# MVSR Syllabus

Maturi Venkata Subba Rao Engineering College affiliated to Osmania University has prescribed the MVSR Syllabus 2019 for BE/M.Tech (CE/ CSE/ ECE/ EEE/ ME/IT) Courses. Candidates who are pursuing the Engineering courses from this college must take a look at MVSR Exam Syllabus to know about the subjects they will be taught in the respective semester and prepare for exam.

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Syllabus of MVSR University: Highlights

 Organization Name MVSR Engineering College Courses BE/M.Tech Category MVSR University Exam Syllabus Status Available Official Website www.mvsrec.edu.in

## MVSR Syllabus

MVSR BE Syllabus 2019 III – Semester

Electronics and Communication Engineering:

UNIT-I

Functions of Complex Variables:

• Limits and continuity of function
• Differentiability and analyticity
• Necessary & sufficient conditions for a function to be analytic
• Cauchy Reimann equations in polar form
• Harmonic functions
• Complex integration
• Cauchy’s integral theorem
• Extension of Cauchy’s integral theorem for multiply connected regions
• Cauchy’s integral formula
• Cauchy’s formula for derivatives and their applications

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UNIT – II

Residue Calculus:

• Power series
• Taylor’s series
• Laurent’s series
• Zeros and singularities
• Residues
• Residue theorem
• Evaluation of real integrals using residue
• Theorem
• Bilinear transformation
• Conformal mapping

UNIT – III

Fourier Series:

• Fourier series
• Fourier series expansions of even and odd functions
• Convergence of Fourier series
• Fourier half range series

UNIT – IV

Partial Differential Equations:

• Formation of first and second order partial differential equations
• Solution of first order equations
• Lagrange’s equation
• Nonlinear first order equations
• Charpit’s method
• Higher order linear equations with constant coefficients

UNIT – V

Fourier Series Applications to Partial Differential Equations:

• Classification of linear second order partial differential equations
• Separation of variables method(Fourier method)
• Fourier series solution of one dimensional heat and wave equations
• Laplace’s equation

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Mechanical Engineering:

UNIT-I

Thermodynamics:

• Concept of system
• Process and properties
• Laws of thermodynamics
• Second law statements
• Concept of Heat Engine
• Heat pump & refrigerator
• Concept of entropy and clausius inequality
• Steady flow energy equation for an open system

UNIT-II

I.C. Engines:

• Working of four stroke and two stroke petrol and diesel engine with P-V diagrams
• Valve timing diagrams
• Calculation of Indicated Power
• Brake power
• Specific fuel consumption
• Mechanical and thermal efficiencies

Reciprocating Air Compressors:

• Working principle of single stage compressor
• Work done and efficiency calculations
• Effect of clearance volume

UNIT-III

Heat Transfer:

• Basic modes of heat transfer
• Fourier’s law of conduction
• Newton’s law of cooling
• One dimensional steady state condition heat transfer through plane walls without heat generation

Heat Exchangers:

• Classification and application of heat exchangers in industry
• Derivation of LMTD in parallel and counter-flow heat exchangers and problems

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UNIT-IV

Power Transmission Elements:

Gears:

• Definitions and uses of spur
• Helical & bevel gears

Gear Trains:

Classifications and simple problems on Simple Compound & Reverted

Belt drives:

• Definitions of velocity ratio
• Creep and slip
• Derivations on length of open and cross belt
• Ratio of tensions of flat belt
• Condition for maximum power transmission for flat belt

UNIT-V

Basic Manufacturing Processes:

Welding:

• Definitions and method of soldering
• Brazing and welding and differences
• Brief description of Arc welding and Oxy-Acetylene welding

Casting:

Principles and applications of sand casting and die casting

Forming:

Basic concepts of forming processes:

• Extrusion
• Rod/wire drawing and Rolling

Machining:

• Working mechanism of Lathe
• Milling and grinding machines
• Principles of WJM, USM, EDM, LBM and EBM

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Electronic Devices:

UNIT I

Junction Diode:

• Different types of PN Junction formation techniques
• PN Junction Characteristics
• Biasing- band diagrams and current flow
• Diode current equations under forward bias and reverse bias conditions
• Junction breakdown in diodes and breakdown voltages
• Effect of temperature on diode characteristics
• Diode as a circuit element
• Small signal diode models
• Junction capacitance under forward bias and reverse bias
• Diode switching characteristics
• Zener Diodes
• Zener voltage regulator and its limitation

UNIT II

PN Diode Applications:

• Half wave
• Full wave and Bridge rectifiers – their operation
• Performance characteristics and analysis
• Filters (L, C, LC and CLC filters) used in power supplies and their ripple factor calculations
• design of Rectifiers with and without Filters

Specials Diodes:

• Elementary treatment on the functioning of Tunnel/Backward
• Varactor
• Photo
• Light Emitting diodes

UNIT III

Bipolar Junction Transistor:

• Transistor Junction formation (collector-base, baseemitter Junctions) Transistor biasing-band diagram for NPN and PNP transistors
• Current components and current flow in BJT
• Modes of transistor operation
• Early effect
• BJT input and output characteristics in CB
• CE CC configurations
• BJT as an amplifier
• BJT biasing techniques
• Thermal runway
• Heat sinks and thermal stabilization
• Operating point
• Stabilization against temperature and device variations
• Stability factors
• Bias stabilization and compensation techniques
• Biasing circuit design

UNIT IV

Small Signal Transistors equivalent circuits:

• Small signal low frequency h-parameter model of BJT
• Determination of h parameters
• Analysis of BJT amplifiers using h- parameter
• Comparison of CB, CE and CC amplifier configurations
• Analysis of BJT
• Amplifier with approximate model
• Introduction to low frequency Π and T models

Special Devices:

Working of UJT, SCR, DIAC, TRIAC and CCD

UNIT V

Junction Field Effect Transistors (JFET):

• JFET formation
• Operation & current flow
• Pinch-off voltage
• V-I characteristics of JFET
• JFET biasing-zero current drift biasing
• Biasing against device variations
• Low frequency small signal model of FETs
• Analysis of CS, CD and CG amplifiers and their comparison
• FET as an amplifier and as a switch

MOSFETs:

• MOSFETs
• Enhancement & Depletion mode MOSFETs
• V-I characteristics
• MOSFET as resistance
• Biasing of MOSFETs
• MOSFET as a switch

Switching Theory and Logic Design:

UNIT I

Number system and Codes:

• Binary, Octal, Hexa Decimal numbers
• Number base conversion

Signed binary numbers:

• 1’s Complement
• 2’s complement

Types of codes:

• Weighted
• Un Weighted code
• BCD
• Excess -3 code
• Development of Gray code
• Parity code

Boolean Algebra:

• Properties of Boolean algebra
• Basic Laws and Theorems
• DeMorgan’s theorem
• Switching Functions
• Definitions, simplifications, Canonical and Standard Forms
• Logic Gates
• Functional Properties

UNIT II

Minimization of Switching Functions:

• The Map Method (K-Map)
• 5-variable map
• Minimal Functions and their properties
• Prime implicants
• Essential Prime Implicants
• Quine-McCluskey Tabular Method
• Don’t – care combinations

Logic Design and realization:

• Design with basic logic gates
• Single Output and Multiple
• Output Combinational Logic Circuit Design
• AND-OR, OR-AND and NAND/NOR
• Realizations, Exclusive-OR and Equivalence Functions

UNIT III

Combinational Logic Design:

• Comparators
• Multiplexer and its applications
• Demultiplexers
• Code Conversion
• Parity generator and checker
• Implementing Boolean functions with IC 74151, IC 74153
• Contact Networks
• Hazards: Static Hazards
• Design of Hazard-Free Switching Circuits

UNIT IV

Combinational Logic Design:

• Decoders
• Priority encoders
• BCD to seven segment decoder
• ROM as a combination of decoder with encoder
• Implementing Boolean functions with IC 74138

Flip Flops and Conversions:

• Memory element
• S-R, J-K and D Latch operation
• Race around condition
• Master Slave J-K Flip Flop

Flip-Flop types:

• S-R, J-K, D, T, State table
• State diagram
• Characteristic equation and excitation table
• Set-up and hold time
• Flip flop conversions

UNIT V

Sequential Logic Design:

• Classification
• State diagram
• State table
• Asynchronous and
• Synchronous counters
• Skipping state counter
• Counter Lock – out
• Shift registers and applications
• Implementing counters with IC 7476, IC 7474, IC 7490, IC 7492, IC 7493
• Finite state machine – Moore, Melay, Design of a sequence detector

Aspirants can download the syllabus of MVSR 2019 by following below mentioned guidelines also.

• First of all you are required to reach to the official website of the organization that is www.mvsrec.edu.in
• Now you have to select the appropriate link of the course for which you want to download MVSR Syllabus 2019.
• Download MVSR Engineering Syllabus 2019 or take a print out of Engineering MVSR Syllabus 2019 and do preparation accordingly.

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MVSR Engineering College Syllabus

MVSR Syllabus has presented here for the candidates who are studying in offered programmes i.e. BE/M.Tech and others. You can download MVSR Syllabus 2019 PDF for engineering CE/ CSE/ ECE/ EEE/ ME/IT branches.

MVSR Engineering Syllabus

Appearing aspirants in Engineering Examination in various branches can download their MVSR Syllabus 2019. With the help of given PDF’s of Maturi Venkata Subba Rao Engineering College Syllabus, you can easily do preparation of the examination and secure good marks also.

Note:

Candidates can get their MVSR Syllabus 2019 from above given links. To know more about the MVSR Syllabus 2019, stay connected with us on this page.

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