Computer
Communication & Networking – ES 401
Disciplines : B.E.
Electronic Engineering
Term : First Term Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
Objectives: Tech the
concept. Techniques, and deices of computer-Based communication networks
including modulation techniques. Multiplexing. Digital carrier systems. GSM.
TCP/IP, LAN systems, Networks security, and Voip
Course Outline:
Communication concept and terminology.
Transmission impairments, transmission media (guided and unguided).
Synchronization code. Modulation techniques. Error detection, HDLC protocol.
Multiplexing (FDM and simple TDM), digital carrier systems (ISDN and
SONET/SDH), asymmetric digital subscriber line (ADSI), circuit switching,
packets switching, routing algorithms X.25, ATM and frame relay. Cellular
digital packet data and Global Systems for Mobile Communication (GSM), network
types. Networks topologies, ISO-OSI
model, TCP/IP introduction. LAN Systems (Ethernet, token ring, FDDI), LAN
devices (repeater, hubs, bridges, switches) principles of internetworking,
wireless internetworking , IP multicasting, routing protocols. Connection
oriented protocol, networks security requirement. Public encryption and digital
signatures. Network management protocol, e-mail protocols, hypes text transfer
protocol, DNS (domain name systems) introduction to VOIP
Lab
Outline:
Demonstration of various multiplexing
techniques. Demonstration of circuit switching and packet switching, TCP/IP modules.
Small scale networks design. Wireless Lan.
Recommended Books
- William Stallings, “Date and Computer
Communications” Seventh Edition, 2004 Prentice Hall, ISBN-10:0131006819,
ISBN : 9780131006813.
- Andrew Tanebaum, Computer networks, Fourth
Edition, 2003, Prentice Hall, ISBN – 10-0130661023, ISBN-13 :
9780130661029.
- Behrouz A Forouzan, Date Communications
Networking, Fourth Edition, 2007,
McGraw Hill, ISBN : 0073250325.
Power
Electronics – ES 402
Disciplines : B.E.
Electronic Engineering
Term : First Term Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
Objectives:
Teach the power semiconductor devices
and circuits for the conversion of electric power of a given form into desired
form, Introduce the applications of power electronics including rectifiers,
inverters, UPS, and motors drives.
Course
Outline:
Introduction and scope of power
Electronics. Solid state devices used in power electronics. Power diode, Power
BJT, Power MOSEFT, SCR, GTO, IGBT, TRIAC, DIAC, Characteristics, Construction,
Operation, Technology of devices. Rating, Losses & Efficiency calculations.
AC To DC Converters
Diode rectifiers : Single phase Half
wave, single phase and 3 phase, 3 pulses, 12 pulse and 24 pulse rectifiers,
Controlled rectifiers, Semi controllers and full controlled and un controlled
rectifiers, PWM, Converter and its types AC to AC Converter.
Single phase DC to AC Converters,
Generation of Step and Sine Waves.. PWM Inverters. Harmonics in PWM Converters,
UPS.
Switch Mode Power Supplies
Linear Power Supplies, Introduction to
Switch Mode Power Supplies, Basic Switch Mode Topologies, Buck, Boost and
inverting Converters, Forward converters, Single ended, Double Ended and
interlaced topologies, Push-pull, Half Bridge and Full Bridge Converter,
Feedback control., Current Mode control. PWM Control Chips. AC and DC Motor Drive.
Lab
Outline:
Analyze the characteristics of power
semiconductor devices, Analyze the Thyristor firing circuits, Pulse width
modulator, Buck, Boost and inverting converters, Flyback converter, Inverters,
Speed control of DC motors.
Recommended
Books
- Cyril W, Lander, Power
Electronics, Third Edition, 19993, McGraw-Hill
UK, ISBN :
0077077148. EAN : 9780077077143,
- Muhammad H, Rashid
“Power Electronics : Circuits, Devices and Applications” Third Edition
2004, Prentice Hall, ISBN-10: 0131011405 ISBN-13-:9780131011403.
- Ned Mohan, William P,
Robbin and Tore M Undeland, “Power Electronics” Converters, Applications
and Design, Media enhanced”. Third Edition 2003, John Wiley and Sons, ISBN
: 0-471-42908-2.
Microwave
Engineering – ES 403
Disciplines : B.E.
Electronic Engineering
Term : First Term Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
Objectives:
Microwave engineering is essential
for undergraduate students to understand the advance concepts in the flied of
modern telecommunications.
Course
Outline:
Transmission
Line Waves (TEM-Waves)
Waves on transmission line. Traveling
waves and standing waves. Propagation characteristics. Group and phase
velocity, Reflection on transmission Impedance of Transmission line, impedance
and Admittance of Transmission line, Plotting of s-parameters on Smith chart,
Sources of attenuation. Mismatch loss, Return loss, VSWR.
Wave-guides
& Components
Principle & Types of wave-guides,
field patterns, slots,
Rectangular wave-guides. TE & TM
waves in rectangular wave-guide : wave and characteristic impedances. Group and
Phase velocities. Cut-off frequencies in rectangular wave-guides.
Wave-guides junctions : E & H tees,
Hybrid tees : Directional couplers.
Microwave
Devices
Transistors, Varactors, Step recovery
diodes. Multipliers, Parametric Amplifiers, Tunnel diodes, Negative Resistance
Amplifier, Gunn effect, Avalanche Effect Diode and others microwave diodes,
Klystron and Magnetron and Traveling wave tube.
Microwave Detection
Detection Theory : Square Law &
Crystal detectors circuits and their sensitivity.
Microwave
Mixing
Theory of Mixing Conversion loss.
Parametric Amplifiers, Mainly-Rowe Power relationship, Parametric voltage
amplifications. Harmonic frequency conversion.
Microwave IC Technologies
HMIC (Hybrid Monolithic Integrated
Circuits). MW ICs. Applications & Limitations.
Lab
Outline:
Measurements of VSWR, Measurements of
diode detector law, Measurement of Impedance & impedance matching Mismatch
& return loss, Horn antenna investigation, Use of directional coupler in
power transmission and reflector measurements, Series, Shunt and Hybrid T
Junctions. Microwave Radio link investigations. Microstrip investigations, Pin
diode investigations.
Recommended
Books
- Microwave Engineering
By Pozar M.D.
- Microwave Radar:
Principles and By A.K Miani Applications.
- "Microwave
devices" Smuel B Layo
Laser
& Fiber Optics – ES 404
Disciplines : B.E.
Electronic Engineering
Term : First Term Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
Objectives:
Teach the principle of laser and the
use of laser and others components in optical fiber communication.
Course
Outline:
Optical beams and resonators including
ray tracing. Optical fiver wave guides. Transmission characteristics, Optical
fiber cables and connection. Optical fiber measurement. Semiconductor and
non-semiconductor laser, Receiver characteristics. Gaussian beam propagation.
Stable and unstable resonators. Classical theory of spontaneous and stimulated
emission including a discussion of homogeneous line broadening, Laser spiking
and mode competition. Q-switching, Active and passive mode locking. Injection
locking, Single frequency operation. Introduction to fiber lasers and active
optical fiber devices. Design consideration of fiber optics communication
systems. Analog modulator. Noise in detection process, BIT error rate (BER).
Systems design, Maximum transmission distance due to attenuation and
dispersion.
Lab
Outline:
Semiconductor lasers, Study of fiber
optic cable. Study and performance of different measurements of optical fibers
like numerical aperture. Effect of electromagnetic interface, losses, Splicing
techniques and interfacing. Study of different types of optical sources, Their
characteristics and measurements, Setting up fiber optic analog and digital
link. Noise deduction in link, Pulse broadening in fiber communications
Recommended
Books
- Harold Kolimbiris.
:Fiber Optics Communications” 1st Edition 2004, Prentice Hall,
ISBN-0130158835
- Gerd Keiser, “Optical
Fiber Communications, “ Third Edition, 2009, McGraw-Hill, ISBN :
0072360763.
Project
Management – BS 401
Disciplines : B.E.
Electronic Engineering
Term : First Term Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (50) Practical
(00)
Objectives: It enable
to learn about different aspects of management of projects
Course
Outline:
Role of project in organization’s
competitive strategy. Standard methodologies for managing project life cycle,
Design implementation interface, Estimating, Contractual risk allocation.
Scheduling. PBS and WSB, integration of scope. Time Resource and cost
dimensions of a project: Evaluations of labor, Material, Equipment and
subcontract resources: Scheduling techniques such as CPM/PERT and GERT, Critical
chain, Soling real-world project schedules. Cost budgeting, Cost baseline Cash
flow analysis, Earned values analysis, Cost control, Proposal presentation,
Applications of software for project management.
Recommended
Books
- Stanly E, Portny
“Project Management for Dummies” , 2001 or lasted Edition
- James P. Lewis:”
Project Manager pocket survival guide:” McGraw-Hill, 2003
Professional
& Social Ethics – BS 402
Disciplines : B.E.
Electronic Engineering
Term : Second Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (50) Practical
(00)
Objectives:
To teach the engineers the
professional conflicting issues concerns, Moral values. Social behaviors,
Professional and ethical trends in order to groom their skills, In order to
produce responsible engineers & citizens.
Course
Outline:
This course introduces contemporary and
controversial ethical issues facing the professional community. Topics include
moral reasoning, moral dilemmas, law and morality, Equity. Justice and
fairness, Ethical standard and moral development. Upon completion should be
able to demonstrate an understanding of their moral responsibilities and
obligations as members of the work fore and society.
Recommended
Books:
- C, Ferrell, John
Fradedrich and Linda Ferrell, “Business Ethics: Ethical Decision Making
and Cases”. Six Edition, 2005, Houghton Mifflin Company, ISBN: 0618395733.
- Mike W, Martin and
Roland Schinzinger, “Ethics in Engineering,:” Fourth Edition, 2005, McGraw-Hill,
ISBN : 0072831154.
Automation
& Robotics – ES 405
Disciplines : B.E.
Electronic Engineering
Term : Second Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
;)
Objectives: Teach the
concept of automation and use in various industrial applications such as PLC
and Data acquisitions and the fundamentals and applications of robots including
robot hardware and design of controller.
Course
Outline:
Automation
Introduction to automation and automatic
control systems,. Its significance and implementation in industries.
Sensors
Motion and position sensors. Force
sensor, Hydraulic and Pneumatic sensor, Temperature sensors, Light, and humidity
sensor.
Types
of Actuators
Electromechanical actuators, Hydraulic
actuators, Pneumatic actuators
Controllers
Introduction to compensation, lead
control, Lag control. Lead-lag control Applications to PID controllers,
Ziegler- Nichols rules. Computer control. Computer-process interface, Digital
input/output processing Remote position control, Examples on position control.
Process control. Analog and digital electronic process controllers, Hybrid
systems. Practical examples.
PLCs Ladder Diagrams, industrial
control using PLCs Data acquisition. DCS (distributed control systems) in
process industries. SCADA system.
Robotics
Introduction to robots, robot
fundamentals and application, classifications of robots, hardware, robot
sensors, robot/system integrations: Mathematical modeling of robot mechanism
and the analysis methods used to design control laws for these mechanisms.
Lab
Outline:
Experiments to introduce the student
the basic robotics and programming of programmable devices used in the robotics
field.
Recommended
Books
- R.R Hunter, “Automated
Process Control Systems” Prentice Hall Ine, ISBN-10:0130544795.
ISBN-13:9780130544797
- N.M. Morris, “Control
Engineering” McGraw Hill, ISBN: 0070940673.
- Dr, Malcolm Jr,
“Robotics an Introduction” Breton Publishes. Frank, D, Petruzella
“Programmable Logic Controllers” Third Edition, 2005, McGraw Hill : 2005,
ISBN : 0078298520
- Industrial Electronics
by Chasles A. Schuler.
Mobile
& Wireless Communications – ES 406
Disciplines : B.E.
Electronic Engineering
Term : Second Term Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
Objectives:
To understand the basic concepts of Mobile
Communication and the new emerging technologies like GSM, WIMAX and CDMA and
its applications in mobile and Wireless Communication.
Course
Outline:
Mobile
Antenna
Smart mobile antennas, cellular
wireless antennas, omni directional and directional antennas. Antenna power,
Mobile radio systems, Mobile telephone
services (MTS), improved mobile telephone services (IMTS), Advanced mobile
telephone services (AMTS),
Mobile radio channel characteristics,
Properties of transmission channel. Mobility & Channel fading, Types of
channel fading (Slow fast, flat, selective).
Cellular
Communications
Introduction to cellular communication.
Main components of cellular telephone systems (i-e mobile unit, BTS (Base
Transceiver Station). MTSO (Mobile Telephone Switching Officer) transmission
line, PSTN (Public switched telephone network), Frequency reuse in cellular
communications. SIR.
Shape of a cell, cell size, selection
of cell site location, Cell clusters, Cell capacity, Signal calcutation, the
hexagon grid.
Modulation techniques in cellular
systems, OFDM, Multiple access techniques for wireless communication, First
generation telephone, Second generation telephone, Third generation telephone
(i-e AMPS, GSM, CDMA), Trunking theory and systems, Mobility management.
Introduction to wireless LANs,
Characteristics of wireless LANs, Advantages and disadvantages of WLAN. Types
of WLANs (i.e. infrastructure based, network, adhoc Networks.), IEEE 802.11
WLAN standard, IEEE reference 802.11 model. Introduction to Blue tooth
technology, Wireless applications protocols (WAP). Wireless markup language
(WMI)
Lab
Outline:
The Practical work will be based on
above course.
Recommended Books
- William Stallings
“Wireless communications & networks’’
- S. Rappapot “Wireless
communications Theodore” ISBN : 0780311671.
- M. Schwartz “Mobile
Wireless Communication” Cambridge
University Press,
ISBN-139380521843478.
Telecommunication
Systems & Applications – ES 407
Disciplines : B.E.
Electronic Engineering
Term : Second Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (100) Practical
(50)
Objectives:
To study the basics of currently
being used modern telecommunications systems and their applications,
Course
Outline
Telephony
The public telephone. Telephone
systems, Telephone circuits and switching systems.
Telex Systems Transmitter and receiver
systems/
Television
Fundamental principles of electronic
inter load scanning and synchronization. Modulation of video and audio signals
Camera tube. Vision-missing, pulse generation and signal distribution of closed
circuit systems. Colour television.
Radar
Principle of Radar.
Radar range equation, Introduction to
simple Radar System.
Satellite Communications
Orbits, launching of objects in to
space.
The satellite communications concept
(up-link and down link). Frequency band. Calculation of path loss, Gain, EIRP,
Power density. C/N and G/T.
Modulation Formats And Access
Techniques
Frequency Division Multiple Access
(FDMA) and Time division multiple Access International. Domestic and regional
satellites.
Lab
Outline
Local subscriber loop Call setup Trunk
calls. Telephone exchange. Digital telephone exchange. Super heterodyne, AM
& FM receiver, Understanding of TV systems and faults, Radar and satellite
operation.
Recommended
Books
- G. Kennedy,
“Electronic Communication Engineering” .
- Atkinson, “Telephone” ,
Volume I and II.
- G. H. Huston,
“Television and Recover Theory”
- Robert Galiar,
“Satellite Communication”
- Maral, G, “Satellite
Communication” Louis E. Frenzel ‘’Principal of Electronic Communications
System’’ McGraw Hill, ISBN-0028004094.
- John Proakis. Masoud
Salehi “Communication Systems engineering” Second Edition Prentice Hall,
2002, ISBN : 9780130617934.
Electronic
Engineering Project / Thesis – ES 400
Disciplines : B.E.
Electronic Engineering
Term : Second Final Year
Effective : 09ES-Batch
and onwards
Marks : Theory (00) Practical
(200)
Course
Outline
To give the student a chance for
enhancing their technical capabilities by implementing their theoretical and
practical knowledge in the field of Research and Development, Student should
complete background study in simulation / design of the Project, Hardware
Software implementation of Project design. Testing,, debugging, Project report
submission and presentation.
The fields of research and development
are as under.
- Design and Construction of Microcontroller based
small electronic device or a pieee of apparatus.
- Detailed experimental study of a complex
Electronic devices or a pieee of apparatus,
- A survey report on an Electronic devices or a
pieee of apparatus compiled through the assessment of publications in
technical journals of international repute.
- Model design of a Telecommunication System or an
Industrial control System.
- Computer Analysis of a simple Electrical
Engineering problem,
- Detailed Study of any existing Telecommunication
Systems form the Technical point of view and Submission of a Technical
report on that Systems.
- Development of PC-based instrumentation.
- Computer Aided Design of Systems.
- Development of Simulation Software.