Anna University Syllabus for ECE 5th Semester

Anna University Syllabus for ECE 5th Semester

ANNA UNIVERSITY SYLLABUS FOR 3RD SEMESTER

ANNA UNIVERSITY SYLLABUS FOR 4TH SEMESTER

ANNA UNIVERSITY

SEMESTER : 5TH SEMESTER

BRANCH : ECE ( ELECTRONICS AND COMMUNICATION ENGINEERING )

REGULATION : R2008

ZONE : ALL ( ANNA UNIVERSITY CHENNAI, TRICHY , COIMBATORE , MADURAI , TIRUNELVELI )

5TH SEM SYLLABUS FOR ECE:

What are the subjects for ECE 5th Semester , List of subjects for 5th sem ece , theory subjects for ece 5th sem , practical /lab subjects for ece

 

SEMESTER  V

 

CODE NO

COURSE TITLE

L

T

P

C

THEORY
EC9301 Digital Communication Techniques

3

0

0

3

EC9302 Linear Integrated Circuits

3

0

0

3

EC9303 Microprocessors and Microcontrollers

3

0

0

3

EC9304 Digital Signal Processing

3

1

0

4

EC9305 Transmission Lines and Wave Guides

3

0

0

3

EC9306 Measurements and Instrumentation

3

0

0

3

PRACTICAL
EC9307 Microprocessor and Microcontroller Lab

0

0

3

2

EC9308 Digital Signal Processing Lab

0

0

3

2

EC9309 Communication System Lab

0

0

3

2

 

TOTAL

18

1

9

25

 

 

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EC 9301                         DIGITAL COMMUNICATION TECHNIQUES              L T  P C

3  0  0  3

 

 

UNIT I              BASEBAND COMMUNICATION                                                          9

Line codes – PSDs – ISI – Nyquist criterion for distortionless  transmission  – Pulse shaping – Correlative coding -  M-ary schemes – Eye pattern.

 

UNIT II             SYNCHRONISATION  AND EQUALISATION                                       9

Synchronisation  – Carrier, symbol and frame synchronisation  - Equalisation  – Zero forcing, LMS.

 

UNIT III            INFORMATION THEORY                                                                   9

Measure of information – Entropy – Source coding theorem – Discrete memoryless channels  –  lossless,  deterministic,  noiseless,  BEC,  BSC  –  Mutual  information  – Channel capacity – Shannon-Hartley  law – Sub-band  coding – Transform coding – LPC – Shannon-Fano coding, Huffman Coding, run length coding, LZW algorithm.

 

UNIT IV            ERROR CONTROL CODING TECHNIQUES                                       9

Channel  coding  theorem  – Linear block  codes – Hamming  codes  – Cyclic  codes

(CRC) – Convolutional codes – Viterbi decoding (Soft/Hard decision decoding).

 

UNIT V             ADVANCED ERROR CONTROL CODING                                          9

Trellis coded modulation principles – Turbo Coding  -  LDPC Codes

TOTAL: 45 PERIODS TEXT BOOKS

1.   B. Sklar, “Digital Communication  Fundamentals  and Applications”,  2/e, Pearson

Education, 2007

2.   S. Haykin, “Digital Communications”, John Wiley, 2005

 

REFERENCES

1.   B.P.Lathi,  “Modern  digital  and  Analog  Communication   Systems”  3/e,  Oxford

University Press 2007

2.   J.G Proakis, “Digital Communication”, 4/e, MGH 2001.

3.   Amitabha Battacharya, “Digital communications”, TMH 2006

 

EC 9302                               LINEAR  INTEGRATED CIRCUITS                      L  T P C

3  0  0 3

 

UNIT I        CIRCUIT CONFIGURATION FOR LINEAR ICS                                         9

Current sources, Analysis of difference amplifiers with active loads, supply and temperature  independent  biasing,  Band  gap  references,  Monolithic  IC operational amplifiers,   specifications,   frequency   compensation,   slew  rate  and   methods   of improving slew rate.

 

UNIT II        APPLICATIONS OF OPERATIONAL AMPLIFIERS                                  9

Linear  and  Nonlinear   Circuits  using   operational   amplifiers   and   their  analysis, Inverting  and Non  inverting  Amplifiers,  Differentiator,  Integrator  Voltage  to Current converter, Instrumentation amplifier, Sine wave Oscillators, Low pass and band pass filters,  comparator,   Multivibrator   and  Schmitt  trigger,   Triangle   wave  generator, Precision rectifier, Log and Antilog amplifiers, Non-linear function generator.

 

UNIT III       ANALOG MULTIPLIER AND PLL                                                           9

Analysis  of  four  quadrant   and  variable   Tran  conductance   multipliers,   Voltage controlled Oscillator, Closed loop analysis of PLL, AM, PM and FSK modulators and demodulators. Frequency synthesizers, Compander ICs

 

UNIT IV       ANALOG TO DIGITAL AND DIGITAL TO ANALOG CONVERTORS        9

Analog  switches,  High speed sample and  hold circuits  and sample  and hold IC’s, Types of D/A converter Current driven DAC, Switches for DAC, A/D converter, Flash, Single slope, Dual slope, Successive approximation, DM and ADM, Voltage to Time and Voltage to frequency converters.

 

UNIT V            SPECIAL FUNCTION ICS                                                                  9

Timers,  Voltage  regulators  - linear  and  switched  mode  types,  Switched  capacitor filter,  Frequency  to  Voltage  converters,  Tuned  amplifiers,  Power  amplifiers  and Isolation Amplifiers, Video amplifiers, Fiber optics ICs and Opto couplers, Sources for Noises,           Op         Amp        noise   analysis             and       Low                   noise    OP-Amps.

 

 

 

TEXT BOOKS


TOTAL: 45 PERIODS

1.  Sergio Franco, ” Design with operational amplifiers and analog integrated circuits”,  McGraw Hill, 1997.

 

REFERENCES

1. Gray and Meyer, ” Analysis and Design of Analog Integrated Circuits “, Wiley

International, 1995.

2. Michael Jacob J., ” Applications and Design with Analog Integrated Circuits “, Prentice Hall of  Inida,1996.

3. Ramakant A. Gayakwad, ” OP – AMP and Linear IC’s “, Prentice Hall, 1994.

4. Botkar K.R., ” Integrated Circuits “, Khanna Publishers, 1996.

5. Taub and Schilling, ” Digital Integrated Electronics “, McGraw Hill, 1977.

6. Caughlier and Driscoll, ” Operational amplifiers and Linear Integrated circuits “, Prentice Hall, 1989.

7. Millman J. and Halkias C.C., ” Integrated Electronics “, McGraw Hill, 2001.

 

EC9303                    MICROPROCESSOR  AND MICROCONTROLLER            L T  P C

3 0  0  3

 

UNIT I               ARCHITECTURE OF 8085 /8086                                                        9

8085- Functional Block Diagram- Description – Addressing Modes, Timing diagrams.

8086- Architecture, Instruction set, Addressing Modes. Introduction to 8087 – Architecture.

 

UNIT II             ASSEMBLY LANGUAGE PROGRAMMING                                         9

Simple Assembly Language Programming,   Strings, Procedures, Macros, Assembler

Directives- Interrupts and Interrupt Applications.

 

UNIT III            PERIPHERAL INTERFACING & APPLICATION                                  9

Programmable Peripheral Interface (8255), keyboard display controller (8279), ADC, DAC  Interface,  Programmable   Timer  Controller  (8254),  Programmable   interrupt controller (8259), Serial Communication Interface (8251).

 

UNIT IV            MICROCONTROLLER                                                                        9

8051 Microcontroller-  Instruction  Set – ALP – Branching-  I/ O Programming  - ALU Instruction – 8051 Programming in C.

 

UNIT V            MEMORY, I/O, INTERRUPTS – INTERFACING                                   9

Programming 8051 Timers- Serial Port Programming- Interrupts Programming LCD & Keyboard  Interfacing-  ADC, DAC & Sensor Interfacing,  External Memory Interface- RTC  Interfacing  using  I2C  Standard-  Motor  Control-  Relay,  PWM,  DC & Stepper Motor.

TOTAL: 45 PERIODS

 

TEXT BOOKS

1.     Ramesh      S.     Gaonkar,      Microprocessor    Architecture      Programming     and

Applications with 8085. Fourth edition, Penram International Publishing 2006.

2      Douglas  V.Hall,  Microprocessor  and  Interfacing,  Programming  and  Hardware.

Revised second Edition, Indian edition 2007. Tata McGraw Hill

3       Muhammad  Ali  Mazidi,  Janice  Gillispie  Mazidi,  Rolin  D.MCKinlay  The  8051

Microcontroller  and  Embedded  Systems,  Second  Edition,  Pearson  Education

2008.

 

REFERENCES

1.   Krishna  Kant,  “ Microprocessor  and  Microcontroller  Architecture,  programming and system design using 8085, 8086, 8051 and 8096, PHI, 2007

2.   Kenneth  J.Ayala.,  “The  8051  Microcontroller,   3rd   Edition,  Thompson  Delmar

Learning, 2007, New Delhi.

3.   A.K. Ray , K.M .Bhurchandi “Advanced Microprocessor and Peripherals” ,Second edition, Tata McGraw-Hill, 2007.

4.   Barry   B.Brey,   “The   Intel   Microprocessors   Architecture,   Programming   and

Interfacing” Pearson Education, 2007. New Delhi.

5.   Zdravko  Karakehayov,   “Embedded  System  Design  with  8051  Microcontroller hardware and software”, Mercel Dekkar, 1999.

 

EC9304 DIGITAL SIGNAL PROCESSING L T  P C
    3  1  0 4
UNIT I DISCRETE – TIME SIGNALS AND SYSTEMS   9

Review of discrete-time signals & systems – DFT and its properties, FFT algorithms &

its application to convolution, Overlap-add & overlap-save methods.

 

UNIT II             DESIGN OF INFINITE IMPULSE RESPONSE FILTERS                     9

Calculation  of IIR coefficients  using  pole-zero  placement  method,  Analog  filters  – Butter worth & Chebyshev Type I. Analog Transformation  of prototype LPF to BPF

/BSF/  HPF.  Transformation   of  analog  filters  into  equivalent  digital  filters  using Impulse invariant method and Bilinear Z transform method- Realization structures for IIR filters – direct, cascade, parallel & lattice forms.

 

UNIT III            DESIGN OF FINITE IMPULSE RESPONSE FILTERS                         9

Linear phase response of FIR-FIR design using window method-Frequency  sampling method – Realization structures for FIR filters – Transversal and Linear phase lattice structures- Comparison of FIR & IIR.

 

UNIT IV           QUANTIZATION EFFECTS AND DSP ARCHITECTURE                     9

Representation  of numbers-ADC  Quantization  noise-Coefficient  Quantization  error- Product Quantization  error-truncation  & rounding errors -Limit cycle due to product round-off error-Round- off noise power-limit cycle oscillation due to overflow in digital filters- Principle of scaling-Introduction  to general and special purpose hardware for DSP – Harvard architecture-Pipelining-Special instruction-Replication.

 

UNIT V            MULTIRATE SIGNAL PROCESSING                                                  9

Introduction     to    Multirate     signal     processing-Decimation-Interpolation-Polyphase Decomposition  of FIR filter-Multistage  implementation  of sampling  rate conversion- Design of narrow band filters – Applications of Multirate signal processing.

TEXT BOOKS


L:45, T:15 TOTAL:  60 PERIODS

1.  A.V.Oppenheim, R.W. Schafer and J.R. Buck, Discrete-Time Signal Processing,

8th    Indian Reprint, Pearson, 2004.

2.  John G Proakis and Manolakis, “ Digital Signal Processing Principles, Algorithms and Applications”, Pearson, Fourth Edition, 2007

3.  P.P.Vaidyanathan, Multirate Systems & Filter Banks, Prentice Hall, Englewood

cliffs, NJ, 1993.

 

REFERENCES

1.  I.C.Ifeachor and B.W. Jervis, Digital Signal Processing- A practical approach, Pearson, 2002.

2.  S.K. Mitra, Digital Signal Processing, A Computer Based approach, Tata McGraw- Hill, 1998.

3.  D.J. De Fatta, J.G.Lucas and W.S. Hodgkiss, Digital Signal Processing- A system

Design Approach,  John Wiley & sons, Singapore, 1988.

EC9305                       TRANSMISSION LINES & WAVE GUIDES                   L T P C

3 0 0  3

UNIT I              TRANSMISSION LINE THEORY & PARAMETERS                            8

Introduction  to different types of transmission  lines ,   Transmission  line Equation – Solution   –   Infinite   line   concept   -   Distortion   less   line   –   loading   –   input impedance,Losses  in Transmission lines– Reflection loss, Insertion loss, return loss, Transmission   line   parameters   at   radio   frequencies.   Introduction    to   planar transmission lines. Numerical Problems

 

UNIT II             IMPEDENCE MATCHING AND TRANSFORMATION                           9

Reflection  Phenomena  – Standing  waves  – λ/8, λ/4 & λ/2 lines  – λ/4 Impedance transformers   ,  Stub  Matching   –  Single  and  Double   Stub  –  Smith  Chart  and Applications. Numerical Problems

 

UNIT III            NETWORKCOMPONENTS                                                                  8

Filter fundamentals, Constant K – LPF and HPF Filter design, Fundamentals of Attenuators and Equalizers – Lattice type , Concept of inverse networks –Transients in transmission lines. Numerical Problems

 

UNIT IV           RECTANGULAR WAVE GUIDES                                                      10

Waves  between  Parallel  Planes  – characteristic  of TE , TM   and  TEM     waves  , Velocities of propagation ,Solution of wave Equation in Rectangular guides ,TE and TM  modes  ,  Dominant  Mode,Attenuation,Mode   Excitation,  Dielectric  slab  wave guides, Numerical Problems .

 

UNIT V            CYLINDRICAL WAVE GUIDES                                                          10

Solution  of wave equation  in circular  guides,  TE and TM wave in circular guides, Wave impedance, attenuation, mode excitation, formation of cylindrical cavity, Application ,   cavity resonator and Q for dominant mode, Numerical Problems

TEXT BOOKS


TOTAL: 45 PERIODS

1.   John D Ryder “Networks lines and fields“  Prentice Hall of India, 2005

 

REFERENCES

1.   G.S.N Raju”ElectroMagnetic  Field Theory and Transmission Lines”Pearson

Education,First edition 2005

2.   Bhag Guru & Hiziroglu,”Electromagnetic Field Theory Fundamentals“  Second edition Cambridge University press,2005

3.   Annapurna Das Sisir K Das ,”Microwave Engineering“ Tata McGraw Hill, 2004.

EC9306                         MEASUREMENTS  AND INSTRUMENTATION             L T P C

3  0 0 3

 

UNIT I              SCIENCE OF MEASUREMENT                                                          9

Measurement System – Instrumentation – Characteristics of measurement systems – Static and Dynamic – Errors in Measurements – Calibration and Standards.

 

UNIT II             TRANSDUCERS                                                                                 9

Classification  of  Transducers  – Variable  Resistive  transducers  –  Strain  gauges  , Thermistor, RTD- Variable Inductive transducers- LVDT, RVDT,- Variable Capacitive Transducers  – Capacitor  microphone-  Photo  electric  transducers  – Piezo  electric transducers – Thermocouple  – IC sensors –  Fibre optic sensors – Smart/intelligent sensors.

 

UNIT III            SIGNAL CONDITIONING AND SIGNAL ANALYZERS                        9

DC and AC bridges – Wheatstone, Kelvin, Maxwell, Hay and Schering.Pre- amplifier

–  Isolation  amplifier  –  Filters  –  Data  acquisition  systems.  Spectrum  Analyzers  – Wave analyzers – Logic analyzers.

 

UNIT IV           DIGITAL INSTRUMENTS                                                                   9

Digital Voltmeters – Millimeters – automation in Voltmeter – Accuracy and Resolution in DVM – Guarding techniques – Frequency counter- Data Loggers – Introduction to IEEE 488/GPIB Buses.

 

UNIT V            DATA DISPLAY AND RECORDING SYSTEMS                                  9

Dual  trace  CRO  –  Digital  storage  and  Analog  storage  oscilloscope.  Analog  and Digital       Recorders   and  printers.   Virtual   Instrumentation   -  Block  diagram   and architecture – Applications in various fields. Measurement  systems applied to Micro and Nanotechnology.

TOTAL: 45 PERIODS

 

TEXT BOOKS

1.  Albert D.Helfrick  and William D. Cooper, “Modern Electronic Instrumentation and Measurement Techniques”, Prentice Hall of India, 2007.

2.  Ernest o Doebelin and dhanesh N manik, “Measurement systems” ,5th edition, McGraw-Hill, 2007.

 

REFERENCES

1.  John P. Bentley, “Principles of Measurement Systems”, Fourth edition, pearson Education Limited, 2005.

2.  A. K. Sawhney, “Course In Electrical And Electronic Measurement And

Instrumentation”, Dhanpat Rai Publisher, 2000.

3.  Bouwens,A.J,  “Digital Instrumentation”, Tata Mc-Graw Hill, 1986.

4.  David A.Bell, “Electronic Instrumentation and Measurements”, Second edition, Prentice Hall of India, 2007.

EC9307                MICROPROCESSOR  AND MICROCONTROLLER  LAB        L T P C

0 0 3  2

 

 

8085 based experiments

 

1.      Assembly Language Programming  of  8085

 

8086 based experiments

 

1.     Programs for 16 bit Arithmetic, Sorting, Searching and String operations,

2.     Programs for Digital clock, Interfacing ADC and DAC

3.     Interfacing and Programming 8279, 8259, and 8253.

4.     Serial Communication between two Microprocessor Kits using 8251.

5.              Interfacing and Programming of Stepper Motor and DC Motor Speed control and Parallel Communication between two Microprocessor Kits using Mode 1 and Mode 2 of  8255.

6.     Macroassembler Programming for 8086

 

8051 based experiments

 

1.     Programming using Arithmetic, Logical and Bit Manipulation instructions of 8051 microcontroller.

2.     Programming  and  verifying  Timer,  Interrupts  and  UART  operations  in  8051

microcontroller.

3.     Interfacing – DAC and ADC  and  8051 based temperature measurement

4.     Interfacing – LED and LCD

5.     Interfacing – stepper motor traffic light control

6.     Communication between 8051 Microcontroller kit and PC.

7.     R8C based applications

TOTAL: 45 PERIODS

 

EC9308 DIGITAL SIGNAL PROCESSING LAB L  T  P C
    0 0  3 2

 

MATLAB / EQUIVALENT SOFTWARE PACKAGE(30% OF THE COURSE)

 

1.    Generation of sequences (functional & random), correlation and convolution

2.    Spectrum Analysis using FFT

3.    Filter Design & Analysis

4.    Filter Implementation in time-domain & frequency domain

5.    Study of Quantization errors in DSP algorithms

6.    Multirate Filters

7.    Adaptive filter

8.    Equalization

9.    Echo Cancellation

 

DSP PROCESSOR  IMPLEMENTATION  (70% OF THE COURSE)

 

1.    Waveform Generation

2.    FIR Implementation

3.    IIR Implementation

4.    FFT

5.    Finite word Length effect

6.    Multirate filters

 

TOTAL: 45 PERIODS

 

 

EC9309                              COMMUNICATION SYSTEM  LAB                       L T  P  C

0 0   3  2

1.        Signal Sampling and  reconstruction

 

2.        Time Division Multiplexing

 

3.        AM / FM Modulator and Demodulator

 

4.        Pulse Code Modulation and Demodulation

 

5.        Delta Modulation and Demodulation

 

6.        Line coding schemes

 

7.        FSK, PSK and  DPSK schemes  (MATLAB Simulation)

 

8.        Error control coding schemes (MATLAB Simulation)

 

9.        Spread spectrum modulation (MATLAB Simulation)

 

10.        Communication system simulation using ADS

 

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