refer 1 msc app electronics syllabu 2011-13

CMS COLLEGE OF SCIENCE & COMMERCE (AUTONOMOUS)

An ISO 9001:2008 certified institution and accredited at the A level by NAAC

Chinnavedampatti, Coimbatore-641 049

Phone No: 2666465, Email: [email protected], Website: www.cmscbe.com

DEPARTMENT OF ELECTRONICS

M.Sc Applied Electronics

SYLLABUS

SCHEME OF EXAMINATION (CBCS)

2011

CMS COLLEGE OF SCIENCE & COMMERCE DEPT. OF ELECTRONICS

2

REGULATION

INTRODUCTION

An organization requires Industry specific engineers for research, service and promotion of

sales. Challenging professions require young dynamic people who are more than “subject

tuned”. We in CMS have realized this and claim ourselves as a unique institution bringing

forth Industry tuned Executives and Engineers.

The Department of Electronics was set up in the year 1993 has been offering UG programme

in Electronics ever since its inception and PG programme from 2004.The Department of

Electronics has the state-of-the-art facilities. It has all modern gadgets to impart the latest in

Electronics to the students. At the PG level we impart training to get hands on experience in

Micro-Controllers, VLSI Design & VHDL, Embedded Systems, and Digital Signal

Processing.

The uniqueness of our system is that we provide practical training to make them priggish in

their trade. We provide advanced information through Guest lecturers drawing resources

persons from the corporate world and industry.

OBJECTIVES:

1. To mould the overall personality of the students.

2. To enable and strengthen the technical skills of students to face the Industry.

3. To meet the professionalism of Industry.

4. Giving placement Assistance.


3

ELIGIBILITY: PG COURSE

a) B.Sc with Electronics/Industrial Electronics/Electronic Science / Physics / Electronics

& Communication System /Applied Science / Computer Science / BCA / B.Sc.Hons /

Electrical Equipment Maintenance / B.E.S.Instrumentation.

b) A pass in triple Major (Mathematics, Physics & Electronics) or (Mathematics,

Electronics & Computer Science).

DURATION OF PG COURSE

The course shall extend over a period of two years comprising of four semesters, with two

semesters per year. There shall not be less than ninety instructional days during each

semester. Examination shall be conducted at the end of each semester for the respective

subject.

EXAMINATIONS

Students of PG courses are valuated in each theory and practical paper through Five

Components

Component – I (For THEORY of 100 Marks)

a). Continuous Internal Assessment (CIA) carrying a maximum of 25 marks.

b). End of Semester Examinations (ESE) carrying a maximum of 75 marks.

Component – II (For THEORY of 75 Marks)



Component – III (For PRACTICAL)



Component – IV (For PROJECT)



Component –V ( Both Theory and Practical)

a).Credits are allotted to each subjects based on the Marks allotted for the subject.

b).The total credits allotted for PG is 90.


4

CMS COLLEGE OF SCIENCE AND COMMERCE


Distribution of the Marks and Credits under CBCS for PG Programme

Part Subject No. of Papers Marks

@

Credits

Core Subjects 18$ 1850 74

III

Elective Subjects 4 400 16

Total 2250 90

Note: I

$ In core subjects theory, practical and project should be included wherever

applicable.

@ Includes 25 or 20 for theory and 40 for practical as continuous internal assessment

marks.

The following parameters are considered throughout study period.

i. Regularity of Attendance

ii. Active participation in classes/Camps/Games

(College/District/University)

iii. Exemplary awards/certificates/prizes

iv. Other Social Components (Blood Camp, Fine Arts etc)

Note: 2 The Credit Points and Marks are linked.

Note: 3 The Continuous Internal Assessment Marks are allotted for Project.


5

DISTRIBUTION OF MARKS FOR EXTERNAL EXAMINATION (ESE) & CIA - Theory

ESE CIA Total

(ESE+CIA)

Total

Marks Max Marks Min

Marks

Max

Marks

Min

Marks

Min

Marks

PG

100 75 38 25 ----- 50

75 55 28 20 ----- 38

DISTRIBUTION OF MARKS FOR EXTERNAL EXAMINATION (ESE) & CIA – Practical

ESE

Distribution of

ESE

CIA Total

(ESE+

CIA)

Total

Marks

Max

Marks

Min

Marks

Record Min

Marks

Max

Mark

Min

Mark

Min

Marks

PG

100 60 30 6 54 40 ---- 50

DISTRIBUTION OF MARKS FOR EXTERNAL EXAMINATION (ESE) & CIA – Project

Total Marks ESE CIA

PG

125

100

25

CONTINUOUS INTERNAL ASSESSMENT (CIA) -COMPONENTS AND BREAK UP

I. Theory: 100 (75:25), 75(55:20) & Practical: 100 (60:40)

Theory Practical

Component Mark Component Mark

For 25 Marks

One Internal Exam

05

One Internal 05

One Model Exam

10

One Model Exam 10

Assignment

05 Experiment

(For Min 8 Nos.)

20

Overall Performance 05 Record 05

Total 25 Total 40

Project For 20 Marks

One Internal Exam

04 Component Mark

One Model Exam

08

Six reviews – each

review – 3 Marks 18

Assignment

04

Overall Performance 04

Overall Performance 07

PG

Total 20 Total 25


6

PROJECT WORK - RULES AND REGULATIONS

1. Individual Project work is allotted to the students in the 4th

semester and will be

permitted to go and do the project work three days per week. Project work can be

carried out at reputed industries / govt. organization / project institutions / College

Laboratory.

2. Internal Marks are awarded based on the review status (attendance & performance).


7

Annexure No. PAE 9

BOS Dt.22.08.11

CMS COLLEGE OF SCIENCE & COMMERCE, COIMBATORE – 641049

(Autonomous)


SCHEME OF EXAMINATION - CBCS PATTERN


(For the students admitted during the academic year 2011 Only)

Examinations

Part

Sub code

Subject

Ins.hrs/ week

Durof

Exam. in

hrs

CIA

ESE

Total

marks

Credit

Semester I

13A Microwave and Radar Navigation

Systems 4 3 20 55 75 3

13B Linear IC’s and its Applications 4 3 20 55 75 3

13C MEMS and Power Electronics 4 3 20 55 75 3

13D C & Object Oriented Programming

using C++ 4 3 20 55 75 3

13P General Electronics Lab 3 3 40 60 100 4

13Q Embedded System Lab-I 3 3 40 60 100 4

13R Power Electronics Lab 3 3 40 60 100 4

III

SSS1 Elective 1:Embedded System Design-I 5 3 25 75 100 4

TOTAL 30 700 28

Semester II

23A Industrial Automation 4 3 20 55 75 3

23B Fiber Optics & Laser Applications 4 3 20 55 75 3

23C Advanced Network Communication 4 3 20 55 75 3

23D PC Hardware 4 3 20 55 75 3

23P Integrated Circuits Lab 3 3 40 60 100 4

23Q Embedded System Lab-II 3 3 40 60 100 4

23R PLC & Communication Lab 3 3 40 60 100 4

III

SSS 2 Elective 2:Embedded System Design-II 5 3 25 75 100 4

TOTAL 30 700 28


8

Annexure No. PAE 10

BOS Dt. 30.06.12

CMS COLLEGE OF SCIENCE & COMMERCE, COIMBATORE – 641 049

(Autonomous)


SCHEME OF EXAMINATION - CBCS PATTERN


(For the students admitted during the academic year 2011 only)

Examinations

Part

Sub code

Subject

Ins.hrs/ week

Durof

Exam. in

hrs

CIA

ESE

Total

marks

Credit

Semester III

VLSI Design & VHDL Programming 4 3 20 55 75 3

Digital Signal Processing 4 3 20 55 75 3

Analytical and Bio-Medical

Instrumentation 4 3 20 55 75 3

VHDL Lab 4 3 40 60 100 4

DSP Lab 4 3 40 60 100 4

Simulation & Synthesis Lab 5 3 - - - -

III

Elective – 3: ARM Core Processor 5 3 25 75 100 4

TOTAL 30 525 21

Semester IV

Simulation & Synthesis Lab 5 3 40 60 100 4

Project Viva Voce 19 - 25 100 125 5

Elective – 4: Embedded System Design 6 3 25 75 100 4

TOTAL 30 325 13

GRAND TOTAL 2250 90


9

List of Elective Papers ( Can Choose any one of the paper)

A Embedded System Design-I

B Bio-Medical Instrumentation Elective - 1

C Wireless communication

A Embedded System Design-II

B Virtual Instrumentation Elective - 2

C Mobile Computing

A ARM Core Processor

B Verilog and ASIC Design Elective - 3

C Neural Networks

A Embedded System Design

B Digital Image Processing Elective - 4

C Analytical & Opto – electronic Instrumentation


10

SEMESTER-I

SUBJECT TITLE: MICROWAVE AND RADAR NAVIGATION SYSTEMS

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the generation of electromagnetic

waves, its propagation characteristics, operation of microwave Oscillators and Amplifier,

Concepts of RADAR Navigation systems

GOAL: To introduce the various Wave guides and Micro Wave Tubes and to study

the basic concepts of Antennas & Radar and Navigation Systems.

OBJECTIVES

• To learn the basic elements of Wave Guides

• To learn the Fundamentals of Electromagnetic Waves

• To know the Concepts of Micro Amplifiers and Oscillators

• To familiarize the principles of tracking with Radar

CONTENTS

UNIT- I: ELECTRO MAGNETIC PRINCIPLES

Introduction – Electro Magnetic Spectrum – Generation of Electro Magnetic Waves -

Properties of Electro Magnetic Waves - Energy Calculation - Conduction and Displacement

Current-Introduction to Microwave- Advantages of Microwaves – Applications of

Microwaves-Microwave Region and Band Specifications-Maxwell’s equations.

UNIT- II: WAVE GUIDES & WAVE EQUATIONS

Introduction–Wave Equation–– Introduction to Wave Guides – Comparison of Wave Guides

with 2-Wire Transmission Lines - Propagation of Waves in Rectangular Wave Guides –

Propagation of TM Waves in Rectangular Wave Guides – Propagation of TE Waves in

Rectangular Wave Guides.

UNIT- III: MICROWAVE AMPLIFIERS & OSCILLATORS

Klystrons: Operation and Mathematical analysis of Two Cavity Klystron – Operation and

characteristics of Reflex Klystron – Operation and characteristics of Multi cavity Klystrons –

Operation and characteristics of Traveling Wave Tube – Operation and characteristics of

Backward Wave Oscillator – Operation of Cavity Magnetron– Sustained Oscillation in

Cavity Magnetron – Cutoff Magnetic Field Calculations-Applications of Cavity Magnetron.


11

UNIT- IV: MICROWAVE ANTENNAS

Antenna fundamentals: Current and Voltage Distributions in antenna - Antenna Gain-

Bandwidth and Beam width-Polarization-Radiation Pattern-Radiation Resistance-Resonant

and Non resonant antennas-Ungrounded and Grounded antennas.

Types of Antennas: Operation and Characteristics of Yagi-Uda Antenna - Horn Antenna -

Parabolic Reflectors - Helical Antenna - Loop Antenna.

Radio Direction Finding: Direction Finding by Adcock Antenna System - Direction Finding

by Bellini Tossi System.

UNIT- V: RADAR NAVIGATION SYSTEMS

Introduction – Block Diagram of Radar – Applications of Radar-Radar Range Equation-

Effect of Receiver Noise and Transmitter Power- Minimum Detectable Signal -Maximum

unambiguous Range- Doppler Effect - CW Radar-FM CW Radar- Moving Target Indicator

(MTI) - Mono Pulse Tracking- Plan Position Indicator (PPI)-LORAN-Radome.

TEXT BOOKS:

1. M.Kulkarni, “Microwave and Radar Engineering”, Umesh Publications, II Edition,

2009.

2. Scholnik, “Introduction to Radar Systems”, Tata McGraw Hill International, I Edition,

2001.

3. K.D.Prasad,“Antenna and Wave Propagation”, Sathya Prakashan Publications, III

Edition, 2007.

REFERENCE BOOKS:

1. Annapurna Das. Sisr Das, “Microwave Engineering” Tata McGraw Hill Publications

2. John Kraus,Ronald Marhefka,Ahmad Khan, Antennas and Wave Propagation (SIE),

Tata McGraw Hill Publications.


12

SEMESTER-I

SUBJECT TITLE: LINEAR IC’S AND ITS APPLICATIONS

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the characteristics and important

applications of Analog & Digital Integrated Circuits.

GOAL: To introduce the basic concepts in the design of Electronic Circuits using Analog &

Digital Integrated Circuits and their applications in the processing of Analog Signals.

OBJECTIVES

• To introduce the basic building blocks of linear integrated circuits. and to study the

Linear and non-linear applications of operational amplifiers.

• To introduce the functions of analog multipliers, active filters .and PLL.

CONTENTS

UNIT-I: OPERATIONAL AMPLIFIERS

Ideal Operational Amplifiers: Practical Operational Amplifier - Internal structure - Open

loop behavior.

Operational Amplifier Parameters: DC performance - AC performance - Interpretation of

data sheets – Inverting Amplifier - Non inverting Amplifier - DC, AC, Differential

Amplifiers - Differentiators - Integrators.

UNIT-II: DETECTORS & FILTERS

Comparators - Voltage level detectors - Schmitt Triggers - Small signal half-wave rectifiers -

precision rectifiers - peak detectors - Sample and Hold circuits – Clippers - Clampers.

Filters: Design of I, II and higher order filters - Butterworth - Low pass - High pass - Band

pass, Wide band - Narrow band - Notch filters.

UNIT-III: WAVEFORM GENERATION

Sine wave generation- Wein bridge - phase shift oscillators - Multivibrators - triangular wave

generators - saw tooth wave generators - voltage to frequency and frequency to voltage

converters - voltage controlled oscillators.

Multiplier: Analog multipliers - Applications of multipliers - Division, Square, frequency

doubler - rectifier and Phase shift detector circuits.

Modulation: Amplitude Modulation – Frequency Modulation - Pulse width modulation

circuits.

Demodulation.


13

UNIT-IV: PHASE LOCK LOOP

Operating principles - functional blocks of Phase Lock Loop - Lock and Capture ranges

Applications of PLL: PLL as FM detector - FSK demodulator - AM detector - Frequency

translator - Phase shifter - Frequency Synthesizer.

555 Timer: Functional block diagram – terminals – modes of operations and applications

UNIT-V: APPLICATIONS

Digital to Analog Conversion (DAC): Principles – weighted-resistor network - R-2R ladder

network - Current output DAC – MDAC - Specifications

Analog to Digital Conversion (ADC): Single slope - Dual slope Integration type ADC -

Successive approximation ADCs - Flash converters.

TEXT BOOKS:

1. Coughlin, Driscoll “Operational amplifiers and Linear integrated circuits”, Prentice

Hall India, IV Edition, 1992.

2. Ramakant A.Gayakwad “Op-Amps and Linear Integrated Circuits”, Prentice Hall India

IV Edition, 1991.

3. Millman & Halkias “Integrated Electronics”, Prentice Hall India, 16th

Reprint 2000.

4. A. P. Malvino & D. P. Leach “Digital Principles & Applications,” Tata McGraw Hill

Publication, IV Edition, 2002.

REFERENCE BOOKS:

1. K.R.Botkar “Integrated Circuits”, Khannan Publishers, X Edition reprint, 2006.

2. Sidney Soclof “Applications of Analog ICs”, Prentice Hall India, IV Edition, 1990.

3. Roy Choudhry “Linear integrated circuits”, New Age International, II Edition, 1998.


14

SEMESTER-I

SUBJECT TITLE: MEMS AND POWER ELECTRONICS

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the characteristics and important

applications of Analog & Digital Integrated Circuits.

GOAL: To introduce the application of electronic devices for conversion, control and

conditioning of electric power and study the concept of MEMS

OBJECTIVES

• To get an overview of different types of power semi-conductor devices and their

switching characteristics.

• To study the operation, switching techniques and basic operation of DC-DC switching

regulators. and to get an overview of Micro Electronic Devices and their applications

CONTENTS

Unit - I: MEMS AND MICROSENSORS

Typical MEMS and Microsystems Product- Microsystems and Microelectronics- the

Multidisciplinary Nature of Microsystems Design and Manufacture.

Application of Microsystems: Automotive Industries - Other Industries.

Micro sensors: Acoustic wave Sensor - Bio Medical and Bio Sensor – Chemical Sensor -

Optical Sensor - Pressure Sensor

Unit - II: MEMS WITH MICROACTUATORS

Micro-Accelerometers- Photolithography- Ion Implantation – Diffusion - Oxidation-

Chemical Vapor Deposition- LIGA Process.

UNIT - III: THYRISTOR COMMUTATION TECHNIQUES

Introduction – Natural Commutation- Forced Commutation- Self Commutation- Impulse

Commutation- Response Pulse Commutation- External Pulse Commutation- Load Side

Commutation- Line Side Commutation- Complementary Commutation.

Unit - IV: AC VOLTAGE REGULATOR

Introduction – Principle of ON/OFF Control- Principle of Phase Control- Single Phase Bi-

directional Control with Resistive Loads and Inductive Loads- Cycloconverters- Single Phase

Cyclo converters- Switch Mode Regulators-Buck regulators- Boost regulators- Buck Boost

regulators- Cuk Regulators.


15

Unit - V: INVERTERS AND POWER SUPPLIES

Introduction-Principle of operation-Single Phase Bridge Inverters-Three Phase Inverters-

Voltage Control of Single Phase Bridge Inverters-DC Power supplies-Switch Mode DC

Power supplies-Resonant DC Power Supplies-Bi Directional Power Supplies-AC Power

supplies-UPS.

TEXT BOOKS:

1. M.H Rashid, “Power Electronics: Circuit, Devices and Applications”, Prentice

Hall- III Edition, 2004.

2. SEN,” Power Electronics”, Tata Mc Graw hill Publication, 22nd

reprint 2004.

3. Tai- Ran Hsu ,”MEMS and Microsystems Design and Manufacture”, Tata Mc

Graw- Hill Publication, I Edition, 2002.

REFERENCE BOOK:

1. Mohan Undeland, Riobbins “Power Electronics Converters, Application & Design”,

Willey India, reprint, 2006.


16

SEMESTER-I

SUBJECT TITLE: C & OBJECT ORIENTED PROGRAMMING USING C++

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject presents the basic concepts of C & C++

programming languages.

Objectives:

• To understand the concept of C and Object oriented programming

• To know the difference between C and C++

• To write simple application using C and C++

CONTENTS

UNIT – I: INTRODUCTION

Overview of C: History of C – Importance of C – Basic structure of C program. Constants,

variables and data types - Character set – C Tokens – Keywords and Identifiers – Constants –

Variables – Data types – Declaration of variables.

Operator and Expressions: Arithmetic – Relational – Logical - Assignment,

Increment/Decrement and Conditional Operators- Arithmetic Expression and Evaluation –

Reading and Writing a character – Formatted Input and Output.

UNIT – II: BRANCHING & LOOPING

Decision Making and Branching: IF, IF-ELSE, ELSE IF Ladder statement, switch

statement -? : Operator – GOTO statement.

Decision Making and Looping: WHILE, DO and FOR statement.

Arrays: Decelerating and Initializing One dimensional arrays – Declaring and Initializing

Two dimensional arrays. Character Arrays and strings: Declaring and Initializing string

variables – Reading strings from Terminal – Writing strings to screen – String handling

functions.

UNIT – III: FUNCTIONS & POINTERS

User defined functions: A multi-function program – Elements of user defined functions –

Definition of Functions – Return values and their types – Function Call – Function

Declaration – Category of Functions. Structures and unions: Defining and declaring structure

variables – Accessing structure members – Structure Initialization.

Pointers: Understanding Pointers – Accessing the address of a variable – Declaring pointer

variables – Initialization and Accessing using pointer – Pointer Increments and scale Factor -

Pointers and Arrays.


17

UNIT – IV: OBJECT ORIENTED PROGRAMMING

OOPS: Basic concepts of OOPS – What is C++? – More C++ statements – Structure of C++

program –Scope resolution operator – Manipulators – Call by reference – Inline functions –

Function overloading. Classes and objects: Specifying a class – Defining member functions –

Static data members – Static member functions – Array of objects – Objects as Function

arguments – Friend function – Constructors – Destructors. Operator overloading:

Overloading unary and binary operators.

UNIT - V: INHERITANCE

Inheritance: Defining Derived Classes – Single Inheritance – Making a Private member

Inheritable – Multilevel – Multiple Inheritance – Ambiguity resolution in Inheritance –

Hierarchical – Hybrid Inheritance – Virtual Base Classes – Abstract classes – Virtual

Functions.

Text Books:

1. E.Balagurusamy, “Programming in ANSI C”, Tata McGraw Hill Publishing

Company Ltd., 4th

Edition, 2008.

2. E.Balagurusamy, “Object Oriented Programming with C++”, Tata McGraw Hill

Publishing Company Ltd., 3rd

Edition, 2007.

Reference Books:

1. Ashok N.Kamthane, “Programming with ANSI and TURBO C”, Pearson

Education, Fifth Impression, 2008.

2. Brian W.Kernighan, Dennis M, Ritchie, “The Programming Language”, Prentice

Hall India, 2nd

Edition, 2006.

3. Ashok N.Kamthane, “Object Oriented Programming with ANSI and TURBO

C++”, Pearson Education, Fifth Impression, 2008.


18

SEMESTER - I

SUBJECT TITLE: EMBEDDED SYSTEM DESIGN – I

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the introduction to Microcontroller

8051. Internal peripheral of microcontroller simple programs & applications.

GOAL: To introduce the Microcontroller 8051

OBJECTIVES

• To study the Architecture of 8051

• To study the Instruction set & addressing modes of 8051

• To develop skill in simple program writing

• To introduce the need & use of Interrupts structure

• To introduce commonly used peripheral – To simple applications

CONTENTS

UNIT – I: INTRODUCTION TO MICROCONTROLLER

Introduction – Microprocessors and Microcontroller comparison - Microcontroller survey

4/8/16/32 bit microcontrollers – 8051 Architecture – Microcontroller Hardware – Input / Out

put pins, Port and Circuits – External memory.

UNIT – II: INSTRUCTION SET

Introduction to Instruction set – Move data -Arithmetic & Logical – Jump& Call Instructions

– Addressing modes.

UNIT – III: ASSEMBLY LANGUAGE PROGRAMMING

Introduction to 8051 Assembly programming – Assembling & running an 8051 program –

Data types & Directives - Simple programs – Addition / Subtraction of 8/16 bit data –

Multiplication /Division of 8 bit data.

UNIT – IV :8051 HARDWARE CONFIGURATION

Programming 8051 Timer – Counter programming – Basics of Serial communication – 8051

connections to RS 232 – Serial communication programming – 8051 Interrupts -

Programming Timer Interrupts.

UNIT – V APPLICATIONS

Interfacing an LCD – Interfacing to ADC, Sensors – Interfacing a stepper motor – Interfacing

to the Key board – Interfacing a DAC.


19

TEXT BOOKS:

1. Kenneth J. Ayala, “The 8051 Micro controller Architecture, Programming &

Applications”, Penram International Publishing, 6th

Reprint 2006.

2. Muhammad Ali Mazidi & Janice Gillispie Mazidi, “The 8051 Microcontroller and

Embedded Systems”, Prentice Hall Of India, Reprint, 2000.

REFERENCE BOOK:

1. Ajay V Deshmukh, “Microcontrollers (Theory & Applications) “, Tata McGraw

Hill Publisher, 13th

Reprint, 2009.


20

SEMESTER – I

SUBJECT TITLE: GENERAL ELECTRONICS LAB

SUBJECT CODE:

List of Experiments (Any 8)

1. UJT Characteristics & its Application

2. Transistor Base and Self Biasing Circuit

3. VCO ( IC 565) & its Application

4. Phase Shift Keying

5. Low voltage & High voltage Regulated Power supply (LM723)

6. Window Comparator

7. Electronic Starter

8. Peak Detector & Missing Pulse Detector

9. Sample and Hold

10. Pre Emphasis & De- Emphasis

11. Burglar Alarm.

12. Frequency Response of Audio amplifier using (TBA 810/ LM380)

Case Study

1. Transistor Naming and Nomenclature & Printed Circuit Board

2. Application of Voltage Regulator

3. Application of Sample & Hold

Software Simulation

1. Any one of the above list


21

SEMESTER - I

SUBJECT TITLE: EMBEDDED SYSTEM LAB - I

SUBJECT CODE:

List of Experiments (Any 8 Experiments)

1. Arithmetic Operations & Logical Operations.

2. Largest and smallest of a give number.

3. Ascending and Descending order of a given number.

4. Interfacing Using I/O ports.

5. Stepper Motor Controller.

6. DAC / ADC Interface.

7. Interfacing 7 segment display.

8. Serial port interfacing using RS232.

9. Interfacing Relay/Buzzer.

10. Interfacing LCD.

11. Keypad/LED interface.

12. Timer & Counter Operation

Case Study

1. Keilµ version 2.0 – IDE.

2. Stepper motor in robotic Arm.

3. Digital Dash board in Automobiles.

Hardware Simulation



22

SEMESTER - I

SUBJECT TITLE: POWER ELECTRONICS LAB

SUBJECT CODE:


1. SCR Characteristics & Its Applications

2. DIAC Characteristics & Its Applications

3. TRIAC Characteristics & Its Application

4. Boost Regulator

5. Buck Regulator

6. Forced Commutation & Thyristor Chopper Commutator Circuit

7. Power Inverter

8. Snubber Circuit

9. Sequential Timer

10. Phase Control using SCR

11. Resistance, Phase Shift Triggering using SCR.

12. Temperature measurement using AD590.

Case Study

1. UPS

2. SMPS

3. Industrial Applications of Power Electronics

Software Simulation



23

SEMESTER-II

SUBJECT TITLE: INDUSTRIAL AUTOMATION

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the architecture of PLC, Its suitability

for industrial environment and its applications

GOAL: To equip the students with relevant knowledge to suit the industrial requirement.

OBJECTIVES:

• To study about internal architecture of PLC

• To study about the industrial automation and their installations

• To know elaborately about programming knowledge in ladder logic.

CONTENTS

UNIT – I: FUNDAMENTALS OF PLC

PLC Basics – Technical definition – advantages – characteristic function of PLC – Types of

PLC – Unitary, Modular – Block diagram of PLC – Processor Software/Executive Software –

Multitasking – Languages – PLC vs. PC – Bit logic Instructions – Input & Output contact

program symbol – Numbering Systems of Inputs & Outputs – Program Format –

Introduction to logic – Switches

UNIT – II: PROGRAMMING OF PLC

Guidelines for Designing a MICRO PLC System - Programming Devices.

Programming Methods: Functional Block Diagram - Statement Listing - Relay Ladder

Logic - High Level Languages Rules for Construction of a Ladder Diagram—Ladder

Diagram and Sequence Listings-Ladder Diagram Construction for Large Process.

UNIT – III: PROGRAMMING USING LADDER LOGIC

Ladder Design - Creation of Ladder Diagram from Control Description – Definition &

Classification of timers – Characteristics of a PLC Timer – Classification of a PLC Timer –

ON Delay & OFF Delay timers – Counters – Operation of PLC Counters – Counter

Parameter, Count up(CTU), Count down(CTD) – Logical Instructions

Pulse Output: PWM Operations and PTO Operations-Single Segment Pipelining and

Multiple Segment Pipelining-Interrupt Routines.

UNIT – IV: PLC INPUT OUTPUT (I/O) MODULES & POWER SUPPLY

Classification of I/O Modules – I/O System overview – I/O system and its mapping –

Addressing Local and expansion I/O – Input – Output Systems – Direct I/O, Parallel I/O,

Serial I/O, Discrete Input Module – AC & DC Module – Discrete Output Module – Analog


24

Input module & Operation – Analog Output Module – Power Supply requirements – power

supply configuration – power line conditioning – Filters.

UNIT – V: INDUSTRIAL COMMUNICATION & NETWORKING

Introduction – Evolution of Industrial Control Process – types of Communication interface –

Types of Networking Channels – Parallel Communication Interface – IEEE – 488 Bus –

Industrial Network – OSI Network Model - Role of PLC in CNC Machines -Case Study:

PLC Based Control of Pneumatic Systems.

TEXT BOOK:

1. MadhuchhandaMitra, Samarjit Sen Gupta ,”Programmable Logic Controllers and

Industrial Automation An Introduction”, Penram International Publishing(India)

Pvt Ltd, I Edition, 2006.

REFERENCE BOOK:

1. John R. Hackworth, Frederick D. Hackworth. Jr. “Programmable Logic

Controllers Programming Methods and Applications”, Pearson Education Inc, I

Edition, 2004.


25

SEMESTER-II

SUBJECT TITLE: FIBRE OPTICS AND LASER APPLICATIONS.

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with properties of fiber and LASER and its

suitability for industrial environment and its applications

GOAL: To equip the students with relevant knowledge to suit the industrial requirement.

OBJECTIVES:

• To study about properties and its application of fiber and LASER

• To study about the source for fiber and LASER

• To know elaborately about hologram and its application

CONTENTS

UNIT – I: OPTICAL FIBRES AND THEIR PROPERTIES

Introduction to Optical Fibre – Basic Structure of Optical Fibre – Conditions for Total

Internal Reflection - Principles of light propagation through an Optical fiber.

Different types of fibres: Step Index & Graded Index fibers.

Modes of Propagation: Single and Multimode Calculation of Acceptance Angle and

Numerical Aperture – Advantage and Applications

UNIT – II: OPTICAL SOURCES

Introduction to Optical Sources – Basic Concepts of LASER: Absorption, Excitation and

Emission Phenomena – characteristics of Spontaneous & Stimulated Emission – Basic

Components of a LASER System – Operation of RUBY LASER - He-Ne LASER and

Semiconductor LASERs – Homojunction LASERs and Hetrojunction LASERs – Operation

of LED – LED characteristics – LED structures.

UNIT – III: OPTICAL MODULATOR & DETECTORS

Optical Modulator: Introduction – different Modulation schemes – Amplitude Modulation

formats.

External Modulator: Electro Optic Modulator – Magneto Optic Modulators – Acoustic

Optic Modulator.

Optical Detectors: Optical Detection Principles – Operation and Characteristics of PN

Photodiode - PIN photodiode - Avalanche Photodiode - Photo Transistor - Photo Darlington.

UNIT – IV: INDUSTRIAL APPLICATIONS OF OPTICAL FIBRES


26

Fibre Optic Sensors: Introduction-Intensity Modulated Sensors.

Interferometric Sensors: Interferometric Pressure Sensor - Interferometric Temperature

Sensor – Electric Field Sensors - Voltage Sensors- Fabry-Perot Fibre Optic Sensor.

Special Applications: Digital Video Transmission Using Optical Fibres-Community

Antenna Television (CATV)

UNIT – V: INDUSTRIAL APPLICATIONS OF LASERS

Applications in Material processing: LASER Welding - LASER Hole Drilling and LASER

Cutting - LASER Tracking-LIDAR-Precision Length Measurement and Velocity

Measurement using LASER.

Holography: Principle of Holography-Recording and Recontruction- Properties of a

Hologram- Holographic Interferometry-Acoustic Holography –Holographic Computer

Memories - Medical Applications of LASERS

Text Books:

1. K.Thyagarajan and A.K Ghatak, “LASERS Theory and Applications”, Macmillan

India Ltd, First Indian Edition

2. M.Arumugam, “Semiconductor Physics and Optoelectronics” Anuradha Agencies, V

Edition, 2002

3. Subir Kumar Sarkar , “ Optical Fibres and Fibre Optic Communication Systems”,

S.Chand & Company Ltd, Fourth Revised Edition

4. N.Subhramanyam, Brijlal, M.N.Avadhanulu, “A Text Book of Optics”, S.Chand &

Company Ltd, Edition

Reference Book

1. J.M.Senior, “Optical Fibre Communication-Principles and Practice” Prentice Hall of

India, II Edition, 1992.


27

SEMESTER-II

SUBJECT TITLE: ADVANCED NETWORK COMMUNICATION

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the principles and concepts of Data

Communication Networks and the applications of Computer Networking

GOAL: To introduce the Concept, Terminologies, and Technologies used in Modern Data

Communication and Computer Networking.

OBJECTIVES

• To introduce the concepts of Networking and functions of different layers.

• To study the Modes of Data Communication Networks

• To get familiarized with different protocols and network components.

CONTENTS

UNIT-I: NETWORK CONCEPTS

Introduction-Network Criteria-Physical Structures-Network Categories-Protocols and

Standards-Network Models: Layered Tasks-The OSI Model-Peer to Peer Process-Layers in

OSI Model-Digital to Digital Conversion and Analog to Digital Conversion Techniques

UNIT-II: PHYSICAL LAYER AND MEDIA

Data and Signals - Analog and Digital Data Transmission Impairment-Data Rate Limits-

Performance - Digital to Analog Conversion: ASK -FSK- PSK- QAM - Analog to Analog

Conversion Techniques: AM -FM-PM-Multiplexing: Frequency Division Multiplexing,

Wavelength Division Multiplexing and Time Division Multiplexing Techniques

UNIT-III: DATA LINK LAYER AND CONTROL

Error Detection and Correction -Types of Errors- Redundancy- Detection versus Correction –

Forward Error Correction versus Retransmission-Framing-Flow and Error Control.

UNIT-IV: WIRELESS LANS AND OTHER LANS

IEEE Standards-Standard Ethernet-Changes in the Standard-Fast Ethernet-High Bit Ethernet-

Introduction to Blue tooth- Connecting Devices-Back Bone Networks-Virtual LANs-ATM

LANs

UNIT-V: NETWORK COMMUNICATION APPLICATIONS

Facsimile - Scanning methods - Flat bed scanner - Fax system – Telematics - Email-X400-

X500-Concepts of Internet-Types of Connectors-Internet tools.


28

TEXT BOOKS:

1. Behrouz A Ferouzan ,“Data Communications and Networking,” Tata Mc Graw Hill

Publications IV Edition, 2006

2. Uyless Black ,“Data Communication and Distributed Networks”, Prentice Hall India,

III Edition, 2005

3. Uyless Black ,“Computer Networks”, Prentice Hall India ,II Edition, 2006

4. Singh and Meenakshi Singh ,“Internet Concepts, Problems and Solution” First

Edition

REFERENCE BOOK

1. Achyut Godbole,Atul Kahate, “Data Communications and Networks” Tata Mc

Graw Hill


29

SEMESTER-II

SUBJECT TITLE: PC HARDWARE

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the architecture and design of a

Personal Computer and related peripherals

GOAL: To enable the student to get a detailed knowledge of all the hardware components of

a Personal Computer and different interfaces

OBJECTIVES

• To introduce issues related to CPU and memory.

• To understand the components on the motherboard

• To understand different storage media

CONTENTS

UNIT-I: HARDWARE & MOTHER BOARD ORGANIZATION OF IBM PC

Introduction to Computer Organization – Components of IBM PC : System Unit – Monitor –

Input device – Printer – Interface – I/O Buses – Parallel and Serial Ports – USB – Block

diagram of Motherboard of a PC System – Support Chips – Memory Organization.

UNIT-II: DRIVER

Principle of Magnetic Storage – Floppy disk drive – Hard Disk Drive – IOE Interface – Block

diagram, Pins & Signals, Registers – SCSI Interface – SCSI Configuration – SCSI variations

– SCSI Signals – SCSI Wiring Techniques – CD ROM Drive.

UNIT-III: PERIPHERALS

Introduction –Video Display System: CRT Display –Video Display Adapters –LCD Monitors

–Keyboard –Keyboard Organization –Keyboard Interface. BIOS Keyboard Service, Mouse:

Mouse Interface Types –Mouse Modes of Operation –BIOS Mouse Services. Printer: Types –

Printer Interface.

UNIT-IV: I/O BUSES & PORTS

Buses: 8 Bit ISA Bus – Pins & Signals – MCA Bus – EISA Bus – Local Bus – VL Bus – PCI

Bus – Features – AGP.

Ports:Standard Parallel port – IEEE 1284 standard – Serial Port – Pins & Signals – BIOS

Serial Port services – UART – USB.


30

UNIT-V: TROUBLESHOOTING

Introduction – system – Troubleshooting procedure – Motherboard Problems – FDD, FDC

Problems – HDD, HDC Problems – Monitor problems – Serial port problems – Keyboard

Problems – SMPS problems – Printer problems.

TEXT BOOKS:

1. B. Govindarajulu “IBM PC And Clones”, Tata McGraw Hill Publications.11th

Reprint,

2008.

2. N. Mathivanan “Microprocessors, PC Hardware and Interfacing”, PHI. Publishers, II

Edition, 2005.

REFERENCE BOOKS

1. Robert c. Brenner “IBM PC Troubleshooting and Repair Guide”,, BPB

PUBLISHERS.

2. Peter Norton “INSIDE THE IBM PC AND PS/2”, , PHI PUBLISHERS, IV EDITION.

3. Stephen J Bigelow “Troubleshooting Maintaining and Repairing PC’S”, Tata Mcgraw

Hill Publications, II Edition.


31

SEMESTER-II

SUBJECT TITLE: EMBDDED SYSTEM DESIGN – II

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the introduction to Microcontroller PIC

16F8XX series, internal peripherals and simple applications

GOAL: To introduce to the functional building blocks of an embedded system for

developing a real time system application.

OBJECTIVES

• Introduction to features that build an embedded system.

• To understanding the interaction of the various components within an embedded

system.

• Techniques of interfacing between processor & peripheral devices related to

embedded processing.

• To enable writing of efficient programs on any dedicated processor.

CONTENT

UNIT – I: ARCHITECTURE OF PIC MICRO CONTROLLER

Overview and features of PIC microcontroller – Architecture – Pin diagram – resets –

Program memory – data memory – Addressing modes – Interrupts – I/O ports –

Configuration word – Device configuration bit

UNIT – II: INSTRUCTION SET & TIMER / COUNTERS

Introduction to Instruction set – Bit oriented – Byte oriented – Control & literal instructions –

Timer 0 programmable per scalar – Watch dog timer – Timer 1 as external event Counter and

Timer 2

UINT – III: CCP/ SERIAL PORT

Introduction to CCP Module - Capture – Compare – PWM out put – Master synchronous

serial port module – Serial port Peripheral Interface (SPI) – Inter Integrated circuit (I2C).

UINT – IV: USART/ ADC/ EEPROM

Universal synchronous asynchronous receiver transmitter (USART) –Analog to digital

converter (ADC) – Data EEPROM & Flash program memory


32

UINT – V: APPLICATIONS

Introduction – Delay programs - Interfacing LED – Push button – Electromechanical relay –

7- Segment display – LCD Interfacing – Introduction to Industrial application – Measurement

application – Sensing robot arm position – Optical rotary shaft encoders.

TEXT BOOK:

1. Ajay V Deshmukh, “Microcontrollers (Theory & Applications) “, Tata McGraw

Hill Publisher, II Reprint, 2008.

REFERENCE BOOK:

1 John Peatman, “Design with PIC Microcontrollers”, Pearson Edition Company Ltd,

8th

Impression, 2009.


33

SEMESTER-II

SUBJECT TITLE: INTEGRATED CIRCUITS LAB

SUBJECT CODE:


1. Water Level Indicator

2. Automatic Battery Charger

3. Differentiator & Integrator using op – amp.

4. Square Wave & Triangular Wave Generator

5. Saw tooth Wave & Sine Wave Generator

6. Zero Crossing & Non Zero Crossing Detector

7. Schmitt Trigger

8. Op – Amp Characteristics

9. R / 2R Ladder DAC

10. Instrumentation Amplifier

11. Notch Filter

12. Stair case Generator

Case Study

1. IC Naming and Nomenclature.

2. Application of Notch filter.

3. Instrument and process control

Software Simulation



34

SEMESTER-II

SUBJECT TITLE: EMBEDDED SYSTEM LAB– II

SUBJECT CODE:


1. Arithmetic and Logical Operations.

2. Time delay generation programs.

3. Astable Multivibrator.

4. Interfacing using I/O ports

5. Time Delay using Timer 0.

6. Time Delay using Timer 2.

7. Interfacing multiple 7 segment display.

8. Interfacing solid state relay/Buzzer

9. ADC / DAC Interface

10. Hex Key Interface.

11. Interfacing LCD.

12. Pulse Width Modulation

Case Study

1. MPLAB 8.1 V IDE

2. Anit braking system – ABS.

3. Fuel injection in Automobiles.

Hardware Simulation



35

SEMESTER-II

SUBJECT TITLE: PLC & COMMUNICATION LAB

SUBJECT CODE:

List of Experiments (Any 8 Experiments)

Communication Lab

1. Generation and detection of AM

2. Generation and detection PAM

3. Generation and detection FM

4. Generation and detection FSK

5. Generation and detection ASK

6. Generation and detection PWM & PPM

PLC Lab

1. Basic Logic programs using Ladder Logic

2. Simple Mathematic operation using Ladder Logic

3. Timer operation and any one applications

4. Counter operation and any one applications

Case Study

1. SCADA.

2. CNC Machine.

3. Control Area Network (CAN) Protocol.

Software Simulation



36

SEMESTER-III

SUBJECT TITLE: VLSI DESIGN & VHDL PROGRAMMING

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the principles and concepts of VLSI

design and VHDL programming.

GOAL: To introduce the technology, design concepts and testing of Very Large Scale

Integrated Circuits.

OBJECTIVES

• To learn the basic CMOS circuits., CMOS process technology

• To learn techniques of chip design using programmable devices.

• To learn the concepts of designing VLSI subsystems and to learn the concepts of

modeling a digital system using Hardware Description Language.

CONTENTS

UNIT-I: CMOS CIRCUITS AND PROCESSING TECHNOLOGY

CMOS Transistors – Switches – CMOS Logics – Inverter – Combinational Logic – NAND

Gate – Nor Gate – Compound Gates – Multiplexer – Physical Design of NAND, Nor, Gates –

Si Semiconductor Technology Overview – Wafer Processing – Oxidation - Epitaxy –

Deposition – Ion Implantation – Diffusion – SI Gate Insulator Process – CMOS Technology

– N Well Process – P Well Process – Twin Tub Process – SI On Insulator Process.

UNIT-II: INTRODUCTION AND BASIC CONCEPTS OF VHDL

History of VHDL – Capabilities of VHDL – Hardware Abstraction Basic Terminology –

Entity Declaration – Architecture Body Declaration Basic Language Elements – Identifiers -

Data Objects - Data Types Operators.

UNIT – III: MODELING TECHNIQUES OF VHDL

Behavioral Modeling: Entity Declaration – Architecture Declaration – Process Statement –

Wait Statement – If Statement – Case Statement – Null Statement – Loop Statement – Exit

Statement – Next Statement – Assertion Statement – Report Statement – Multiple Process –

Postponed Process.

Date Flow Modeling: Concurrent Signal Assignment Statement-Concurrent Versus Signal

Assignment – Delta Delay Revisited – Multiple Drivers – Conditional Signal Assignment

Statement

Int Ext Total

20 55 75


37

Structural Modeling: Component Declaration –Component Instantiation – Resolving Signal

Value – Examples – Half Adder – Full Adder – 4 To 1 Multiplexer – Decoder and Encoders.

UNIT-IV: ADVANCED FEATURES IN VHDL

Generics – Configuration – Configuration Specification – Configuration Declaration –

Default Rules- Incremental Binding –Package Declaration – Package Body – Design File-

Design Libraries – Order Of Analysis – Implicit Visibility – Explicit Visibility – Attributes In

VHDL.

UNIT-V: DESIGN OF FPGA AND CPLD

State Machine Chart – Programmable Logic Array – Programmable Logic Array Devices –

ALTERA MAX 7000 CPLD’S – XILINX XC 4000 structures – XILINX interconnection –

XILINX Logic – XILINX 3000 Series FPGA’s – ALTERA complex Programmable Logic

Devices – ALTERA Flex 10k Series CPLD’S,

TEXT BOOKS:

1. Neil H.E.Weste Kamaran Eshraghia,, “ Principles of CMOS VLSI Design”,

Pearson Education Asia, II Edition, 2005.

2. J.Baskar, “ VHDL Primer” , Pearson Education Asia, I Edition, 2006.

3. Jr.Charles H. Roth, “Digital System Design Using VHDL”, Thomson Delmar

Learning Publishing, I Edition, 2005.

REFERENCE BOOKS:

1. Morris Mano And Charles R. Kime ,“Logic Circuit Layout Design”, Pearson

Education, Asia.

2. Douglas L Perry ,“VHDL Programming By Examples”, Tata McGraw – Hill

Publication, IV Edition, 2005

3. PONG P.CHU, “ RTL Hardware design using HDL”, Willey inter science, III

Edition, 2007

4. Douglas J. Smith , “ HDL Chip Design”, Doone Publication, I Edition, 2007


38

SEMESTER-III

SUBJECT TITLE: DIGITAL SIGNAL PROCESSING

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject describes about the basic concepts of signals and

functions and also it deals with digital signal processors.

GOAL: To introduce the concept of analyzing discrete time signals & systems in the time

and frequency domain.

OBJECTIVES

• To classify signals and systems & their mathematical representation

• To study various transformation techniques & their computation

• To study about filters and their design for digital implementation.

• To study the programmable digital signal processor & quantization effects.

CONTENTS

UNIT - I: SIGNALS & FUNCTIONS

Types of Signals- Methods of plotting various types of signals- Classification of functions-

Properties of Systems

UNIT – II: OPTICAL SIGNAL PROCESSING

Optical Signal Processing- Explanation of the Observed spectrum- Principles of optical

Signal Processor- Optical Computers- Building blocks of DSP- Comparison between OSP &

DSP.

UNIT - III: TRANSFORMATION TECHNIQUES

Introduction: Fourier Transformation- Laplace transformation- Z Transform- Discrete time

Fourier transforms of various functions- Region of Convergence (ROC) - Properties of Z

transforms & Discrete time Fourier transforms- Inverse Z transformation.

UNIT - IV: SAMPLING PROCESS & DIGITAL FILTERS

Sampling Process- Sampling & Holding- The Nyquist Sampling theorem- FIR Filter design

using windowing technique (Rectangular & Kaiser ) - IIR filter design using Analog Filters

approximations (Butterworth & Chebyshev)

UNIT - V: PROGRAMMABLE DSP’S

Modified Harvard & VLIW Architecture- Pipelining- Special Addressing modes in PDSP’s-

Onchip Peripherals- Architecture & Principles of TMS320C50- Instruction set- Simple

Programs.

Int Ext

Total

20

55

75


39

TEXT BOOKS:

1. B. Somanathan Nair, “ Digital Signal Processing”, Prentice Hall of India Pvt Ltd, I

Edition, 2005

2. B. Venakataramani & M. Bhaskar, “ Digital Signal Processing”, Tata Mc Graw Hill

Publication, sixth reprint 2005.

3. P.Ramesh Babu.& R.Ananda Natarajan , “Signals and Systems”, SciTech

Publishers, IV Edition, 2008

4. S.Salivahanan, A.Vallavaraj & C.Gnanapriya, “ Digital Signal Processing”, Tata Mc

Graw Hill Publications, II Edition, 2005

REFERENCE BOOKS:

1. Sanjith .K.Mithra ,“ Digital Signal Processing”, Tata Mc Graw Hill Publications.

2. Johny.R.Johnson, “ Introduction to Digital Signal Processing”, Prentice Hall of

India Publishers,

3. Simon Haykin & Barry Vanveen ,“Signals and Systems”, Wiley Eastern

Publishers ,


40

SEMESTER-III

SUBJECT TITLE: ANALYTICAL AND BIO-MEDICAL INSTRUMENTATION

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject presents various Bio – potentials and working

principles of medical instruments

GOAL: To enable the students to learn about the bio – potentials and medical instruments

OBJECTIVES

• The students should have understood the concept of bio – potential

• Understand the concept of medical instruments

• To develop the trouble shooting skills of medical instruments

Contents

UNIT – I: COLORIMETRY AND SPECTROPHOTOMETRY

Electromagnetic Radiation - The Beer-Lambert law

Colorimeters: Single beam Filter Photometer - Double Beam Filter-Multi channael

Photometer.

Spectrophotometers: Basic components of IR Spectrophotometers- Principle and

constructional details of Flame Photometers

UNIT – II: BLOOD GAS ANALYZER

Definition-Blood pH Measurement -Measurement of Blood pCO2– Measurement of Blood

pO2 –Complete Blood Gas Analyzer–Infrared Gas Analyzer –Thermal Conductivity Analyzer

– Analyzer based on gas density

UNIT - III: RADIO CHEMICAL AND MAGNETIC RESONANCE TECHNIQUES

Radiation Detectors-Ionization Chamber-GM Counter-Proportional Counter – Scintillation

Counter - Gamma cameras – Computerized Multi Crystal Gamma Camera - NMR-Basic

principles-Block Diagram and Explanation of NMR Spectrometer – ESR Spectrometer

UNIT – IV: MEDICAL IMAGING SYSTEMS

X-ray Machine -Introduction to X-Rays –Types of X Rays-Block diagram and working of

X-ray Machine-Applications of X Rays -X Ray Image Intensifier

Int Ext

Total

20

55

75


41

Computerized Tomography -Introduction to Computerized Tomography—Basic Principle

and Operation of CT Scanner-Advantages of Computerized Tomography

Magnetic Resonance Imaging -Introduction to Magnetic Resonance Imaging –Free

Induction Decay-MRI Instrumentation

Ultrasonic Imaging - Introduction to Ultrasonic Imaging- Advantages of Ultrasonic

Imaging-Modes of Operation (A-Mode, B-Mode & M-Mode)-Positron Emission

Tomography

UNIT- V: ASSISTING AND THERAPEUTIC EQUIPMENTS

Pace makers: Conductive System of Heart - Need for Pacemakers - Types of Pacemakers -

Modes of Operation –Internal Pacemakers – Differences between Internal & External

Pacemakers

Defibrillators: AC defibrillators - DC defibrillators - DC defibrillators with synchronizer.

Diathermy: Surgical Diathermy Techniques- Microwave Diathermy, Shortwave Diathermy

Dializer: Parallel Flow Dializer - Coil Hemodializer - Hallow Fiber Hemo Dializer.

TEXT BOOKS:

1. R. S .Khandpur, ”Handbook of Analytical Instruments” Tata Mc Graw Hill

Publication, 8th

Reprint, 2001.

2. R. S .Khandpur, ”Handbook of Bio-Medical Instrumentation” Tata Mc Graw Hill

Publication, 5th

Reprint, 2005.

REFERENCE BOOKS:

1. M.Arumugam, “Bio-Medical Instrumentation,” Anuradha Agencies, 10th

Reprint, 2006.

2. L.A.Geddes and L.E.Baker, “Principles of Applied Bio-Medical Instrumentation”

John Wiley & Sons, I Edition, 1975.


42

SEMESTER-III

SUBJECT TITLE: ARM CORE PROCESSOR

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the introduction to embedded system,

ARM core processors, hardware peripherals and various types of instructions.

GOAL: To introduce to the functional building blocks of an advanced embedded system for


OBJECTIVES

• Introduction to features that build an ARM embedded system.

• To understanding the interaction of the various components of ARM 7 within an

embedded system.

• Techniques of interfacing ARM processor & peripherals devices related to embedded

system

CONTENT

UNIT- I: INTRODUCTION TO ARM EMBEDDED SYSTEM

RISC design philosophy – Embedded System Hardware memory – peripherals – Embedded

System Software initialization (Boot) Code – Operating System -Applications.

UNIT- II: ARM PROCESSOR FUNDAMENTALS

ARM introduction - ARM Core data flow model – Registers – Current Program Status

register (CPSR) –Processor Modes – Bank registers – State and Instruction sets – Interrupts

Masks – Condition Flags – Conditional Execution – Pipeline –Exceptions interrupts & Vector

table – Core Extension - ARM Processor families

UNIT- III: INSTURCTION SET

ARM Instruction V1: Data processing – Branch – Load & Store – Software interrupt –

Program Status Register – Loading Constants.

THUMB Instruction V1: Branch – Data processing – Single Register Load & Store Multi

Register Load & Store – Stack - Software interrupt.

UNIT- IV: OVERVIEW OF ARM7TDMI MCU (Analog Devices ADuc7128/29)

Features – Functional block diagram – General description – Pin configuration & Function

descriptions – Overview of the AR7TDMI Core - Exceptions – ARM registers interrupt

Int Ext

Total

25

75

100


43

Latency.-Memory Organization – Memory access – Flash/EE Memory – SRAM – Memory

mapped register

UNIT- V: HARDWARE CONFIGURATION

ADC – DAC – Oscillator and PLL - PWM - General purpose I/O- Serial port MUX –

UART Serial interface - I2C – Timer life time – General purpose timer – Wake up timer –

Watch dog timer – General purpose Timer 4

TEXT BOOKS:

1. Andrew N . Sloss Dominic Sysmes Chris Wright “ARM System Development

Guide”, Morgan Kaufmann Publishers, Reprinted 2010.

2. Data Sheet Reference (Analog Devices ADuc7128/29)

REFERENCE BOOK:

1. Frank Vahid “Embedded System Design”, Tata Mc Graw Hill Publication

Company Ltd.,


44

SEMESTER – III

SUBJECT TITLE: VHDL LAB

SUBJECT CODE:


1. Simple Logic Gates.

2. Half adder and Full adder.

3. Half Subtractor and Full Subtractor.

4. Encoder and Decoder.

5. Multiplexer and Demultiplexer.

6. Various kinds Flip-Flops.

7. Solving Boolean equation.

8. Shift Register and Ring Counter.

9. Digital Counters.

10. 4 bit and 8 bit Multiplexer.

11. Arithmetic and Logic unit.

12. Programmable Logic array.

Int Ext Total

40 60 100


45

SEMESTER – III

SUBJECT TITLE: DSP LAB

SUBJECT CODE:


1. Representation of Basic signals

2. Waveform generation – square, saw tooth, sine & triangular

3. Convolution & Correlation of two discrete signals

4. FIR Low Pass Filter Design using Different windows.

5. IIR Low Pass Filter Design using Butterworth Filter

6. FIR High Pass Filter Design using Different windows.

7. IIR High Pass Filter Design using Butterworth Filter

8. FIR Band Pass Filter Design using Different windows.

9. IIR Band Pass Filter Design using Butterworth Filter

10. FIR Band Reject Filter Design using Different windows.

11. IIR Band Reject Design using Butterworth Filter

12. Frequency Response of First order system.

Int Ext Total

40 60 100


46

SEMESTER – III & IV

SUBJECT TITLE: SIMULATION & SYNTHESIS LAB

SUBJECT CODE:


Using PSPICE Software

1. Checking of Ohms law

2. Thevenin and Norton theorem

3. Diode characteristics

4. Half wave & Full wave rectifier circuits

5. Bridge Rectifier circuits

6. Transistor characteristics

Using Microwind Software

1. Design and synthesis of simple Logic Gates & Universal Logic Gates

2. Design and synthesis of Half Adder & Full Adder

3. Design and synthesis Half Subtractor & Full Subtractor.

4. Design and synthesis Encoder & Decoder.

5. Design and synthesis Multiplexer & Demultiplexer.

6. Design and synthesis various kinds Flip-Flops.

Int Ext Total

40 60 100


47

SEMESTER-IV

SUBJECT TITLE: EMBEDDED SYSTEM DESIGN

SUBJECT CODE:

SUBJECT DESCRIPTION: This subject deals with the introduction to embedded system,

and help to understand the interaction of various components within an embedded system.

GOAL: To introduce to the functional building blocks of an embedded system for


OBJECTIVES

• Techniques of inter facing between processors & peripheral device related to

embedded processing.

• To enable writing of efficient programs on any dedicated processor.

• To present in lucid manner the basic concepts of systems programming like operating

system, assembler compliers etc and to understand the management task needed for

developing embedded system.

CONTENTS

UNIT I: INTRODUCTION TO EMBEDDED SYSTEMS

Embedded Systems Overview - Design Process: Requirements, Specification, Architecture

Design, Designing of Hardware and Software Components, System Integration. Processor

Technology - IC Technology - Design-Technology.

UNIT II: CUSTOM SINGLE PURPOSE PROCESSORS: HARDWARE

Introduction- Combinational Logic- Sequential Logic- Custom Single Purpose Processor

Design- RT Level - Custom Single Purpose Processor Design- Optimizing Custom Single

Purpose Processors. Microcontroller Architecture and Functional block diagram. Selecting a

Microprocessor/Microcontroller for an application.

UNIT III: GENERAL PURPOSE PROCESSORS: SOFTWARE

Programmer’s View-Program Design- Assembly and Linking- Basic Compilation

Techniques- Introduction to Integrated Development Environment. Development of simple

programs using Integrated Development Environment.

UNIT IV: STANDARD SINGLE-PURPOSE PROCESSORS: PERIPHERALS

Introduction- Flash Memory, EEPROM, SRAM, Parallel Ports, Serial Ports, Timers, counters

And Watchdog Timer- Pulse Width Modulators- LCD Controllers- Keypad-Controllers-

Stepper Motor Controllers- Analog to Digital Converters- Real Time Clock.

Int Ext

Total

25

75

100


48

UNIT V: HARDWARE SOFTWARE INTEGRATION & RTOS

Introduction- Downloading the Software into the target machine: PROM Programmers, ROM

Emulators, In-Circuit Emulators, JTAG and BDM. Introduction to RTOS. – Tasks and Task

States, Tasks and Data, Semaphores and Shared Data Problem, Message Queues, Mailbox

and Pipes, Memory Management. Study of Underground Tank Monitoring System using

Mucos RTOS.

TEXT BOOKS:

1. Frank Vahid / Tony Givargis, “Embedded System Design, A Unified

Hardware/Software Introduction”, John Wiley Student Edition, reprint,2006.

2. David .E. Simon, “An Embedded Software Primer”, Pearson Education, Fourth

Impression 2007.

REFERENCE BOOKS:

1. Raj Kamal, “Embedded Systems”, Tata-McGrawHill Publications, 13th reprint 2007

2. Wayne Wolf, “Computers as Components”, Morgan Kaufmann Publishers an

Imprint of Elsevier, 2005.

refer 1 msc app electronics syllabu 2011-13

Documents

department of electronics

electronics computer

science computer science

pg level

pg programme

practical training

duration of pg course

components component