EC- 701 FIBRE OPTIC COMMUNICATION

 1.         FUNDAMENTALS OF OPTICAL  FIBER:

 Block diagram of general optical  Fiber comm. system. Comparison with other communication system.Different. types of optical fiber Applications.

 2.         RAY  THEORY TRANSMISSION :

            Total  internal  reflection. Acceptance angle. Numerical  aperture. Skew  rays. Phase & group  velocity.Mode coupling, cutoff   wavelength. V number etc.

 3.         TRANSMISSION  CHARACTERISTICS  OF  OPTICAL  FIBERS:

 Attenuation like,  Material  absorption  losses,  Linear  & non linear  scattering losses, Fiber band losses, etc.. Dispersion different types like Inter modal   dispersion, Intramodal  Dispersion  with necessary  derivations, overall  fiber dispersion, different  techniques  of reducing  dispersion.

 4.         OPTICLA FIBER  CONNECTIONS :

Fiber  alisgnment  & joint  loss. Fiber  splices. Fiber  connections.

5.         OPTICAL  SOURCE  ( LASER )

Absorption  &  emission  of radiation. Einstein  relation.  population inversion. optical  feedback  & laser oscillation.Threshould  condition  for laser  oscillation.      spontaneous  , stimulated  emission  & lasing.  LASER  Rate  equation.LASER  efficiencies, characteristics &  structures.

 6.        OPTICAL  SOURCE LED :

 LED  power  &  efficiency  structures  characteristics  Modulations.

 7.         OPTICAL  DETECTOR :

Device types, principles, absorption, Quantum  efficiency, responsibility, Long  wave length  cut off,  semiconductor  photodiodes without  internal  gain  & with internal  gain.

 8.         DIRECT  DETECTION RECEIVER  :

Noises like Thermal noise, dark current noise, quantum noise, Digital  signalling etc. Receiver  noises, capacitance and bandwidth in P-N,  P-I-N  and Avalanche photodiode. Different Receiver  structures.

 9.         OPTICAL  FIBER SYSTEM :

Optical  Tx. ckt.  Optical  Rx. ckt. System  design  considurations. Analog  & digital  system. Different Multiplexing  techniques.

BOOKS :

OPTICAL  FIBER COMMUNICATION BY JOHN M. SENIOR

FIBER OPTIC COMMUNICATION SYSTEM   D.C. AGARWAL      

OPTICAL COMMUNICATION  SYSTEM   JOHN  GOWAR ( PHI )

FIBRE OPTIC IN TELECOMMUNICATION   N. SHARMA  TATA McGraw Hill

AN INTRODUCTION  TO  OPTICAL  FIBERS    ALLEN  H. CHERIN   TATA McGraw  Hill

EC- 702    E.P.  I 

(1) Medical Electronics

1.         INTRODUCTION : 

Electrical  properties of Biological  Tissues, Generation  of cellular biopotentials, Sources  of bioelectric potential, elementary aspects  of  volume  conductor  theory as  it  applies  to the sources and measurement of ECG, EMG  and Eeg, Signal characteristics  of ECG,  Emg and  EEG,  special  aspects of  interfacing electronic  equipment  with  the living body particularly  the problems of  ;  variability , signal  modification  by instrumentations, Body  interface  and safety  consideration. 

2.         BIOMEDICAL TRANSDUCERS :

Principles of  action, method of usage, Techniques for Testing Blood pressure, Blood flow,  Blood PH,  Respiration,  Eyeforometer, Ultrasonic  method  in biomedical  measurements.

3.         RECORDING OF BIOMEDICAL  EVENTS : 

Kinds of  electrodes,  Amplifiers and display  units used for recording bioelectric  potentials, principles, specifications modes of  working & testing procedures of  ECG, EMG and EEg,  Effect  of noise,   Isolation  grounding and shielding Techniques.

4.         MEDICAL  IMAGING AND COMPUTER  APPLICATIONS :

Production  and use of X-ray , Laser  Computer assisted tomography (CAT ),  Ultrasonic  methods pulsed and doplar, Elements of  intensive care monitoring, patient  monitoring system,  Biomedical  computer  applications.

5.         ELECTRONICS  MEDICAL  INSTRUMENTS :

Electronic  pace makers,  Defibrillators,  Micropower  Transmitter for Telemetering  bio-signals,  special  characteristics of  CRO  in medial  application,   shortwave,  Microwave,  Diathermy,  Basic  study of  complete pulse generator  system  for  simulation  of   physiological  waveforms.  

BOOKS:-        

1.ELECTRONIC ISNTRUMENTATION  FOR MEDICAL APPLICATION       DR.R.S. KHANPUR KOTHARI PUBLICATION

2.BIOMEDICAL  INSTRUMENTATION AND MEASUREMENTS LESLIE  CROM WELL,FRED J. WELL  ERICH A. P.  FEIFFER- PHI  

3. PRINCIPLES OF  APPLIED  BIO-MEDICAL  INSTRUMENTATION       LA  GEDDESS & L  E  BOKER-JOHN WILEY  & SONS NEW YORK..

4. INTRODUCTION  TO MEDICAL  ELECTRONICS S K  GUHA BHARTI  BHAWAN,  PUNA

(2) Digital Computer Organisation

1.        DIGITAL COMPUTER ARCHITECTURE:

General purpose registers, Program counter, Memory address & data registers, Instruction registers. Control units, arithmetic logic unit. Flags, Program status word. Execution of a single instruction: Fetch & Execute cycles.

2.         INSTRUCTION SET:

Conditional and unconditional transfer of control, Addressing modes, stack operations, Subroutines CALL & RETURN mechanisms, Introduction to assembly language programming.

3.         CONTROL UNIT:

Sequencing of control signals, Micro programmed & Hardwired control RISC & CISC architectures.

4.         FLOATING POINT NUMBER REPRESENTATION AND ITS PROPERTIES:

IEEE Standard, algorithm for the addition of floating point Numbers.

5.         MAIN MEMEORY SYSTEMS:

Organization of static and dynamic, Random memory, Read-only, Programmable read only and erasable programmable read-only memories. Memory addressing .

6.         MEMORY MANAGEMENT

Criteria—security, relocatability and sharing, Contiguous and non-contiguous allocation. Virtual memory system; working set; demand paging; page replacement strategies. Cache memories. Memory hierarchy.

7.         INPUT AND OUTPUT SYSTEMS:

Device selection. Synchronization . Interrupts. Programmed data transfer; direct memory access. I/O channels and I/O processors.

8.         T/OUTPUT  AND MASS STORAGE DEVICES:

Organization of disk and tape storage systems. Computer terminals and workstations. Computer networks.

REFERENCE BOOKS:

1.        Hamacher, Vranesic and Zaky

          Computer Organization

          Mc Graw Hill International Student Edition

2.       Williiam Stallings

Computer Organization and Architecture

Maxwell Macmillan International Edition. 

3.         John P Hayes  (MGH)

            Computer Architecture and Organization

4          M Morries Mono  (PHI)

            Computer System Architecture

* Term work/Practical shall be based on above syllabus

 (3) Satellite & space Communication

1.         INTRODUCTION :

Historical  progress,  orbits  of satellite, Types  - Low  Medium  Geo-stationary , Main  characteristics angle,  shape, period.

2.         SATELLITE LINKS :

General  characteristics, delay,  transponders, earth    station,  antennas and earth  coverage,  attitude control, ellipses.

3.        SATELLITE CONSTRUCTION :

   Subsystems  & functions, antennas, transponders, power supplies, command  & telemetry, thrust & stabilization.

4.         EARTH  STATION :

General  Block  schematics,  transmitter  &  receivers,  antenna,  system  & tracking,, Multiplexing,  space time  & frequency  multiplexing. 

5.         MULTIPLE  ACCESS   PRINCIPLES  AND TECHNIQUE :

FDMA,  Spade system, TDMA – system concept of   configuration  system   timing,  Frame   format Basic  principles of  spread  spectrum, Multiple  access. 

                                  MOBILE COMMUNICATION

6.        INTRODUCATION TO MOBILE COMMUNICATION :

           Applications, A short history of wireless communication, A market for mobile comm,

7.        TELE COMMUNICATION SYSTEM :

           GSM, DECT, TETRA,  UMTS, &  IMT 2000.

8.        SATELLITE  SYSTEMS :

           History, Applications, Basics,  Routing, Localization, Handover.examples. 

9.        BROADCAST  SYSTEMS :

           Overview, cyclic  repetition of  data, Digital Audio broad casting, digital video broadcasting.

10.      WIRELESS  LAN :

           Infrared vs  Radio  Transmission, Infra structure, &  Adhoc Network, IEEE 802.11, Hiper lan,Blue tooth.

11.       WIRELESS ATM :

Motivation  for  WATM, wireless ATM, working group, WATM services, reference model, functions, handover,  location management, addressing, mobile quality of service, access point control protocol.

12.        MOBILE NETWORK LAYER :

Mobile IP, Dynamic host configuration protocol, Adhoc networks.

13.        MOBILE TRANSPORT LAYER :

Traditional  TCP 292,  Indirect TCP, Snooping TCP, Mobile TCP, Fast re transmit/Fast recovery, transmission/timeout freezing,  selective re transmission, Transaction oriented TCP.  

BOOKS :  

1.      J. ,Martin -  Communication  Satellites  ( PH )

2.      J. J. Spilker – Digital   Communication  by Satellites  ( PH ) 

3.      R.M. Gagliardi -  Satellite  Communication  - CBS   Publications

4.      FEHER  - Digital  Communication  with special  Emphasis  of  to  satellite  Earth  station  Engineering ( PH )         

5.  Mobile communication by  jochen schiller  pearson Education Asia.

(4) VLSI TECHNOLOGY & DESIGN

1.          MOS TRANSISTOR :  

The metal oxide semiconductor ( MOS ) structure, The MOS system under external bias, operation of MOS transistor, MOSFET current –voltage characteristics, MOSFET scaling & small geometry effects, MOSFET capacitances.

2.          MOS INVERTERS : 

 STATIC CHARACTERISTICS : Resistive load inverter, Inverter with Enhancement type  MOSFET load, Inverter with Depletion type MOSFET load, CMOS Inverter.

3.          MOS INVERTER :

DYNAMIC CHARACTERISTICS : Delay-time definitions, calculation of Delay times, CMOS Ring oscillator circuit, Estimation of Interconnect parasitics, Dynamic power  Dissipation of CMOS Inverters.

4.          COMBINATIONAL MOS LOGIC  CKTS :

 MOS logic ckts with Depletion  MOS Loads, CMOS logic ckts, complex logic ckts,          CMOS  Transmission  Gates ( TGs ) and  TG Logic.

5.          SEQUENTIAL MOS  LOGIC CKTS :

 Behaviour of Bistable elements, The SR latch ckt, Clocked latch & Flip- flop ckts,  CMOS  D-latch & Edge –trigged flip-flop.

6.          DYNAMIC  LOGIC   CKTS :    

Basic principles of pass transistor ckts, voltage Bootstrapping, synchronous Dynamic circuits Techniques, High performance Dynamic CMOS ckts.

7.          CHIP I/P  AND O/P  CIRCUITS : 

 On chip  clock  Generation and Distribution, Latch –Up  and its prevention.

8.          VLSI  DESIGN METHODOLOGIES :

 VLSI  design flow, design Hierarchy, concepts of regularity, modularity and locality, VLSI  design styles,  design quality, packaging technology, computer-aided design  technology.  

9.           DESIGN  FOR TESTABILITY :

      Fault  types and models,  controllability and observability, Adhoc Testable  techniques, scan-based techniques,  Built  in self Test ( BIST ) techniques, current monitoring IDDQ  test. 

10.        FPGAs

11.        PLDs

12.       VHDL : 

Introduction to VHDL, Basic syatax & language elements, Behavioural modelling, Dataflow modelling,  structural  modelling.

 BOOKS :

1.VLSI system design             MARUGA  WILEY

2.Introduction to VLSI  systems    MEAD C AND CORNWAY  L, ADDISON  WESLEY

           3.CMOS Digital  integrated ckts- Analysis and Design by Sung- Mo Kang, Yusuf   Leblebici McGraw Hill, international  ed.

            4.Learning material by Dr. H.S. Jamadagni, CEDT, IISC, Bangalore.

            5.VHDL FOR PROGRAMMABLE LOGIC BY KEVIN SKAHILL, ADDISION

WESLEY, 1996

6.VHDL PRIMER BY J. Bhaskar,  Addisiion  wesley, pearson Ed :  

7.BASIC VLSI  DESIGN BY  PUCKNELL  & ESHRAGHIAN, PHI 3Rd ed.  

            8.VLSI  system design by  saburo Muroga, John  wiley & sons.

9.Introduction  to VLSI systems by Mead C & Conway, Addision wesley.

(5) OBJECT ORIENTED PROGRAMMING 

·              Principles of OOPs:

A look at procedure oriented programming language, oop paradigm, benefits of oop, application of oop.

·           Introduction to C++:

     Applications of c++ program,  More c++ statements, Structure of C++ program, Creating the Source code, Compiling and Linking.

·          Tokens, Expressions and Control Structures :

     Introduction, Tokens, Keywords, Identifiers, Basic Data Types, User defined Data Types, Derived Data Types, Symbolic Constants, Type Compatibility, Declaration of Variables, Dynamic Initialization of Variables, Reference Variables, Operators in C++, Scope Resolution Operator, Member Dereferencing operators, Memory Management Operators, Manipulators, Type Cast Operator, Expression and Implicit Conversion, Operator Overloading, Operator Precedence, Control Structures.

·           Functions in C++ :

   Introduction, The Main Function, Function Prototyping, Call by Reference, Return by Reference, Inline Functions, Default Arguments, const Arguments, Function Overloading, Friend and Virtual Functions.

·           Classes and Objects :

     Introduction, C Structure Revisited, Specifying a Class, Defining Member Functions,  A C++ Program with Class, Making an Outside Function Inline, Nesting of Member Functions, Private Members Functions, Arrays Within a Class, Memory Allocations for Objects, Static Data Members, Static Member Functions, Arrays of Objects, Objects as Function Arguments, Friendly Functions, Returning Objects, const Member Functions, Pointers to Members.

·           Constructors and Destructors :

    Introduction, Constructors, Parameterized Constructors, Multiple Constructors in a Class, Constructors with Default Arguments,   Dynamic Initialization of Objects, Copy Constructor, Dynamic Constructors, Constructing Two- Dimensional Arrays, Destructors.

·          Operator overloading and Type Conversions :

    Introduction, Defining Operator Overloading, Overloading Unary Operators, Overloading Binary Operators, Overloading Binary Operators Using Friends, Manipulation of Strings Using Operators, Rules for Overloading Operators, Type Conversions.

·           Inheritance:

    Extending Classes : Introduction, Defining Derived Classes, Single Inheritance, Making a Private member Inheritable, Multilevel Inheritance, Multiple Inheritance, Hierarchical Inheritance, Hybrid Inheritance, Virtual base Classes, Abstract Classes, Constructors in Derived Classes, Member Classes : Nesting of Classes.

·          Pointers, Virtual Functions and Polymorphism :

    Introduction, Pointers to Objects, this Pointer, Pointers to Derived Classes, Virtual Functions,Pure Virtual Functions.

·           Managing console I/O Operations :

     Introduction, C++ Streams, C++ Stream Classes, unformatted I/O Operations, Formatted Console I/O Operations, Managing Output with Manipulators.

·          Working with Files :

     Introduction,  Classes for File Stream Operations, Opening and Closing a File, Detecting End-of-File, More About Open() : File Modes, File Pointers and Their Manipulations, Sequential Input and Output Operations, updating a File :Random Access, Error handling During File Operations, Command-Line Arguments.

·          Object- Oriented System Development :

   Introduction, Procedure-oriented Paradigms, Procedure-Oriented Development Tools, Object-Oriented Paradigm, Object-Oriented Notations and Graphs, Steps in Object Oriented Analysis, Steps in Object-Oriented Design, Implementation, Prototyping Paradigm, Wrapping Up.

Text Books:

Object Oriented Programming with C++

                             By : E. Balagurusamy

Ref. Books : OOPs By: Robert Lafore

* Term work/Practical shall be based on above syllabus.

EC- 703  TELEVISION  RECEIVER

1.         REVIEW OF ESSENTIALS OF B/W COLOUR T.V. SYSTEM TRANSMISSION   

FUNDAMENTALS.

2.         MONOCHROME T.V. RECEIVERS :

Block  diagram of T.V receiver, front panel  controls, construction and working

of monochrome tube.  Details of requirements, working, performance characteristics and design consideration  of an illustrative circuit of each stage of monochrome  T.V. receiver. study of various  I.C.s. used in monochrome T.V. set.

3.         COLOR  TELEVISION RECEIVER :

Block  diagram of color T.V receiver, Detailed study of stages different from  monochrome T.V receiver, various  I.C. s  used for color T.V  receiver, different types of color picture tubes.

4.         SATELLITE TELEVISION :

Satellite   orbits,   Satellite  communication,  Television   via satellite,     Earth station front end converters, Earth  station receivers Rebroadcast      over  high  power   &   low   power

transmitters.

5.         CABLE TELEVISION :

MATV,    CCTV,   CATV,   Modern  cable  TV  systems,  Cable    TV  coverters,   Pay     Television, Scrambling of TV  signal,  Fiber optics.

6.         ADVANCE IN TELEVISION TECHNOLOGY :

Projection   Television,   Stereo   sound   in   television,   3D        Television     Pictures,  Digital  Television, Digital  Equipment  for TV  studio,  HDTV,    Flat panel display, Colour receivers of new generations, Teletext.

7.         MISCELLANEOUS :     

            T.V servicing for monochrome  and color receiver, study of various instruments

          required for servicing T.V sets,  remote control.,

BOOKS :

1.Modern Television  practice by R.G. Gulati , Willey Eastern.

2.Monochrome and color  television. R.R. Gulati, Willey  eastern

3.Television  Engineering Arvind M.  Dhake,  TMH

4.Basic  Television  transmission and reception Maini  Anil  K CBS  Publishers

5.Color Television R. R. Gulati, Willey eastern

6.Basic  Television  principles and servicing    Grob 

7.Television simplified 

Practical and term work shall be based upon  the above syllabus.

EC- 704     DATA COMMUNICATION AND NETWORKING  

1.  INTRODUCTION :

DATA COMMUNICATION:- Components

NETWORKS :-          Distributed processing , Network  criteria ,Applications

PROTOCOLS AND STANDARS :- Protocols, Standards

STANDARDS  ORGANIZATIONS :- Standards creation  committees, Forums , Regulatory  Agencies

2.  BASIC  CONCEPTS :

LINE CONFIGURATION :- Point-to-point,     Multipoint

TOPOLOGY :- Mesh, star, Tree, Bus, Ring , Hybrid  Topologies

TRANSMISSION  MODE :- Simplex, Half – Duplex , Full  Duplex

CATEGORIES OF NETWORKS :-Local  Area Network ( LAN ),Metropolitan Area  Network ( MAN ) ,      wide  Area  Network  ( WAN )

3.  THE OSI  MODEL

THE MODEL:- Layered Architecture

           FUNCTION  OF THE LAYERS :-        Physical  Layer ,       Data Line layer,        Network Layer, Transport Layer,Session  Layer,Presentation  Layer , Application  Layer, Summary  of Layer functions

6.  TRANSMISSION  OF DIGITAL  DATA  :  INTERFACES AND MODEMS 121

DIGITAL DATA TRANSMISSION :- Parallel  Transmission ,Serial  Transmission

DTE – DCE INTERFACE :- Data techmar Equipment ( DTE ) ,Data circuit Terminating Equipments ( DCE ) ,standards , EIA- 232 Interface ,OTHER INTERFACE STANDARDS :- EIA- 449, EIA- 530,         X.21 

MODEMS :- Transmission  Rate ,Modem standards

7.   TRANSMISSION MEDIA :

GUIDED  MEDIA:-Twisted pair cable ,Coaxial  cable ,Optical  Fiber

                       UNGUIDED MEDIA :-Radio  Frequency Allocation ,Propagation of Radio waves,Terrestrial  Microwave, Satellite, Communication ,Cellular  Telephony

8.   DATA LINK  CONTROL :

LINE DISCIPLINE  ENQ/ ACK

FLOW  CONTROL:- Stop – and – wait ,Sliding window

ERROR  CONTROL:- Automatic  Repeat  Request ( ARQ ),stop – and – wait  ARQ,Sliding window  ARQ DATA LINK  PROTOCOLS ASYNCHRONOUS  PROTOCOLS           XMODEM ,YMODEM ,  ZMODEM, BLAST, Kermit SYNCHRONOUS  PROTOCOLS

CHARACTER-ORIENTED  PROTOCOLS :- Binary  Synchronous  Communication ( BSC ) , BSC Frames, Data Transparency, BIT- ORIENTED  PROTOCOLS :-  HDLC, Frames,    More about Frames

9.   LOCAL AREA NETWORK :

PROJECT:- IEEE 802.1,LLC,MAC,Protocol  Data Unit ( PDU )

ETHERNET:-  Access Method : Token passing, Addressing,Electrical specification ,Frame  Formats, Implementation

FDD :- Access Method : Token passing, Addressing, Electrical specification,     Frame  Formats , Implementation : Physical  Medium  Dependent ( PMD ) Layer

10.  METROPOLITAN  AREA  NETWORKS :

IEEE:-           Access  Method : Dual Bus ,Distributed  Queues ,Ring configuration, Operation :  DQDB  Layers ,          Implementations

SMDS:-Connection  and Access 

11.  INTEGRATED  SERVICES  DIGITAL  NETWORK ( ISDN )

SERVICES:- Bearer Services, Tele services ,  Supplementary  services

HISTOERY:- Voice  communication over Analog Networks ,voice and Data communication over Analog  Networks Analog and Digital  Network ( IDN ) ,Integrated Digital Network ( (IDN ) ,Integrated services  Digital  Network ( ISDN )

SUBSCRIBER  ACCESS  TO THE ISDN :- B Channels, D Channels ,H  Channels ,User  Interfaces, Functional  Grouping        Reference  Points

THE ISDN LAYERS:- Physical  Layer ,Data Link Layer ,Network Layer

BROADBAND ISDN:- Services, Physical  specifications

13.   ATM  

DESIGN  GOALS:- Packet Networks, Mixed Network  Traffic, Cell  Networks,      Additional  Advantages of ATM

ATM  TOPOLOGY

ATM  PROTOCOL  ARCHITECTURE :- Application  Adaptation  Layer  ( AAL ) , ATM  Layer ,Physical  Layer

14.  NETWORKING  AND INTERNETWORKING DEVICES

       REPEATERS, BRIDGES , ROUTERS, GATEWAYS, ROUTING ALGORITHMS

15. TRANSPORT  LAYER 

DUTIES TO THE TRANSPORT  LAYERS:-End –to –End Delivery ,   Addressing, Reliable  Delivery, Flow control           Multiplexing

CONNECTION:- Connection  Establishment , Connection  Termination

                                                THE QSI  TRANSPORT  PROTOCOL:- Transport  Classes , Transport  Protocol  Data Unit ( TPDU ) ,    Connection oriented and  connectionless  services

SESSION  LAYER :-Session  and Transport  Interaction, Synchronization  Points ,Session  Protocol  Data Unit

PRESENTATION  LAYERS :- Translation , Encryption/ Decryption, Data Compression

APPLICATION  LAYERS :- Message handling system ( MHS ) ,File  transfer, access, and management ( FTAM ) virtual  Terminal  ( VT ) ,     Directory  services ( DS ) ,   Common Management Information Protocol ( CMIP )

OVERVIEW  OF FTCP/IP :-  TCP/IP  and the Internet, TCP/IP and OSI, Encapsulation

NETWORK  LAYER :- Internetwork  Protocol  ( IP )  ,Other protocols  in the Network Layer

TRANSPORT  LAYER :-         User  Datagram Protocol  ( UDP ) , Transmission control  protocol  ( TCP )

APPLICATION  LAYER :- Domain  Name system ( DNS )

TELENT:- File  Transfer protocols , File Access  Using NPS  and RPC ,Electronic Mail :  SMTP ,Simple  Network Management, Protocol  ( SNMP ) ,Gopher ,Archie ,Veronica ,Wide Area  Information Service ( WAIS ) ,Hypertext Transfer  Protocol  ( HTTP ) ,WORLD  WIDE WEB  ( WWW ) :- Uniform  Resource Locator ( URL ) ,Browser Architecture

TEXT BOOK:-

1. DATA COMMUNCATION AND NETWORKING BY BEHRAUZ & FOROUZAN (TMH)        

REFERENCE BOOKS : 

1.       COMPUTER NETWORKS   A.S. TANENBAUM ( PHI )

2.       DATA COMMUNICATION   WILLIAM  L.  SCHWEBER   McGraw – Hill

3.       DATA &  COMPUTER  COMMUNICATION   WILLIAM  STALLING  MACMILLAN

4.       COMPUTER COMMUNICATION &  NETWORKS   JOHN  FREER  ( AFFLIATED  EWP )

EC- 705    PROJECT     

student will carry out project  work based upon following guide lines.

1.                  Literature survey/ Design/ Fabrication/ Testing Evaluation of an Electronic  subsystem.  

2.                  Repairing and preparation of maintenance chart/ Fault  finding procedure for existing electronic  equipment’s.

3.                  Software  development  work related to Analusis/ Synthesis/ Design for a selected advance topic.

Termwork will  consist of  exhaustive  write up covering all  aspects of the work  done by the student on the selected 

project  work.