MA6351 Transforms and Partial Differential Equations Syllabus for Anna University

Anna University Syllabus

Anna University 3rd Semester Syllabus for EEE / ECE / CSE / IT / MECH , Anna university M3 Syllabus , Syllabus for mathematics 3 .

Anna University 5th Sem Syllabus for EEE

Download Anna University 3rd Semester Syllabus Online : www.annauniv.edu

MA6351        TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS           

UNIT I             PARTIAL  DIFFERENTIAL  EQUATIONS                                                            

Formation of partial differential equations – Singular integrals -- Solutions of standard types of first order partial differential equations - Lagrange’s linear equation -- Linear partial differential equations of second and higher order with constant coefficients of both homogeneous and non-homogeneous types.

UNIT II            FOURIER  SERIES                                                                                                

Dirichlet’s conditions – General Fourier series – Odd and even functions – Half range sine series – Half range cosine series – Complex form of Fourier series – Parseval’s identity – Harmonic analysis.

UNIT III           APPLICATIONS  OF PARTIAL  DIFFERENTIAL  EQUATIONS                        

Classification of PDE – Method of  separation of  variables - Solutions of one dimensional wave equation – One dimensional equation of heat conduction  – Steady state solution of two dimensional equation of heat conduction (excluding insulated edges).

UNIT IV          FOURIER  TRANSFORMS                                                                                   

Statement   of   Fourier   integral   theorem       –   Fourier   transform   pair   –   Fourier   sine   and cosine transforms – Properties – Transforms of simple functions – Convolution theorem – Parseval’s identity.

UNIT V           Z - TRANSFORMS  AND  DIFFERENCE  EQUATIONS                                      

Z- transforms - Elementary properties – Inverse Z - transform (using partial fraction and residues) – Convolution theorem - Formation of  difference equations – Solution of difference  equations  using  Z- transform.

Anna university nov/dec exams syllabus, anna university syllabus for nov/dec 2015 exams . 

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ANNA UNIV 3RD SEMESTER SYLLABUS FOR ALL BRANCHES

ANNA UNIVERSITY SYLLABUS FOR 3RD SEMESTER

ANNA UNIVERSITY HAS ALREADY ANNOUNCED REOPENING DATES FOR 5TH SEM,7TH SEM    STUDENTS TO BE ON JULY 2ND 2012. SINCE THE RESULTS FOR 8TH SEMESTER HAS BEEN DECLARED ON JUNE 27TH 2012 , THE RESULTS FOR 2ND SEMESTER , 4TH SEMESTER AS WELL AS THE RESULTS FOR 6TH SEMESTER WILL BE DECLARED OFFICIALLY BY ANNA UNIVERSITY ON JULY 3RD WEEK.

MEANWHILE YOU CAN DOWNLOAD YOUR COPY OF SYLLABUS FOR 3RD SEMESTER FROM THE BELOW GIVEN URL.

SYLLABUS FOR 3RD SEMESTER ( ALL BRANCHES )

YOU CAN DOWNLOAD THE SYLLABUS FOR ALL SEMESTERS ie) SYLLABUS FROM 3RD SEM TO 8TH SEMESTER .

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181101 Mathematics I Syllabus - Anna University 1st year 1st semester

181101 MATHEMATICS – I 3 1 0 4


181101 MATHEMATICS – I SYLLABUS | 181101MATHEMATICS – I | ANNA UNIVERSITY M1 SYLLABUS FOR ECE,EEE,IT ,MECH,CSE,| M1 QUESTION BANK


UNIT I MATRICES 12
Characteristic equation – Eigen values and eigen vectors of a real matrix – Properties – Cayley-Hamilton theorem (excluding proof) – Orthogonal transformation of a symmetric matrix to diagonal form – Quadratic form – Reduction of quadratic form to canonical form by orthogonal transformation.

UNIT II THREE DIMENSIONAL ANALYTICAL GEOMETRY 12
Equation of a sphere – Plane section of a sphere – Tangent Plane – Equation of a cone – Right circular cone – Equation of a cylinder – Right circular cylinder.


UNIT III DIFFERENTIAL CALCULUS 12
Curvature in Cartesian co-ordinates – Centre and radius of curvature – Circle of curvature – Evolutes – Envelopes – Evolute as envelope of normals.


UNIT IV FUNCTIONS OF SEVERAL VARIABLES 12
Partial derivatives – Euler’s theorem for homogenous functions – Total derivatives – Differentiation of implicit functions – Jacobians – Taylor’s expansion – Maxima and Minima – Method of Lagrangian multipliers.


UNIT V MULTIPLE INTEGRALS 12
Double integration – Cartesian and polar coordinates – Change of order of integration – Change of variables between Cartesian and polar coordinates – Triple integration in Cartesian co-ordinates – Area as double integral – Volume as triple integral


TOTAL : 60 PERIODS

TEXT BOOK:1. Bali N. P and Manish Goyal, “Text book of Engineering Mathematics”, Third edition, Laxmi Publications(p) Ltd.,(2008).
2. Grewal. B.S, “Higher Engineering Mathematics”, 40th
Publications, Delhi, (2007).

REFERENCES:

Edition, Khanna
1. Ramana B.V, “Higher Engineering Mathematics”, Tata McGraw Hill
Publishing Company, New Delhi, (2007).
2. Glyn James, “Advanced Engineering Mathematics”, 7th
Education, (2007).Edition, Pearson
3. Jain R.K and Iyengar S.R.K, “Advanced Engineering Mathematics”,
3rd Edition, Narosa Publishing House Pvt. Ltd., (2007).

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Anna University 3rd Semester Syllabus for ECE - Reg 2010

3rd Semester ECE Syllabus
Anna University of Technology Chennai,regulaiton 2010 ,Syllabus for ECE 3rd Sem Students,
subjects with num of hours ,each subjects syllabus is given below,don't forgot to subscribe for Email Alerts,to get all our future updates to your inbox.

 B.E. / B.TECH. DEGREE PROGRAMMES CURRICULA & SYLLABI III

SEMESTER III

(Applicable to the students admitted from the Academic year 2010–20011 onwards)

Code No. Course Title L T P C

THEORY

          181301 Transforms and Partial Differential Equations 3 1 0 4
          131307 Electrical Engineering 3 0 0 3
          147301 Data Structures and Object Oriented Programming in C++ 3 0 0 3
          147302 Digital Electronics 3 1 0 4
          147303 Signals and systems 3 1 0 4
          147304 Electronic Circuits- I 3 1 0 4

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147304 Electronics Circuits I Syllabus - Anna Univ 3rd Sem

EC 1 - Electronics Circuits I Syllabus

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147304 ELECTRONIC CIRCUITS I 3 1 0 4

AIM

The aim of this course is to familiarize the student with the analysis and design of basic 

transistor Amplifier circuits and power supplies.

OBJECTIVE

On completion of this course the student will understand 

• The methods of biasing transistors

• Design of simple amplifier circuits

• Midband analysis of amplifier circuits using small - signal equivalent circuits to 

determine gain input impedance and output impedance

• Method of calculating cutoff frequencies and to determine bandwidth

• Design of power amplifiers 

• Analysis and design of power supplies.

UNIT I TRANSISTOR BIAS STABILITY 9

BJT – Need for biasing – Stability factor - Fixed bias circuit, Load line and quiescent 

point. Variation of quiescent point due to 

FE

h variation within manufacturers tolerance -

Stability factors - Different types of biasing circuits - Method of stabilizing the Q point -

Advantage of Self bias (voltage divider bias) over other types of biasing, Bias 

compensation – Diode, Thermister and Sensistor compensations, Biasing the FET and 

MOSFET.

UNIT II MIDBAND ANALYSIS OF SMALL SIGNAL AMPLIFIERS 9

CE, CB and CC amplifiers - Method of drawing small-signal equivalent circuit - Midband 

analysis of various types of single stage amplifiers to obtain gain, input impedance and 

output impedance - Miller’s theorem - Comparison of CB, CE and CC amplifiers and 

their uses - Methods of increasing input impedance using Darlington connection and 

bootstrapping - CS, CG and CD (FET) amplifiers - Multistage amplifiers.

Basic emitter coupled differential amplifier circuit - Bisection theorem. Differential gain –

CMRR - Use of constant current circuit to improve CMRR - Derivation of transfer 

characteristic.

UNIT III FREQUENCY RESPONSE OF AMPLIFIERS 9

General shape of frequency response of amplifiers - Definition of cutoff frequencies and 

bandwidth - Low frequency analysis of amplifiers to obtain lower cutoff frequency Hybrid 

–  equivalent circuit of BJTs - High frequency analysis of BJT amplifiers to obtain 

upper cutoff frequency – Gain Bandwidth Product - High frequency equivalent circuit of 

FETs - High frequency analysis of FET amplifiers - Gain-bandwidth product of FETs -

General expression for frequency response of multistage amplifiers - Calculation of 

overall upper and lower cutoff frequencies of multistage amplifiers - Amplifier rise time 

and sag and their relation to cutoff frequencies.9

UNIT IV LARGE SIGNAL AMPLIFIERS 9

Classification of amplifiers, Class A large signal amplifiers, second harmonic distortion, 

higher order harmonic distortion, transformer-coupled class A audio power amplifier –

efficiency of Class A amplifiers. Class B amplifier – efficiency - push-pull amplifier - 

distortion in amplifiers - complementary-symmetry (Class B) push-pull amplifier, Class C, 

Class D amplifier – Class S amplifier – MOSFET power amplifier, Thermal stability and 

heat sink.

UNIT V RECTIFIERS AND POWER SUPPLIES 9

Classification of power supplies, Rectifiers - Half-wave, full-wave and bridge rectifiers 

with resistive load. Analysis for Vdc

and ripple voltage with C, L, LC and CLC filters. 

Voltage multipliers, Voltage regulators - Zener diode regulator, principles of obtaining a 

regulated power supply, regulator with current limiting, Over voltage protection, Switched 

mode power supply (SMPS), Power control using SCR.

TUTORIAL = 15 TOTAL : 60 

TEXT BOOKS

1. Millman J and Halkias .C., Integrated Electronics, TMH, 2007.

2. S. Salivahanan, N. Suresh Kumar and A. Vallavaraj, Electronic Devices and Circuits, 

2ndEdition, TMH, 2007.

REFERENCES

1. Robert L. Boylestad and Louis Nashelsky, Electronic Devices and Circuit Theory, 9thEdition, Pearson Education / PHI, 2007.

2. David A. Bell, Electronic Devices & Circuits, 4thEdiion, PHI, 2007

3. Floyd, Electronic Devices, Sixth Edition, Pearson Education, 2002.

4. I.J. Nagrath, Electronic Devices and Circuits, PHI, 2007.

5. Anwar A. Khan and Kanchan K. Dey, A First Course on Electronics, PHI, 2006.

6. B.P. Singh and Rekha Singh, Electronic Devices and Integrated Circuits, Pearson 

Education, 2006.

7. Rashid M, Microelectronics Circuits, Thomson Learning, 2007.10

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147303 Signals and Systems Syllabus - Anna Univ Syllabus for 3rd Sem

SS - Signal & Systems Syllabus

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147303 SIGNALS AND SYSTEMS 3 1 0 4

AIM

To study and analyse characteristics of continuous, discrete signals and systems.

OBJECTIVES

• To study the properties and representation of discrete and continuous signals.

• To study the sampling process and analysis of discrete systems using ztransforms.

• To study the analysis and synthesis of discrete time systems.

1. CLASSIFICATION OF SIGNALS AND SYSTEMS 9

Continuous time signals (CT signals), discrete time signals (DT signals) - Step, Ramp, 

Pulse, Impulse, Exponential, Classification of CT and DT signals - periodic and periodic, 

random singals, CT systems and DT Systems, Basic properties of Systems - Linear Time 

invariant Systems and properties. 

2. ANALYSIS OF CONTINUOUS TIME SIGNALS 9

Fourier series analysis, Spectrum of C.T. singals, Fourier Transform and Laplace 

Transform in Signal Analysis. 

3. LINEAR TIME INVARIANT –CONTINUOUS TIME SYSTEMS 9

Differential equation, Block diagram representation, Impulse response, Convolution 

integral, frequency response , Fourier and Laplace transforms in analysis, State variable 

equations and matrix representation of systems

4. ANALYSIS OF DISCRETE TIME SIGNALS 9

Sampling of CT signals and aliasing, DTFT and properties, Z-transform and properties of 

Z-transform. 

5. LINEAR TIME INVARIANT - DISCRETE TIME SYSTEMS 9

Difference equations, Block diagram representation, Impulse response, Convolution sum, 

LTI systems analysis using DTFT and Z-transforms , State variable equations and matrix

representation of systems. 

Tutorial = 15 

Total No of periods: 45 + 15 = 60

TEXT BOOK:

1. Allan V.Oppenheim, S.Wilsky and S.H.Nawab, Signals and Systems, Pearson 

Education, 2007. 

2. Edward W Kamen & Bonnie’s Heck, “Fundamentals of Signals and Systems”, 

Pearson Education, 2007.

REFERENCES:

1. H P Hsu, Rakesh Ranjan“ Signals and Systems”, Schaum’s Outlines, Tata McGraw 

Hill, Indian Reprint, 2007

2. S.Salivahanan, A. Vallavaraj, C. Gnanapriya, Digital Signal Processing, McGraw Hill 

International/TMH, 2007.

3. Simon Haykins and Barry Van Veen, Signals and Systems John Wiley & sons , Inc, 

2004.

4. Robert A. Gabel and Richard A.Roberts, Signals & Linear Systems, John Wiley, III 

edition, 1987.

5. Rodger E. Ziemer, William H. Tranter, D. Ronald Fannin. Signals & systems, Fourth 

Edition, Pearson Education, 2002.8

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