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B.E E.C Fifth Sem Syllabus(GTU)

B.E E.C Fifth Sem Syllabus(GTU)

B.E E.C Fifth Sem Syllabus(GTU)
Management-II
TOPICS
Description
1
Introduction to Marketing Management

(i) Marketing Function:
The four P’s in Marketing, Different concepts in marketing, Production, Product, Selling, Marketing, Societal and holistic.

(ii) Marketing Demand:
Method of demand forecasting- survey of buyers’ intentions, sales force opinion method, expert opinion method, market test method, time series analysis, statistical demand analysis(concepts only no examples).

(iii) Market Segmentation:
Meaning, Importance and different bases of market segmentation with reference to consumer product and industrial product.
2
Introduction to Financial Management

(i) Meaning of finance and scope of financial management

(ii) Finance functions.

(iii )Financial management and role of financial manager.

(iv) Objectives of financial management.
3
Introduction to Production Management

(i) Meaning, characteristics , plant location, factors affecting location.

(ii) Plant layout: Product and process layout – meaning, merits and demerits.

(iii) Break-even analysis (sums).
4
Introduction to Human Resource Management

(i) Importance

(ii) Manpower planning : concept and features and objectives

(iii) Manpower planning process

(iv) Recruitment : sources

(v) Selection : process

(vi) Selection tests : types of tests
5
Introduction to Strategic Management

(i) Management by objectives.

(ii) How strategic and operational plans differ.

(iii) The evolution of the concept of strategy.

(iv) Levels of strategy : Some key distinctions.

(v) The contents of a corporate strategy.


BOOKS
Title
1
Principles and Practices of Management by L. M. Prasad.
2
Principles of Management by Tripathy and Reddy.
3
Business Organization and Management by C. B. Gupta.
4
Organisation Behaviour by Fred Luthance.
5
Management Text and Cases by Saturaju and Parthasarthy.
6
Marketing Management, Philip Kotler.
7
Marketing Management, Rajen Saxena.
8
Financial Management, I.M. Pandey.
9
Financial Management, Khan and Jain.
10
Management by James Stoner and Edward Freemen.
11
Management by Herold Knootz and Heinz Wechnch.
12
Management by Bateman Snell.
13
Essentials of Management, Adrew J. Durbin.
14
Principles of Management, Charles WL.
15
Principles of Management, Richard L. Daft, Cengage Learning, 2009.
16
Human Resource and Personnel Management by K. Aswasthappa.


Electronic Communication
TOPICS
Description
1
Communication Introduction

Communication system, Analog and digital Messages, Channel effect, Modulation and detection, Historical review of telecommunication.
2
Passive Circuits :

Series tuned circuit, Parallel tuned circuit, Self-capacitance of a coil, Skin effect, Mutual inductance, High frequency transformers, Tapped inductor, Capacitive tap, Low-frequency transformers
3
Noise :

Noise (Thermal noise, Shot noise, Partition noise, Low frequency or flicker noise, Burst noise, Avalanche noise, Bipolar transistor noise, Field-effect transistor noise, Equivalent input noise generators and comparison of BJTs and FETs, Signal – to – noise ratio, S/N Ratio of a tandem connection, Noise factor, Amplifier input noise in terms of F, Noise factor of amplifiers in cascade, Noise factor of a lossy network, Noise temperature, Measurement of noise temperature and noise factor, Narrowband band-pass noise.
4
Receivers :

Superheterodyne receivers, Tuning range, Tracking, Sensitivity and gain, Image rejection, Spurious responses, Adjacent channel selectivity, AGC, Double conversion, Electronically Tuned Receivers(ETRs), Integrated-Circuit Receivers.
5
Analysis and Transmission of Signals:

A periodic signal representation by fourier integral, Transform of some useful function, Some properties of the fourier transform, Signal transmission through a linear system, Ideal and practical filters, Signal distortion over a communication channel, Signal energy and energy spectral density, Signal power and power spectral density.
6
Amplitude Modulation and Demodulation:

Baseband versus carrier communications, Double-Sideband amplitude modulation, Amplitude modulation, Bandwidth-efficient amplitude modulation, Amplitude modulations: Vestigial sideband, Local carrier synchronisation, Frequency division multiplexing, Phaselocked loop with applications, Frequency synthesizers.
7
Angle Modulation and Demodulation:

Nonlinear modulation, Bandwidth of Angle-Modulated waves, Generating FM waves, Demodulation of FM signals, Effect of non linear distortion and interference, Superheterodyne analog AM/FM receivers, FM Broadcasting System


BOOKS
Title
1
Electronic Communications by Dennis Roddy & John Coolen IV Edition PHI.
2
Digital and analog communication system by B.P.Lathi .Zhi Ding(international 4th Edition), OXFORD university press.
3
Electronic Communications by Kennedy McGraw Hill Publication.
4
Electronic Communications Systems by Wayne Tomasi. Pearson education India.
5
Electronic Communication Systems by Roy Blake by Cengage learning.
6
Communication Systems By Simon Haykins By Wiley India.
7
Theory and Problem Of Electronic Communication By Lloyd Temes and Mitchel E.Schulz(Second edition), McGraw Hill Publication.


Engineering Electromagnetic
TOPICS
Description
1
Review of Vector Analysis and Vector Calculus:

Scalars & Vectors, Dot and cross products, Co-ordinate systems and conversions, Review of line, Surface and volume integrals – Definition of curl, divergence and gradient – Meaning of Divergence theorem and Stokes’ theorem
2
Electrostatics:

(i) Coulomb’s law and electrical field intensity: Coulomb’s law, Field due to different charge distributions.

(ii) 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 eqn. and divergence theorem for electric flux density.

(iii) Energy and potential : Energy expanded in moving a point charge in electrical field, Line integral, Definition of potential difference and potential, Potential field of a point charge and system of charges, Potential gradient, Dipole, Energy density in electrostatic field.
3
Steady Magnetic Field:

Biot-Savart’s law, Ampere’s circuital law, Applications of this law for an infinitely long coaxial transmission line, Solenoid and toroid, Point form of Ampere’s circuital law concept of flux density, Scalar and vector magnetic potential, Stoke’s theorem for magnetic field, Point and integral forms of Maxwell’s equations for steady electric and magnetic fields.
4
Electric and Magnetic Fields in Materials:

(i) Conductors, dielectrics and capacitance : Definition of currents and current density, Continuity equation, Metallic conductors and their properties, Semiconductors, Dielectric materials, Characteristics, Boundary conditions, Capacitance of a parallel plate capacitor, Coaxial cable and spherical capacitors.

(ii) Poisson’s and Laplace equations: Poisson’s and Laplace equation, Uniqueness theorem, Examples of solution of Laplace and Poisson’s equations.

(iii) Magnetic forces, materials and inductance : Force on a moving charge, Force on a differential current element, Force and torque on a close circuit, magnetization and permeability, Magnetic boundary conditions, Magnetic circuit, Self inductance and Mutual inductance.
5
Time Varying Fields and Maxwell’s Equations:

Faraday’s law, Displacement current, Maxwell’s equations in point and integral forms for time varying fields .
6
Electromagnetic Waves:

The uniform plane waves: Wave motion in free space, Perfect dielectric, Dielectric, Poynting vector, Power
consideration, Propagation in good conductor, Phenomena of skin effect, Reflection of uniform plane waves, Plane waves at normal incidence, and at oblique incidence, Standing wave ratio.


BOOKS
Title
1
W H.Hayt & J A Buck: “Engineering Electromagnetics” TATA McGraw-Hill, 7thEdition 2007.
2
Elements of Electromagnetics by Matthew Sadiku, 4th Edition,Oxford University Press.
3
Electromagnetics Joseph Edminister-Schaum’s Outline Series, TMH.
4
Electromagnetics with applications by J.D.Krauss and Daniel Fleisch fifth edition, Mcgraw Hill.


Integrated Circuit and Application
TOPICS
Description
1
Introduction to Operational Amplifiers:

Introduction, Block diagram representation of a typical op-amp, its equivalent circuit, types of ICs, Manufacturers’ designations and package types for ICs, Power supplies for ICs.
2
Interpretation of Data Sheets and Characteristics of an op-amp:

Interpreting datasheet, Ideal op-amp, Equivalent circuit of an op-amp, Ideal voltage transfer curve, Open-loop op-amp configurations.
3
An Op-amp with Negative Feedback:

Voltage-series feedback amplifier, Voltage-shunt feedback amplifier, Differential amplifier.
4
The Practical op-amp:

Introduction, Input offset voltage, Input bias current, Input offset current, Total output offset voltage, Thermal drift, Effect of variation in power supply voltage on offset voltage, Change in input offset voltage and input offset current with time, Other op-amp parameters which changes with change in temperature and supply voltage, noise, Common-mode configuration and common-mode rejection ratio, Slew rate and it equations, Effect of slew rate in applications, Difference between bandwidth, Transient response and slew rate.
5
General Linear Applications:

DC and AC amplifiers, AC amplifiers with single supply voltage, Peaking amplifier, Summing, Scaling and Averaging amplifier, Instrumentation amplifier - its block diagram along with applications, Differential input and differential output amplifier, Voltage-to-current converter with floating load (low-voltage DC voltmeter, low-voltage AC voltmeter, Diode
match finder, Zener diode tester, Light-emitting diode tester), Current-to-voltage converter, Very high-input impedance circuit, Integrator, Differentiator.
6
Comparators and Converters:

Comparator, Zero Crossing Detector, Schmitt Trigger, Voltage limiters, Clipper and clampers, Absolute value output circuit, Peak detector, Sample and hold Circuit, Precision rectifier – Half/Full Wave, Square, Triangular and Saw tooth Wave Generator, Log/ Antilog Amplifier.
7
Active Filters:

Classification of filters, Magnitude and frequency scaling, Magnitude and attenuation characteristics of ideal and practical filters, Design parameter Q & 0, Biquad (Universal) filter design, Butter worth Low pass and Highpass filters - 1st and 2nd order circuits design, Butterworth pole location, Sallen & Key circuit, Butterworth Bandpass Filters-Frequency
Transformation, Deliyannis- Friend circuit , Chebyshev filter characteristics, Band reject filters.
8
Specialized IC Applications:

(i) 555 Timer and its Applications:Block Diagram, Monostable and Astable Multivibrator, Applications as Frequency
Divider, Square Wave Generator.

(ii) Free-Running Ramp Generator

(iii) Phase Locked Loop and Its Applications: Block Diagram and Operation, Applications as Frequency Multiplier, Frequency Shift Keying

(iv) Design of Power Supply: Simple OP-AMP Voltage regulator, Three terminal Voltage regulators, Fixed and Adjustable Voltage Regulators (78XX, LM317), Heat Sink, Dual Power supply (LM320, LM317), Basic Switching Regulator and its characteristics.

(v) Power Amplifiers: Monolithic Power Amplifiers (LM380).

(vi) Function Generator: IC XR 2206
9
Operational Trans-conductance Amplifier:

Introduction, Internal diagram, Analysis, Active Filter.


BOOKS
Title
1
Op-amps and Linear Integrated Circuits, by Ramakant A. Gayakwad.
2
Design with Operational Amplifiers and Analog Integrated Circuits, by Sergio Franco, Tata Mcgraw-hill 2009 Edition.
3
Linear Integrated Circuits, by D. Roy Choudhury and Shail B. Jain, New Age International Publishers, 3rd Edition.
4
Design of Analog Filers, by R. Schaumann, and Mac E. Van Valkenburg.


Microcontroller and Interfacing
TOPICS
Description
1
8051 Microcontrollers:

Microcontrollers and embedded processors, Overview of the 8051 family.
2
8051 Assembly Language Programming:

Architecture of 8051, Introduction to 8051 assembly programming, Assembling and running an 8051 program, The program counter and ROM space in the 8051, 8051 data types and directives, 8051 flag bits and the PSW register, 8051 register banks and stack.
3
Jump, Loop, And Call Instructions:

Loop and jump instructions, Call instructions time delay for various 8051 chips.
4
I/O Port Programming:

8051 I/O programming, I/O bit manipulation programming.
5
8051 Addressing Modes:

Immediate and register addressing modes, Accessing memory using various addressing modes, Bit addresses for I/O and RAM, Extra 128-byte on-chip RAM in 8052.
6
Arithmetic and Logic Instructions and Programs:

Arithmetic instructions, Signed number concepts and arithmetic operations, Logic and compare instructions, Rotate instruction and data serialization, BCD, ASCII, and other application programs.
7
8051 Programming in C:

Data types and time delay in 8051 C, I/O programming in 8051 C, Logic operations in 8051 C, Data conversion programs in 8051 C, Accessing code ROM space in 8051 C, Data serialization using 8051 C.
8
8051 Hardware Connection and Intel Hex File:

Pin description of the 8051, Design and test of 8051 Minimum Module, Explaining the Intel hex file.
9
8051 Timer Programming in Assembly and C:

Programming 8051 timers, Counter programming, Programming timers 0 and 1 in 8051 C.
10
8051 Serial Port Programming in Assembly and C:

Basics of serial communication, 8051 connection to RS232, 8051 serial port programming in Assembly, Programming the second serial port, Serial port programming in C.
11
Interrupts Programming in Assembly and C:

8051 interrupts programming, Timer interrupts, Programming external hardware interrupts, Programming the serial communication interrupt, Interrupt priority in the 8051/52, Interrupt programming in C.
12
LCD and Keyboard Interfacing:

LCD interfacing, Keyboard interfacing.
13
ADC, DAC, and Sensor Interfacing:

Parallel and serial ADC, DAC interfacing, Sensor interfacing and signal conditioning.
14
8051 Interfacing to External Memory:

Semiconductor memory, Memory address decoding, 8031/51 interfacing with external ROM, Flash RAM, 8051 data memory space, Accessing external data memory in 8051 C.
15
RTC Interfacing and Programming:

RTC interfacing, RTC programming in C, Alarm, SQW, and IRQ features of the DS12887 chip.
16
Motor Control: Relay, PWM, DC and Stepper Motors:

Relays and Optoisolators, Stepper motor interfacing, DC motor interfacing and PWM.


BOOKS
Title
1
The 8051 Microcontroller and Embedded Systems Using Assembly and C, 2/e by Muhammad Ali Mazidi, Janice Gillispie Mazidi and Rolin McKinlay (Second Edition, Pearson Education).
2
The 8051 Microcontroller & Embedded Systems using Assembly and C By K. J. Ayala, D. V. Gadre (Cengage Learning , India Edition).
3
8051 Microcontrollers: MCS51 family and its variants by Satish Shah, Oxford University Press.
4
8051 Microcontroller: Internals, Instructions, Programming and Interfacing by Subrata Ghoshal, Pearson Education.
5
The 8051 Microcontrollers: Architecture, Programming and Applications by K Uma Rao, Andhe Pallavi, Pearson Education.


Institute Elective –II
Institute Elective is the subject where a student can opt for a course of his own choice which is offered as an Institute Elective from a department (branch) other than his parent department (branch).For more Information click HERE

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