#1
20th November 2012, 02:57 PM
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Anna University Coimbatore Syllabus for ECE 6th SEM
How I can get the Elecrtronics communication engineering course syllabus of from net because I have need of this course syllabus of Anna University Coimbatore so want to get it from net.
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#2
21st November 2012, 09:47 AM
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Re: Anna University Coimbatore Syllabus for ECE 6th SEM
As you are looking for syllabus of Elecrtronics communication engineering form Anna University Coimbatore, below I am providing you syllabus of ECE from Anna University Coimbatore as per your requirement. Semester VI VLSI Design Digital Communication Microcontrollers & RISC Architecture Antenna and Wave Propagation Digital Image Processing Elective I Practical: Analog and Digital Communication Systems Lab VLSI Lab Microprocessor & Microcontroller Lab Bellow I am providing you an attachment where you can get syllabus for semester VI, VII, VIII of ECE from Anna University Coimbatore. |
#3
21st May 2015, 11:31 AM
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Re: Anna University Coimbatore Syllabus for ECE 6th SEM
I am pursuing B.Tech ECE form Anna University, Coimbatore and looking for 6th Semester Syllabus so please provide me the same?
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#4
21st May 2015, 11:37 AM
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Re: Anna University Coimbatore Syllabus for ECE 6th SEM
Here I am providing you Anna University, Coimbatore B.Tech ECE 6th Semester Syllabus. 6th Semester Subjects: VLSI Design Digital Communication Microcontrollers & RISC Architecture Antenna and Wave Propagation Digital Image Processing Elective I Practical: Analog and Digital Communication Systems Lab VLSI Lab Microprocessor & Microcontroller Lab Anna University, Coimbatore B.Tech ECE Syllabus: MATHEMATICS III L T P C (Common to all branches of BE / B.Tech Programmes) 3 1 0 4 AIM To facilitate the understanding of the principles and to cultivate the art of formulating physical problems in the language of mathematics. OBJECTIVES • To introduce Fourier series analysis which is central to many applications in engineering apart from its use in solving boundary value problems • To acquaint the student with Fourier transform techniques used in wide variety of situations in which the functions used are not periodic • To introduce the effective mathematical tools for the solutions of partial differential equations that model physical processes • To develop Z- transform techniques which will perform the same task for discrete time systems as Laplace Transform, a valuable aid in analysis of continuous time systems UNIT I FOURIER SERIES 9+3 Dirichlet’s conditions – General Fourier series – Odd and even functions – Half-range Sine and Cosine series – Complex form of Fourier series – Parseval’s identity – Harmonic Analysis. UNIT II FOURIER TRANSFORM 9+3 Fourier integral theorem – Fourier transform pair-Sine and Cosine transforms – Properties – Transform of elementary functions – Convolution theorem – Parseval’s identity. UNIT III PARTIAL DIFFERENTIAL EQUATIONS 9+3 Formation – Solutions of first order equations – Standard types and Equations reducible to standard types – Singular solutions – Lagrange’s Linear equation – Integral surface passing through a given curve – Solution of linear equations of higher order with constant coefficients. UNIT IV APPLICATIONS OF PARTIAL DIFFERENTIAL EQUATIONS 9+3 Method of separation of Variables – Solutions of one dimensional wave equation and one-dimensional heat equation – Steady state solution of two-dimensional heat equation – Fourier series solutions in Cartesian coordinates. UNIT VI Z – TRANSFORM AND DIFFERENCE EQUATIONS 9+3 Z-transform – Elementary properties – Inverse Z-transform – Convolution theorem – Initial and Final value theorems – Formation of difference equation – Solution of difference equation using Z-transform. L: 45, T: 15, TOTAL : 60 PERIODS TEXT BOOKS 1. Grewal, B.S. “Higher Engineering Mathematics”, Khanna Publications (2007) REFERENCES 1. Glyn James, “Advanced Modern Engineering Mathematics, Pearson Education (2007) 2. Ramana, B.V. “Higher Engineering Mathematics” Tata McGraw Hill (2007). 3. Bali, N.P. and Manish Goyal, “A Text Book of Engineering 7th Edition (2007) Lakshmi Publications (P) Limited, New Delhi. EE9215 ELECTRICAL ENGINEERING L T P C 3 0 0 3 AIM To provide knowledge in the basic concepts of three phase circuits, electrical machines and power system. PREREQUISTE Electric circuit analysis OBJECTIVE To impart knowledge on • Three phase circuits • Principles of Electrical Machines • Various components of power system UNIT I DC MACHINES 9 Construction of DC machines – theory of operation of DC generators – characteristics of DC generators. Operating principle of DC motors – types of DC motors and their characteristics – speed control of DC motors. UNIT II TRANSFORMERS AND THREE PHASE CIRCUITS 9 Introduction – transformer principle of operation – transformer no–load phasor diagram – EMF equation of a transformer – transformer on–load phasor diagram – transformer construction – equivalent circuit of a transformer – regulation of a transformer – transformer losses and efficiency –auto transformers. Three-phase supply – star connection – Delta connection – power in three-phase systems – measurement of power in three-phase systems – comparison of star and delta - advantages UNIT II I INDUCTION MACHINES 9 Construction of single-phase motors – types of single phase motors – double revolving field theory – starting methods – capacitor start capacitor run motors – shaded pole – repulsion type. Principle of operation of three-phase induction motors – construction – types – equivalent circuit – starting and speed control. UNIT IV SYNCHRONOUS MACHINES 9 Principles of alternator – construction details – types – equation of induced EMF – voltage regulation. Methods of starting of synchronous motors – torque equation – V curves – synchronous condensers . UNIT V INTRODUCTION OF POWER SYSTEMS 9 Structure of electrical Power system –typical AC power supply scheme –types of power plants –Variable load on Power plants-Interconnected grid system- transmission & distribution of electrical energy –over head Vs Underground system –Protection of power system –substation –types of tariff –power factor improvement TOTAL: 45 PERIODS TEXT BOOKS 1. I.J Nagarath and Kothari DP ‘Electrical Machines ’ Tata McGraw Hill ,1997 2. Del Toro ‘Electrical Engineering Fundamentals’ Pearson Education, New Delhi, 2007. 3. John Bird ‘Electrical Circuit theory and technology’ Elsevier, First Indian Edition, 2006. REFERENCES 1. Rajendra Prasad ‘Fundamentals of Electrical engineering’ Prentice Hall of India, 2006. 2. Thereja .B.L ‘Fundamentals of Electrical Engineering and Electronics’ S chand & Co Ltd, 2008 3. V.K Mehta and Rohit Mehta ‘ Principle of Electrical Engineering’ S Chand & Company,2008 EC 9201 ELECTROMAGNETIC FIELDS AND WAVES L T P C 3 0 0 3 UNIT I STATIC ELECTRIC FIELD 9 Introduction to co-ordinate systems , Gradient , Divergence , Curl , Divergence theorem, Stokes theorem , Coulombs law , Electric field intensity , Principle of superposition , Electric scalar potential , Electric flux density. Gauss’s law and its application, Permittivity, Polarization, Boundary relation, Capacitance, Dielectric strength ,Energy and Energy density, Poisson and Laplace equation and their application, Numerical problems UNIT II STATIC MAGNETIC FIELD 9 Magnetic field of a current carrying element ,Amperes law , The Biot – Savart law , Magnetic flux Density and Field intensity , Gauss law for magnetic fields , Torque, Magnetic moment ,Magneto motive force , Permeability , Vector potential , Field computation. Inductance, Energy in an Inductor and Energy density, Boundary relation, Hysterisis, Reluctance and Permeance. Numerical problems UNIT III TIME VARYING ELECTRIC AND MAGNETIC FIELDS 9 Faradays law , Transformer and Mutual induction ,Maxwell’s equation , Self and Mutual inductance ,Displacement current , Amperes law and its inconsistency for time varying fields , Boundary relation , Poynting vector , Comparison of field and circuit theory , Numerical problems. UNIT IV PLANE EM WAVES IN ISOTROPIC MEDIA 9 Wave equation from Maxwell’s Equation, Uniform plane waves in perfect dielectric and conductors, Polarization, Reflection and Refraction of plane waves at different boundaries, Surface impedance, Numerical problems UNIT V APPLICATION OF STATIC FIELDS AND COMPUTATIONAL METHODS 9 Deflection of a charged particle, CRO, Ink Jet Printer, Electro static generator, Magnetic Separator, Cyclotron, Velocity selector and Mass Spectrometer, Electromagnetic pump, Introduction to field computation methods-FDM,FEM,MOM , Numerical problems TOTAL: 45 PERIODS TEXT BOOK 1. David .K.Cheng, “Field and wave Electromagnetics” , 2nd edition, Pearson education, 2004. 2. Mathew.N.O.Sadiku, ”Elements of Electromagnetics”, Oxford University Press,2006 REFERENCES 1. Karl E.Longman and Sava V.Savov, ”Fundamentals of Electro-Magnetics” , Prentice Hall of India, 2006 2. Kraus, Fleisch, “Electromagnetics with Applications”, McGraw-Hill, 2005 3. W.H.Hayt and A.Buck,”Engineering ElectroMagnetics” , 7th Edition, Mcgraw Hill,2006 4. Ashutosh Pramanik,” ElectroMagnetism” ,Prentice Hall of India, 2006 5. Nannapaneni Narayana Rao,” Elements of Engineering ElectroMagnetics”, 6th edition, Prentice Hall of India, 2006 EC 9202 ELECTRONIC CIRCUITS - I L T P C 3 0 0 3 UNIT I BIASING OF DISCRETE BJT AND MOSFET 9 DC Load line , operating point, Various biasing methods for BJT-Design-Stability- Bias compensation, Thermal stability, Design of biasing for MOSFET and JFET - UNIT II BJT AMPLIFIERS 9 Small signal Analysis of Common Emitter-AC Loadline, Voltage swing limitations, Common collector and common base amplifiers – JFET amplifiers - Differential amplifiers- CMRR- Darlington Amplifier-Bootstrap technique - Cascaded stages - Cascode Amplifier UNIT III MOSFET AMPLIFIERS 9 Small signal Analysis of Common source, Source follower and Common Gate amplifiers -CMOS Inverters –DC Analysis of CMOS Inverters – Voltage transfer curve – BiMOS Cascode - Design of NMOS inverter using resistive load – Noise Margin – VTC. UNIT IV IC MOSFET AMPLIFERS 9 Single stage IC MOS amplifiers – Active Loads – Depletion MOS, Enhancement MOS, MOS in Triode region, NMOS current source and PMOS Current source, their equivalent circuits and load line on the VI characteristics– Current steering circuit using MOSFET –– CMOS common source amplifier and CMOS Common source follower – CMOS differential amplifier – CMRR UNIT V HIGH FREQUENCY ANALYSIS AND LARGE SIGNAL AMPLIFIERS 9 Short circuit current gain , cut off frequency – fα and fβ unity gain and bandwidth - Miller effect–frequency Analysis of CS and CE Amplifiers-Determinations of BW of Single stage and Multistage Amplifier- Analysis of Class A, Class B, Class AB with darlington output stage and with output stage utilizing MOSFETs – Class C, Class D, Class E power amplifiers. TOTAL: 45 PERIODS TEXT BOOKS 1. Adel .S. Sedra, Kenneth C. Smith, Micro Electronic circuits, 5th Edition, Oxford University Press, 2004. 2. Donald .A. Neamen, Electronic Circuit Analysis and Design –2nd edition,Tata McGraw Hill, 2007. REFERENCES 1. Behzad Razavi, “ Design of Analog CMOS Integrated Circuits”, Tata McGraw Hill, 2007. 2. Paul Gray, Hurst, Lewis, Meyer “Analysis and Design of Analog Integrated Circuits”, 4th Edition , John Willey & Sons 2005 3. Millman .J. and Halkias C.C, “Integrated Electronics”, McGraw Hill, 2001. 4. D.Schilling and C.Belove, “Electronic Circuits”, 3rd edition, McGraw Hill, 1989. CS 9211 DATA STRUCTURES AND OBJECT ORIENTED L T P C PROGRAMMING IN C++ 3 0 0 3 AIM To provide an in-depth knowledge in problem solving techniques and data structures. OBJECTIVES • To learn the systematic way of solving problems • To understand the different methods of organizing large amounts of data • To learn to program in C++ • To efficiently implement the different data structures • To efficiently implement solutions for specific problems UNIT I PRINCIPLES OF OBJECT ORIENTED PROGRAMMING 9 Introduction- Tokens-Expressions-contour Structures –Functions in C++, classes and objects, constructors and destructors ,operators overloading and type conversions . UNIT II ADVANCED OBJECT ORIENTED PROGRAMMING 9 Inheritance, Extending classes, Pointers, Virtual functions and polymorphism, File Handling Templates ,Exception handling, Manipulating strings. UNIT III DATA STRUCTURES & ALGORITHMS 9 Algorithm, Analysis, Lists, Stacks and queues, Priority queues-Binary Heap- Application, Heaps, skew heaps, Binomial –hashing-hash tables without linked lists UNIT IV NONLINEAR DATA STRUCTURES 9 Trees-Binary trees, search tree ADT, AVL trees splay Trees, Graph Algorithms- Topological sort, shortest path algorithm network flow problems-minimum spanning tree applications of depth-first-search-Introduction to NP - completeness. UNIT V SORTING AND SEARCHING 9 Sorting – Insertion sort, Shell sort, Heap sort, Merge sort, Quick sort, Indirect sorting, Bucket sort, Introduction to Algorithm Design Techniques –Greedy algorithm, Divide and Conquer, Dynamic Programming. TOTAL: 45 PERIODS 10 TEXT BOOKS 1. Mark Allen Weiss, “Data Structures and Algorithm Analysis in C”, 3rd ed, Pearson Education Asia, 2007. 2. E. Balagurusamy, “Object Oriented Programming with C++”, McGraw Hill Company Ltd., 2007. REFERENCES 1. Michael T. Goodrich, “Data Structures and Algorithm Analysis in C++”, Wiley student edition, 2007. 2. Sahni, “Data Structures Using C++”, The McGraw-Hill, 2006. 3. Seymour, “Data Structures”, The McGraw-Hill, 2007. 4. Jean – Paul Tremblay & Paul G.Sorenson, An Introduction to data structures with applications, Tata McGraw Hill edition, II Edition, 2002. 5. John R.Hubbard, Schaum’s outline of theory and problem of data structure with C++, McGraw-Hill, New Delhi, 2000. 6. Bjarne Stroustrup, The C++ Programming Language, Addison Wesley, 2000 7. Robert Lafore, Object oriented programming in C++, Galgotia Publication EC 9203 SIGNALS AND SYSTEMS L T P C 3 1 0 4 UNIT I 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 aperiodic signals, random signals, Energy & Power signals - CT systems and DT systems, Classification of systems. UNIT II ANALYSIS OF CONTINUOUS TIME SIGNALS 9 Fourier series analysis- spectrum of Continuous Time (CT) signals- Fourier and Laplace Transforms in Signal Analysis. UNIT III LINEAR TIME INVARIANT –CONTINUOUS TIME SYSTEMS 9 Differential Equation-Block diagram representation-impulse response, convolution integrals-Fourier and Laplace transforms in Analysis- State variable equations and matrix representation of systems. UNIT IV ANALYSIS OF DISCRETE TIME SIGNALS 9 Baseband Sampling of CT signals- Aliasing, DTFT and properties, Z-transform & properties. UNIT V LINEAR TIME INVARIANT –DISCRETE TIME SYSTEMS 9 Difference Equations-Block diagram representation-Impulse response-Convolution sum- DTFT and Z Transform analysis of Recursive & Non-Recursive systems- State variable equations and matrix representation of systems. L:45 + T:15 TOTAL: 60 PERIODS 11 TEXT BOOKS 1. Allan V.Oppenheim, S.Wilsky and S.H.Nawab, Signals and Systems, Pearson, Indian Reprint, 2007. 2. Simon Haykins and Barry Van Veen, Signals and Systems John Wiley & sons, Inc. 2004. REFERENCES 1. H P Hsu, Rakesh Ranjan“ Signals and Systems”, Schaum’s Outlines, Tata McGraw Hill, Indian Reprint ,2007 2. Edward W. Kamen, Bonnie S. Heck, Fundamentals of Signals and Systems Using the Web and MATLAB, Pearson, Indian Reprint, 2007 3. John Alan Stuller, An Introduction to Signals and Systems, Thomson, 2007 4. M.J.Roberts, Signals & Systems, Analysis using Transform methods & MATLAB, Tata McGraw Hill (India), 2007. 5. Robert A. Gabel and Richard A.Roberts, Signals & Linear Systems, John Wiley, III edition, 1987. EE9218 ELECTRICAL MACHINES LABORATORY L T P C 0 0 3 2 1. Study of DC & AC Starters 2. Study of Transducers 3. Wheatstone Bridge and Schering Bridge 4. ADC and DAC Converters 5. Speed Control of DC Shunt Motor 6. Load Test on DC Shunt Motor 7. OCC & Load Characteristics of DC Shunt Generator 8. Load Test on Single-Phase Transformer 9. Load Test on Three-Phase Induction Motor 10. Load Test on Single-Phase Induction Motor. TOTAL: 45 PERIODS 12 EC 9204 ELECTRONIC CIRCUITS - I LAB L T P C 0 0 3 2 1. Frequency Response of CE amplifier 2. Frequency response of CB amplifier 3. CC Amplifier - buffer 4. Frequency response of CS Amplifiers 5. Class A and Class B power amplifiers. 6. Differential Amplifiers- Transfer characterisitic. 7. CMRR Measurment 8. Cascode amplifier 9. Cascade amplifier TOTAL: 45 PERIODS CS 9212 DATA STRUCTURES AND OBJECT ORIENTED L T P C PROGRAMMING LAB 0 0 3 2 1. Basic Programs for C++ Concepts 2. Array implementation of List Abstract Data Type (ADT) 3. Linked list implementation of List ADT 4. Cursor implementation of List ADT 5. Stack ADT - Array and linked list implementations The next two exercises are to be done by implementing the following source files (a) Program source files for Stack Application 1 (b) Array implementation of Stack ADT (c) Linked list implementation of Stack ADT (d) Program source files for Stack Application 2 An appropriate header file for the Stack ADT should be #included in (a) and (d) 6. Implement any Stack Application using array implementation of Stack ADT (by implementing files (a) and (b) given above) and then using linked list implementation of Stack ADT (by using files (a) and implementing file (c)) 7. Implement another Stack Application using array and linked list implementations of Stack ADT (by implementing files (d) and using file (b), and then by using files (d) and (c)) 8. Queue ADT – Array and linked list implementations 9. Search Tree ADT - Binary Search Tree 10. Hash Table – separate chaining 11. Implement an interesting application as separate source files and using any of the searchable ADT files developed earlier. Replace the ADT file alone with other appropriate ADT files. Compare the performance. 12. Heap Sort 13. Quick Sort TOTAL: 45 PERIODS MA 9263 PROBABILITY AND RANDOM PROCESSES L T P C 3 1 0 4 AIM To provide the necessary basic concepts in probability and random processes for applications such as random signals, linear systems etc. in communications engineering. OBJECTIVES • The students will have an exposure of various distribution functions and help in acquiring skills in handling situations involving more than one variable. • Able to analyze the response of random inputs to linear time invariant systems. UNIT I RANDOM VARIABLES 9 + 3 Discrete and Continuous random variables – Moments – Moment generating functions – Binomial, Poisson, Geometric, Uniform, Exponential, Gamma, Weibull and Normal distributions – Functions of a random variable. UNIT II TWO-DIMENSIONAL RANDOM VARIABLES 9 + 3 Joint distributions – Marginal and Conditional distributions – Covariance – Correlation and Linear regression – Transformation of random variables - Central limit theorem (for independent and identically distributed random variables). UNIT III RANDOM PROCESSES 9 + 3 Classification – Stationary process – Markov process - Poisson process – Random telegraph process. UNIT IV CORRELATION AND SPECTRAL DENSITIES 9 + 3 Auto-correlation functions – Cross-correlation functions – Properties – Power spectral density – Cross-spectral density – Properties. UNIT V LINEAR SYSTEMS WITH RANDOM INPUTS 9 + 3 Linear time invariant system – System transfer function – Linear systems with random inputs – Auto-correlation and Cross-correlation functions of input and output – White noise. L: 45, T: 15, TOTAL : 60 PERIODS TEXT BOOKS 1. Ibe, O.C.,“Fundamentals of Applied Probability and Random Processes”, Elsevier, 1st Indian Reprint, (2007). 2. Peebles, P.Z., “Probability, Random Variables and Random Signal Principles”, Tata McGraw Hill, 4th edition, New Delhi, (2002). REFERENCES 1. Yates, R.D. and Goodman, D.J., “Probability and Stochastic Processes”, John Wiley and Sons, 2nd edition, (2005). 2. Stark, H. and Woods, J.W., “Probability and Random Processes with Applications to Signal Processing”, Pearson Education, Asia, 3rd edition, (2002). 3. Miller, S.L. and Childers, D.G.,“Probability and Random Processes with Applications to Signal Processing and Communications”, Academic Press, (2004). 4. Hwei Hsu, “Schaum’s Outline of Theory and Problems of Probability, Random Variables and Random Processes”, Tata McGraw Hill edition, New Delhi, (2004). 14 EC 9251 DIGITAL ELECTRONICS AND SYSTEM DESIGN L T P C 3 1 0 4 UNIT I BASIC CONCEPTS AND COMBINATIONAL CIRCUITS 9 Number Systems – n’s complement –Codes - Sum of products and product of sums, Minterms and Maxterms, Karnaugh map and Tabulation method – problem formulation and design of combinational circuits, Adder, Subtractor, Encoder/decoder, – three state devices, Priority Encoder, Mux/Demux, Codeconverters, Comparators, Implementation of combinational logic using standard ICs, ROM, EPROM and EEPROM – Coding of Combination Circuits in verilog. UNIT II SEQUENTIAL CIRCUITS 9 Flip flops – SR, JK, T, D, Master/Slave FF, Triggering of FF, Analysis of clocked sequential circuits – their design, state minimization, moore/mealy model, state assignment, circuit implementation, Registers- shift registers, Ripple counters, Synchronous counters, Timing signal, RAM, Memory decoding, Semiconductor memories - Feedback sequential- Circuit analysis and design- sequential circuit design with verilog. UNIT III FUNDAMENTAL MODE SEQUENTIAL CIRCUITS 9 Stable, Unstable states, output specifications, cycles and races, state reduction, race free assignments, Hazards, Essential Hazards, Pulse mode sequential circuits, Design of Hazard free circuit UNIT IV MEMORY, CPLDs AND FPGAs 9 ROM, Read/Write memory – Static RAM, Dynamic RAM, PAL, PLA, CPLD – FPGA XL 4000 – CLBs – I/O Block – Programmable Inter connects– Realization of simple combinational and sequential circuits UNIT V LOGIC GATES 9 Logic families- TTL, NMOS, CMOS, BiCMOS logic-Electrical behavior-static, dynamic-CMOS input and output structures-CMOS logic families -low voltage CMOS logic & interfacing-Bipolar logic Realization of NAND and NOR logic. L : 45, P: 15 TOTAL : 60 PERIODS TEXT BOOKS 1. Morris Mano, “ Digital logic ”, Prentice Hall of India, 1998 2. John. F. Wakerly, “Digital design principles and practices”, Pearson Education, Fourth Edition, 2007 . 3. Charles H. Roth, Jr, “Fundamentals of Logic Design”, Fourth edition, Jaico Books, 2002 REFERENCES 1 William I. Fletcher, “An Engineering Approach to Digital Design”, Prentice- Hall of India, 1980 2 Floyd T.L., “Digital Fundamentals”, Charles E. Merril publishing company, 1982 3 Jain R.P., “Modern Digital Electronics”, Tata McGraw Hill, 1999. rest of the syllabus here i am attaching pdf file which is free for download.... |
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