EC –501   INDUSTRIAL  ORGANISATION & BUSINESS MANAGEMENT

National  income,  economic  planning  and public  finance.    

1.   Organization : 

Concept,  principles,  line & staff  functions,  organization  structure and its importances,    systems  concepts  of  organisation.   

2.    Management concepts and  functions : 

concept functions ( Planning ), organizing, directing co-ordinating,  controlling motivating, principles of management,  traditional  v/s   modern management  approaches,  decision   making,  delegation.   

3.    Productivity  & its  techniques  :  

Concepts,  gains of   productivity,   productivity of economic development,  role of   management in promotion   of  productivity,   selected  productivity  techniques,  work –study  ( time  study &  work management ),   Quality control,   waste  reduction,   job evaluation,  incentives, inventory control,   CPM   &  PERT.

4.   Personal  Management : 

Personal functions,  man-power  assessment, recruitment,  training,   & development , wage, salary  administration, participative  management,   performance  appraisal &  counseling  discipline  improvement,   grievance   handling ,  Union  management  relation  ( Industrial  Relation )  trade  unionism   in India.  

5.    Human side of management :  

Understanding  of human  behavior,  group   dynamics,  interpersonal  behavior,  motivation,   communication,  leadership.         

6.    Financial  Management :  

Financial management  & quantitative  techniques,  management accounting ,  break  even  analysis,  preparation & analysis  of balance  sheets, capital  budgeting cost accounting  & cost & budgetary control.    

7.    Marketing Management :  

Introduction  marketing  management,  concepts  and approach , product   development    &  diversification,  industrial  marketing.      

BOOKS :

1.Management  Analysis, concepts  & cases  by Haynes  & Massie  ( Prentice  Hall of India )

2.Personal Management  by R.S.  Davar  ( Vikas  Publicating  House Ltd. Delhi ) 

E.C. – 502 MICROPROCESSOR           

1.      INTRODUCTION TO DIGITAL COMPUTERS:-

Block diagram of digital computer, Classification of computer languages, High level and low level languages.

2.      MICROPROCESSOR ARCHIETECTURE AND MICROCOMPUTER SYSTEM:-

Microprocessor architecture and its operation, Memory, input, output, Interfacing devices.

3.      ARCHITECTURE:-

Instruction  set  and  timing diagrams of 8085 microprocessor,  8085  architecture, Instruction classification of 8085, Instruction timing and operation status.

4.      ASSEMBLY LANGUAGE PROGRAMMING OF 8085:-

Programming techniques, Concepts and timing delays, Stack and subroutines, Code conversions.

5.      PARALLEL INPUT/OUTPUT AND INTERFACING:-

Basic interface concepts, Interfacing input and output devices like keyboards and display, Memory mapped I/O, Interfacing memory.

6.      INTERRUPTS:-

8085 interrupts, Restart as software instructions, Study of programmable interrupt controllers 8259A.

7.      PROGRAMMABLE PERIPHERAL INTERFACE:-

8255 programmable peripheral interface, Interface of  A/D converter with microprocessors, 8253 programmable interrupt timer, 8257 DMA Controller, serial interfacing  8279 keyboard and display controllers.

8.      HARDWARE:-

Hardware system design using memory and peripheral controllers, Software requirements, Monitor design concepts, typical applications, Single chip microcomputer, System design and typical applications.

9.      BOOKS:-

Ø       Microprocessor architecture programming and application      R.S. Gaonkar, Wiley Eastern.

Ø       Microprocessor principles and applications                              Ajit Pal, TMH Publications

Ø       Fundamentals of Microprocessors & microcomputers             Dr. Badri Ram, Dhanpatrai & Sons.

Ø       Introduction to Microprocessors                                                A.P. Mathur, TMH Publications.

EC –503 IC DESIGN  &  APPLICATIONS 

(1)        INTRODUCTIN TO OPERATIONAL AMPLIFIERS : 

OP-AMP,Interpretation of data sheets, Ideal OP-AMP, Equivalent circuits of an OP-AMP, Open loop OP-AMP configurations, Effect of negative feedback on voltage gain, Input impedance, Output impedance, band width and offset voltage, voltage series feedback amplifier,  voltage shunt feedback amplifier, Differential amplifier, the practical  op-amp,  frequency  response of op-amp. 

(2)        LINEAR ANALOG SYSTEM :

AC & DC amplifier,  Instrumentation, amplifier, Summers, voltage  to current and  current to voltage  converters, High input  impedance circuits,  Integrators, Differentiators,  Analog multiplexers and demultiplexers, peaking Amp.

(3)        NON LINTER ANALOG SYSTEM :  

comparators,  window detectors, peak detectors, precision AC/DC  convertors, logarithmic  amplifiers,  schmitt  trigger, waveform generators e.g. pulse, square,  triangle, sawtooth  etc. voltage control oscillators v to f and f  to v converters, a to d and  d to a  convertors,  sample  and  hold circuits. 

(4)        SPECIALIZED APPLICATIONS  :  

Internal block  representation and functional understanding  of various  I.C.s.  and their applications e.g. 555 Timer, phase locked loops,  power  amplifiers,  Multipliers etc.

(5)        VOLTAGE REGULATORS : 

Fixed voltage regulators,  Adjustable  voltage regulators, switching  regulators.

(6)         ANALOG  COMPUTATION AND SIMULATION : 

Solution  of simaltaneous equations and solution  of differential  equations  using opamps, Time and  amplitude scaling,  Function  generation.  

BOOKS :            

1.MICRO ELECTRONICS BY MILLMAN

2.OPAMPS AND LINEAR INTEGRATED CIRCUITS BY R.A.GAYAKWAD.  

3.ANALOG COMPUTATION & SIMULATION BY   RAJARAMAN.

4.INTEGRATED ELECTRONICS BY MILLMAN &  HALKIAS.

5.INTRODUCTIN TO SYSTEM DESIGN USING I.C.S. BY B.S.SONDEY.

6.AN INTRODUCTION  TO OPERATIONAL AMPLIFIERS BY   L.M.    FAULKENBERRY

7.DESIGN TECHNIQUES FOR ELECTRONICS ENGINEERS BY ELECTRONIC

 8. MANUAL  FOR INTEGRATED CIRCUIT USERS BY  JOHN  D. LENK

EC-504   ENGINEERING ELECTROMAGNETCIS      

1.       VECTOR ANALYSIS:-

          Scalars and vectors, Dot and cross products, Co-ordinate systems and conversions.

2.       COULOMB’S LAW AND ELECTRICAL FIELD INTENSITY:-

    Coulomb’s law, Field due to different charge distributions.

3.       ELECTRIC FLUX  DENSITY, GAUSS’S LAW AND DIVERGENCE:

         Concept of electric flux density, Gauss’s law and its applications, Differential volume element, Divergence, Maxwell’s first  equation and divergence theorem.

4.       ENERGY AND POTENTIAL:-

Energy expanded in moving a point charge in electrical field, Line integral, Defination of potential difference and potential, Potential field of point charge and system of charges, Potential gradient, Dipole, Energy density in electrostatic field.

5.       CONDUCTORS, DIELECTRICS AND CAPACITANCE:-

Defination of currents and current density, Continuity equation, Metallic conductors and their properties, Semiconductor, Dielectric materials, characteristics, boundary conditions, Capacitance of a parallel plate capacitor, Coaxial cable and spherical capacitors.

6.       POISSON’S AND LAPLACE EQUATION:-

Poisson’s and Laplace equation, Uniqueness theorem, Examples of solution of laplace and poisson’s equations.

7.       STEADY MAGNETIC FIELD:-

Biot-savart’s law, Ampere’s circuital law, Concept of flux density, Scalar and vector magnetic potential.

8.       MAGNETIC FORCES, MATERIALS AND INDUCTANCE:-

Force on a moving charge, Force on a differential current element, Force and torque on close circuit, Magnetisation and permeability, Magnetic boundary conditions, Magnetic circuit, Self inductane and mutual inductance.

9.       TIME VARYING FIELD AND MAXWELL’S EQUATIONS:-

       Faraday’s law, Displacement current, Maxwell’s equations in point and integral forms.

10.    THE UNIFORM PLANE WAVES:-

Wave motion in free space, Perfect dielectric, Lossy dielectric, Poynting vector, Power considerastion, Propogation in good conductor, Phenomena of skin effect, Reflection of uniform plane waves.

Ø       BOOKS:-

Ø       Engineering Electromagnetics Vth edition McGraw Hill.      ……… William Hayt.

Ø       Electromagnetics IIIrd edition McGraw Hill                           ……… John D. Kraus

Ø       Electromagnetics concepts and Applications,

Ø       Stiket IIIrd edition Prentice Hall, International                       ……… Stanley Marshall & Gabriel

Ø       Electromagnetics theory and applications TMH Pub.              ……… P. Mukhopadhyay

EC-505   COMMUNICATION  SYSTEMS       

1.     SPECTRAL  ANALYSIS : 

Introduction, Fourier series, The sampling function, Response of a linear  system,  normalized power, power spectral density,  Effect of transfer function on power spectral density, The fourier  tranform, convolution,  parseval’s therorem, power and energy transfer through network, Bandlimiting of waveforms,  correlation between  waveforms, power and cross  correlation,  Autocorelation of periodic and non-periodic waveforms.

2.     RANDOM VARIABLES  AND PROCESS :  

 probability , mutually  exclusive events, joint probability statistical  independence,  random  variables,  cumulative distribution function. Probability density function, average  value and varience of a  random variable,  Tche  by cheff’s  inequality, the  gaussian  probability density,  the error  function,  the Rayleigh  probability  density, mean  &  varience & PD of  the sum  random  variables,  correlation  between  random  variables, the central  limit theorem,  error probability,  signal  determination random  processes,  autocorelation,  PSD  of  sequence  of random  pulses, PSD  of digital  data, effect  of filters on digital   data  The comppelmentry error function.      

3.     ANALOG TO  DIGITAL  CONVERSION :

Pulse modulation systems,  The sampline  theorem PAM,  Natural  & Flat- top sampling  Signal  recovery, Quantization, Quantization,  errors, PCM  companding Multiplexing ,  Differential  PCM  Delta  modulation, Adaptive  delta modulation.

4.     DIGITAL  MODULATION TECHNIQUES : 

  Introduction, Binary  phase shift keying DEPSK, QPSK, BFSK,  MSK,  Duobinary  Encoding, comprision  of narrowband  FM  systems. 

5.     NOISE IN AMPLITUDE – MODULATION  SYSTEMS :  

AM receiver, Noise calculations in

SSB- SC,  DSB  with carrier  and the envelope  demodulator.

6.     NOISE IN FREQUENCY -  MODULATION  SYSTEMS :  

An  FM  demodulator calculation of output  signal  & noise  powers,  comprision  of FM  &  AM,  Noise calculations in systems with Preemphasis  &  Deemphasis.

BOOKS :

Text :  PRINCIPLES OF COMMUNICATIONS SYSTEMS- Taub and Schilling

Reference :   (1) DIGITAL  AND ANALOG COMMUNICATION SYSTEM- B.P. Lathi

                      (2) DIGITAL  COMMUNICATION - Proakis

Practical  and Termwork  will be based upon the above syllabus.

EC –506    SEMINAR 

Student is required to go to library  and search the material  from journals  and reference  books to

Prepare ( under the guidance of teacher )  comprehensive report on a particular  recent development

In the field of  electronics  or  to  expand  the particular  topic  learnt with  the details  not covered

In class. 

He/she is  required  to submit  and defend his/her  work by oral  examinations.

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