051-C programming. Data types,
memory types and models, Arrays,
structures, pointers, functions.
5) HARDWARE
INTERFACING WITH MCS-51 : 6 hrs
LCD interface, buzzer interface, key
pad interface, 4 digit thumbwheel and
multiplex display interface, ADC, DAC,
PWM interface, sensor interfaces
like –Temperature, Pressure, Speed,
displacement sensors, through to
MCS-51
6) BUS INTERFACE TO
MCS- 51 : 4 hrs
RS-232 C interface, EA standards, I2C interface, SPI
Interface, USB
interface, CAN interface, Ethernet.
Suggested Books :
1 The 8051 Microcontroller 4th Edition –
Scotmackenzis RCW Phan
2 The 8051 Microcontroller 3th Edition – Ayala
3) The 8051 Microcontroller and
Embedded Using assembly and C: Mazidi &
Mazidi
4) Intel data sheet : MCS-51
Termwork : Consists
of Minimum 10 Hardware experiment including 1 Mini
Project based on any
one application.
• * * * * * * * * * * *
* * * * * * * * * *
Sem.
– VI ( 2
)
INDUSTRIAL AUTOMATION
– I
Teaching Scheme Examination
Lectures: 4 hrs/ Week Theory Paper –
100 marks
Practical: 2 hrs / Week Term Work - 25
marks
Oral - 25 marks
1. Introduction to
Automation: 8 Hrs
Evolution & Aims of Industrial
Automation. Standard Hierarchical
Automation Systems Levels, Functional
Levels & Database
Organization.
Features & requirements of
manufacturing automation & process
automation. Automation options - DCS,
PLC, PC, Fieldbus & hybrid
architectures. Comparison &
selection from among these systems.
2. PLC Basics 8 Hrs
Introduction: Families, Processors,
operation, Programming tools,
memory structure, access &
programming modes. IEC 61131
standards.
Hardware: Physical components, racks,
slot, Power, CPU, Discrete &
Analog Input/Output modules, RTUs
& HMI panels
Programming: Numbering systems, Ladder
Logic Symbols, basic
Instructions, Program Logic
Development, testing & debugging. Simple
problem solving.
3. Advanced
Techniques 6 Hrs
Programming Language Standards IEC
61131-3: IL, ST, SFC, FBD, LL
Programming: Multi Rung Ladders,
Sequence, Logic, transfer of control
timers & counters.
Process Interfacing: Discrete Sensors
& Actuators, Analog Sensors &
Actuators, Linear & Rotary
Encoders.
4. PLC in
Manufacturing Automation 4 Hrs
Programming: Logic Development steps,
Failsafe Programming,
Emergency shutdown, Safety Interlocks
Case Studies: AC & DC Motor
Controls, Variable speed AC motor
drives, conveyers, hoist, robots,
CNCs.
5. PLC in Process
Automation 6 Hrs
Programming: Logic Development steps
Control strategies: Auto/Manual, Open
loop, Closed loop, On-Off.
Case Studies: Temperature, Level,
Pressure & flow control,
Continuous & Batch processing.
6. Commissioning
& Maintenance 4 Hrs
Project: Planning, Installing &
Verifying Project, Project & Program
Documentation.
PLC Fault Handling & Diagnostics,
Redundant configurations,
networking.
7. SCADA 6 Hrs
SCADA based plant monitoring &
control concepts. Functions of
SCADA, PLC/SCADA Communication,
Graphics & HMI, Animation,
Database configuration, Real-Time
& historical trends.
Suggested Laboratory
Experiments:
Practical will consist of at least 5
experiments each on chapters 2 & 3, and at least 2
experiments each on chapters 4, 5, 6
& 7.
Reference Books:
1. Distributed computer control for
Industrial Automation, Popovic & Bhatkar
2. Programmable Logic Controllers,
Webb & Reis, PHI
3. Programmable Logic Controllers,
John & Fredric Hackworth, Pearson
4. Introduction to Programmable Logic
Controllers, Gary Dunning, Thomson
5. SCADA : Supervisory Control And
Data Acquisition By : Stuart Boyer ISA
* * * * * * * * * * * * * * * * *
Sem.
– VI (
3 )
PROCESS CONTROL
Teaching Scheme : Examination Scheme
Lecture : 3 Hrs / per week Theroy :
100 Marks
Tutorial:- 1 Hour/Week Termwork : 50
Marks
Practical : 2 Hrs / per week Oral : 25
Marks
1) UNIT – I 8 Hrs
Process characteristics : Types of
process ( dead time, Single and multi
capacity, self and non self
regulating, Interacting and non interacting,
linear and non linear process )
Process gains, process reaction curves,
process time constant and constant step
analysis method for finding time
constant, dead time. Dynamic element
in control loops. PID control of
process. Process simulators.
2) UNIT – I I 8 HRS
Analysis and properties of some common
loops: Flow, Pressure, Level,
Temperature composition, pH etc Linear
and non linear controllers, review
of PID with limitations
(Offset, saturation in D and reset
windup ) Rate before reset, PID variation
and tuning.
3) UNIT – I I I 8
Hrs.
Multi loop and multi variable process
control systems : Feed back, feed
forward control, cascade control,
ratio control, auto selective control, split
range control, Predictive control
systems and Adaptive control system.
(Interaction and de coupling, relative
gain analysis, procedure to calculate
relative gain and its applications)
4) UNIT - IV 6 Hrs
Boiler controls : Introduction, drum
level, Shrink and Swell effect,
Combustion control, Furnace draft
control, Steam pressure control, Steam
Temperature control, Burner management
system ( Boiler safety interlocks
) Fired heaters : Temperature control
5) UNIT – V 6 Hrs
Instrumentation scheme for Pumps and
Compressor controls, Multi effect
evaporators, Drier, chemical reactors,
cooling towers, rolling mill, extruder,
crystallizer, chiller, advanced pH
control.
References Books :
1) Process Control Systems –
F.G.Shinskey (TMH)
2) Process Control – B.G. Liptak (
Chitlon)
3) Computer based Industrial Control –
Krishna Kant ( PHI)
4) Feedback Controller Tuning,
Application and Design – F.G.Shinsky ( TMH)
5) Instrumentation for Process
Measurement and Control By : Nirman Anderson,
(Chilton )
6) Tuning PID controller ( ISA)
7) Chemical Process control – G.
Stephanopoulos. (PHI )
8) Process Instrumentation and Control
Hand book – Considine.( MGH )
9) Process control instrumentation –
C.D. Johnson ( PHI )
10) Continuous Process Control (ISA)
11) Smart Senosr ( ISA)
12) Statistical Process Control ( ISA)
13) Multivariable Process Control (
ISA)
Suggested Laboratory
Practical:
1) Find the time constant of Single
capacity/ Multi capacity process by
graphical methods.
2) Study of On / Off control
3) Study of steady state &
transient response for single mode, two modes &
three mode for typical applications. (
Flow,Level,Temperature,Pressure )
4) Study of tuning of PID controller
by open loop method & closed loop
method using Ziegler – Nichols tuning
rules.
5) Study of interacting and non
interacting process.
6) Study and analysis of flow / level
/ pressure control loop
7) Implementation of cascade
controller
8) Design and implementation of ratio
controller
` `
*******************
Sem.
– VI (
4 )
SIGNALS AND SYSTEMS
Teaching scheme : Examination scheme:
Lecture Scheme : 3 hrs / per week
Theory : 100 marks
1 SIGNALS AND SYSTEMS
6 Hrs.
SIGNALS :- Definition, CT signals, DT
signals and their representation,
elementary types CT & DT signals,
power signals, energy signals,
Transformation of independent variable
SYSTEMS : Definition, Types of
systems, Interconnection, Properties
of CT & DT systems.
2 TIME DOMAIN
ANALYSIS OF LTI SYSTEMS 8 Hrs.
DTLTI System :- DTLTI system defined
by difference equation, Time domain
response of system : Natural, Forced,
Impulse response, representation of
signals in terms of impulses,
convolution, sum.
CTLTI System :- CTLTI system defined
by differential equation, Time domain
Response, of system : Natural, Forced,
representation of C.T. signals,
convolution integral, properties of
convolution integral
3 FOURIER ANALYYSIS
OF CT SIGNALS 5 Hrs.
Representation of signal using Fourier
series., Fourier spectrum, Fourier
transform, properties of Fourier
transform, system analysis using Fourier
transform.
4 FOURIER ANALYSIS OF
DT SIGNALS 5 Hrs.
Fourier transform of DT signal,
relation between Z- transform and DTFT,
existence of Fourier transform,
properties of DTFT. Frequency response of
DTLTI system
5 SAMPLING AND
RECONSTRUCTION 4 Hrs.
Sampling theorem in Time domain and
Frequency domain, Signal
reconstruction, Effect of under
sampling : aliasing
6 SYSTEM MODELLING
AND REALIZATION 6 Hrs.
Modelling of mechanical and electrical
systems, CT & DT systems, realization
of system Direct form I & II ,
cascade form, parallel form, Lattice – ladder
structure .
REFERENCE BOOKS
Signals & Systems –
By- P. Ramesh Babu, R. Anand natranjan
Publication : Scientech,
Signals & Systems – Continuous and
Discrete
By- Rodger E. Ziemer. W.H. Tranter, D.
Ronald Fannin,
Publication : Maxwell Mac-Millan. Int.
Introduction to Signals & Systems –
By- Edward W. Kamen,
Publication : Maxwell Mac-Millan. Int.
Signals & Systems –
By- A.V. Oppenheim, A.S. Wilsky,
Publication : P.H.I.
Signals & Systems –
By- K. Uma Rao, Andhe Pallavi
* * * * * * * * * * * * * * * * * * *
*
Sem.
– VI (
5 )
INDUSTRIAL MANAGEMENT
.
Teaching scheme : Examination scheme:
Lecture Scheme : 3 hrs / per week
Theory : 100 marks( 3 Hrs.)
SECTION : I
1) Business
Environment : 2 Hrs.
Introduction , Environmental factors,
influencing business, external
environment, General environment, Task
environment, Business ethics
and social responsibility of business.
Effects of Globalization.
2) Functions of
Management: 9 Hrs.
Definition of management, Management
environment,
Planning : Need, Objectives, Strategy
, Policies, Procedures, Steps in
Planning, Decision making,
Forecasting.
Organizing : Process of organizing
importance and principle of organizing,
Departmentation, Organizational
relationship, Authority, Responsibility,
Delegation, span of control ,
Staffing : Nature , Purpose , Scope ,
Human resource management,
Policies, Recruitment Procedure
Training & Development, Appraisal methods.
Leading : Communication processes –
Barrier , Remedies, Motivation,
Importance, Theories, Herzbeg’s
Theory, Maslow’s Theory, McGrager
Theory, Leadership style,
Controlling : Process, Requirements
for control Management, Accountability.
3) Engineering
Economics : 5 Hrs.
Introduction to Basic Economics Terms
such as Demand & Supply,
Introduction, Time value of money,
Cash flows, Depreciation, Types of
depreciation, Reasons for
depreciation, Methods of computing depreciation,
Sinking Fund method, Declining Balance
method, Investment decisions for
capital assets, Evaluation criteria
for Investment decisions, Payback period,
Average rate of return. Benefit cost
ratio (BCR ), Cost accounting.
4) Financial
Management : 4 Hrs.
Sources of finance, Financial
statements, Balance sheet and P & L
accountant, Break even analysis and
its application, Accounting ratios, Cost
and cost control, classification of
cost – direct cost, indirect cost, overhead,
cost estimation of process, cost
control and cost reduction.
SECTION : II
5) Marketing : 3 Hrs.
Marketing Concepts :- Objectives-
Types of markets, Market Segmentation,
Market strategy -- 4 AP’s of Market,
Market Research, Salesmanship,
Advertising.
6) Production
Management : 6Hrs.
Selection of site, plant layout -
objectives , principles, types, merits and
demerits of different types of plant
layout, Function of Production Planning
and Control ( PPC ), PERT / CPM, Maintenance
Management, Introduction to
Industrial Engineering, Work Study,
Method Study, Work Management ,
Wages & Incentives.
7) Materials
Management : 5Hrs.
Definition, Scope , Advantages of
Material Management, Functions, Material
management, Materials requirements
Planning, Purchasing objectives, 5-R
Principles of purchasing, Functions of
Purchase Department, Purchasing
cycle, Purchase policy and procedure,
Evaluation of purchase performance,
Vendor selection, Vendor rating , Make
or Buy decisions, Inventory control –
ABC Analysis, EOQ, Inventory cost
relationship
8) Industrial Acts
and Industrial Safety : 2 Hrs.
Important provisions and Rules of
Indian Factory Act : Reasons for Accidents,
Prevention of Accidents, Promotion of
safety mind ness
9) Entrepreneurship
and Small scale Industry : 4 Hrs.
Concept of an Entrepreneurship,
Qualities required to become Entrepreneurs,
Definition of small scale Industry,
Procedure to start small scale industry,
Assistance and Incentives to SSI,
Feasibility report writing. Concept of MIS
Suggested Books
1) Management - James A.F .stoner ,
R.E Edward Freeman ,
PHI Publication , New Delhi .
2) Management Today – principles and
practice – Gane Burston and
manab Thakur, Tata McGraw hill
publishing company New Delhi.
3) Human Behavior at work organization
Behavior – Keith Davis – TATA
McGraw Hill Publishing Company New
Delhi
4) Business Management – J. p .Prose
,S.Talukdar –New Center Agencies Ltd
5) Industrial Organization and
Management – M.T.Telsang, S.Chand & Co.
6) Industrial Organization and
Engineering Economics – T.R. Banga./ S.C.
Sharma, Khanna Publisher,
7) Industrial Engineering and
Management – O. P.Khanna .Dhanpat Rai Pub
8) Industrial Engineering and production
management – by M.T.Telsang.- S.
Chand
9) Marketing Management – Philip
Kotler, PHI
10) Managerial Economics – Mote &
Paul, TMH
11) Financial Management 6 th edition –
Prasanna Chandra-TMH
12) Costing and Cost Control- Jawahar
Lal, TMH
***************
Sem.
– VI (
6 )
SOFT SKILLS
Teaching Scheme Examination Scheme
Lectures: 1 hrs/ Week Term Work : 50
marks
Practical: 2 hrs / Week
1. Introduction: People in social
context, skills, skill sets, hard & soft skills,
scope for developing soft skills. 2
Hrs
2. Self Improvement:
Self Analysis- Attitude, Aptitude,
Assertiveness, Self esteem,
Confidence, motivation, SWOT analysis.
3. Self Development- Goal setting,
Action plans, Time management,
change management, stress management,
creativity, innovation &
Entrepreneurial skills. 2 Hrs
4. Interpersonal skills: Communication
Skills- Voice, language, Body
language, Attire, use of communication
aids, presentation skills with
focus on seminars. Negotiation and
conflict resolution skills 2 Hrs
5. Interview Techniques: Personal
Interview – understanding the
interviewer, interviewee and interview
dynamics. Improving through
FAQ’s & understanding the common
mistakes.
Group Discussions: Types of GD’s, mode
of conduct, personal &
interpersonal traits evaluated. Do’s
& Don’t’s in Group Discussions.
6. Resume Writing: types, contents,
fields & creating impact. Net
etiquettes 2 Hrs
7. Working in Teams: Understanding
group dynamics & working
effectively within teams. Defining
common objectives, building rapport,
motivation, leadership, problem
handling. Planning for project work &
use of project evaluation tools.
Gender etiquettes.
8. Task Management: Identification,
planning, organizing, execution &
closing the task. 2 Hrs
9. Problem Solving: Steps-
Identification & clarification, Information
gathering, exploring alternate
solutions, Evaluation & selection,
implementation, review & iteration
as necessary.
Techniques- Trial & error, Brain
storming, lateral thinking.
2 Hrs
Term Work:
Term work will consist of at least
eight activities from the following list:
1. SWOT analysis by each student &
goal setting.
2. Identifying sources of stress &
undertake one method to cope with it.
3. Short presentations to demonstrate
communication skills.
4. Small group activity on
poster/model presentation.
5. Group Discussion on current issues.
6. Case study of a Successful
personality or Mock Interview.
7. Invited expert lecture by a doctor
/ industrialist on personality
development / job related issues.
8. Resume writing
9. Preliminary draft of proposed
seminar.
10. Preliminary draft of proposed
project work.
Reference Books:
1. Developing soft skills, Sherfield
Montgomery & moody
2. Presentation skills, Michael
Hutton, ISTE
3. Target setting & goal achievement,
Hale & Whilom, Kogan Page
4. Entrepreneurship for Everyone,
Robert Keller, Kingston Univ.
5. Emotional Intelligence, Daniel
Golman
6. Working in Teams, Harding, orient
Longman
7. Adam’s Time Management, Marshall
cooks, viva books
* * * * * * * * * * * * * * * * * * *
* * *
Sem.
– VI (
7 )
VISUAL BASIC &
LAB VIEW
Teaching Scheme Examination Scheme
Lectures: 3 hrs/ Week Term Work : 50
marks
Practical: 2 hrs / Week
SECTION : I
VISUAL BASIC
1 VISUAL BASIC CONCEPTS : 3 Hrs
Concepts, Cross object, property,
events, project, forms,
Menus, etc. Controls & events :
Scroll bar, slider, frame, picture box,
Image, File system controls, Timer
& OLE control, Basic controls.
2 VISUAL BASIC PROGRAMMING : 3 Hrs.
Data types, Arrays, procedures,
functions, control flow & loops,
operators, Date & time formats,
buttons & boxes, statements.
3 MODULES & CONTROLS : 6 Hrs
Modules, Class module MDI, Menu
Editor, Advanced controls :
Tree view, dialog box, image list etc,
Report generator : Concept
of data base, record, record set,
connection. DSN etc.
Data bound controls : text, combo,
listbox. DB grid, DB combo,
MS Flex grid. Visual data manager,
object connection, record set,
parameter,
cursor & lock types. Creating
reports using data & crystal report.
Active X controls.
4 FILE HANDLING IN VB : 4 Hrs
File commands & file handling
functions, sequential files : Reading
information from file, Adding to
existing files, Random access files,
SECTION : I I
LAB VIEW
PURPOSE :
To study Lab View software as a toll
to develop HMI, to implement SCADA and for
interfacing process parameters to PC
for developing PC based Instrumentation.
1
REVIEW OF VIRUAL INSTRUMENTAITON :
Historical perspective, advantages,
block diagram and
architecture of a virtual Instrument.
2
2
DATA FLOW TECHNIQUES :
Graphical programming in data flow,
comparison with
conventional programming.
1
3
ADDON PERIPHERAL CARDS, SELECTION AND
APPLICATION :
ADC, DAC, DIO, DMM, wave form
generator.
2
4
INTRODUCTION TO LABVIEW SOFRWARE AND
ADDON TOOLSETS.
2
5 LABVIEW: VI and sub-Vis, loops and
charts, arrays, clusters,
and graphs, case and sequence
structures, formula nodes,
local and global variables, string and
file I/O
3
6 APPLICATIONS OF VIRTUAL
INSTRUMENTATION :
Process control applications,
Temperature Data Acquisition
System, and Motion control employing
stepper motor.
2
References:
1) National Instruments User manual
2) National Instruments product
catalog
3) Virtual Instrumentation Using Lab
view by Gupta S. ( TMH )
REFERENCE BOOK :
1) Programming in VB By: P.K. McBride
2) Mastering in VB By: Evangelos
Petroutsos
3) The complete reference VB.6 By:
Noel Jerke
4) Programming in VB.6 By: Rajendra
Salokhe
EXPERIMENTS :
Minimum 15 experiments should be
performed related to syllabus contents. And 1
mini project related to Process
Instrumentation for Termwork
( Minimum 4-5 students / group for
Mini project )
• * * * * * * * * * * *
* * * * *
Shivaji University, Kolhapur
Equivalences of T.E.
Instrumentation for repeater students
T.E.
(Instrumentation) Sem.-V
Revised subjects
1 Fiber Optics &
Laser Instrumentation 1
Fiber
Optics & Communication
2 Modern Control Theory 2 Advanced Control
Systems
3 Microprocessor
Techniques & Interfacing 3 Industrial Automation-I
4 Industrial & Power
Electronics 4
Industrial
Power Electronics
5 Industrial
Organization & Resource
Management
5 Industrial Management
6 Programming Techniques
–II 6
MATLAB
Programming
T.E.
(Instrumentation) Sem.-VI
Revised subjects
1 Process
Instrumentation 1
Process
Control
2 Chemical &
Analytical Instrumentation 2 Analytical Instrumentation
3 Microcontrollers &
Applications 3
Microcontrollers
& Applications
4 Biomedical
Instrumentation 4
Signals
and Systems
5 Unit Operation 5 Unit Operation
6 Metrology &
Precision Measurement 6
Visual
Basic and Lab view
7 Practical Training /
minor Project /
Industrial Visits
7 Soft Skills
