VTU Instrumentation Technology, IT 5th Sem Syllabus

Download Soft Copy Of VTU Instrumentation Technology Scheme 2010

Download Soft Copy Of VTU Instrumentation Technology Syllabus 2010

V SEMESTER

MANAGEMENT AND ENTERPRENEURSHIP
Subject Code : 10AL51

IA Marks : 25
No. of Lecture Hrs./ Week : 04 Exam Hours : 03
Total No. of Lecture Hrs. : 52 Exam Marks : 100

PART – A

MANAGEMENT
UNIT – 1
MANAGEMENT: Introduction – Meaning – nature and characteristics of Management, Scope and Functional areas of management – Management as a science, art of profession – Management & Administration – Roles of Management, Levels of Management, Development of Management Thought – early management approaches – Modern management approaches.
7 Hours

UNIT – 2
PLANNING: Nature, importance and purpose of planning process – Objectives – Types of plans (Meaning Only) – Decision making – Importance of planning – steps in planning & planning premises – Hierarchy of plans.
6 Hours

UNIT – 3
ORGANIZING AND STAFFING : Nature and purpose of organization – Principles of organization – Types of organization – Departmentation – Committees- Centralization Vs Decentralization of authority and responsibility – Span of control – MBO and MBE (Meaning Only) Nature and importance of staffing–Process of Selection & Recruitment (in brief).
6 Hours

UNIT – 4
DIRECTING & CONTROLLING: Meaning and nature of directing – Leadership styles, Motivation Theories, Communication – Meaning and importance – coordination, meaning and importance and Techniques of Co – Ordination. Meaning and steps in controlling – Essentials of a sound control system – Methods of establishing control (in brief).
7 Hours

PART – B

ENTREPRENEURSHIP
UNIT – 5
ENTREPRENEUR: Meaning of Entrepreneur; Evolution of the Concept, Functions of an Entrepreneur, Types of Entrepreneur, Intrapreneur – an emerging Class. Concept of Entrepreneurship – Evolution of Entrepreneurship, Development of Entrepreneurship; Stages in entrepreneurial process; Role of entrepreneurs in Economic Development;
Entrepreneurship in India; Entrepreneurship – its Barriers.
6 Hours

UNIT – 6
SMALL SCALE INDUSTRIES: Definition; Characteristics; Need and rationale; Objectives; Scope; role of SSI in Economic Development. Advantages of SSI Steps to start and SSI – Government policy towards SSI; Different Policies of SSI; Government Support for SSI during 5 year plans. Impact of Liberalization, Privatization, Globalization on SSI Effect of
WTO/GATT Supporting Agencies of Government for SSI, Meaning, Nature of support; Objectives; Functions; Types of Help; Ancillary Industry and Tiny Industry (Definition Only)
7 Hours

UNIT – 7
INSTITUTIONAL SUPPORT: Different Schemes; TECKSOK; KIADB; KSSIDC; KSIMC; DIC Single Window Agency; SISI; NSIC; SIDBI; KSFC.
7 Hours

UNIT – 8
PREPARATION OF PROJECT: Meaning of Project; Project Identification; Project Selection; Project Report; Need and Significance of Report; Contents; Formulation; Guidelines by Planning Commission for Project report; Network Analysis; Errors of Project Report; Project Appraisal. Identification of business opportunities: Market Feasibility Study;
Technical Feasibility Study; Financial Feasibility Study & Social Feasibility Study.
7 Hours

TEXT BOOKS:

  • 1. Principles of Management – P.C.Tripathi, P.N.Reddy – Tata McGraw Hill,
  • 2. Dynamics of Entrepreneurial Development & Management – Vasant Desai – Himalaya Publishing House
  • 3. Entrepreneurship Development – Poornima.M.Charantimath – Small Business Enterprises – Pearson Education – 2006 (2 & 4).

REFERENCE BOOKS:

  • 1. Management Fundamentals – Concepts, Application, Skill Development – Robers Lusier – Thomson –
  • 2. Entrepreneurship Development – S.S.Khanka – S.Chand & Co.
  • 3. Management – Stephen Robbins – Pearson Education/PHI – 17th Edition, 2003.

ADVANCED MICROPROCESSOR & PERIPHERALS
Subject Code : 10IT52

IA Marks : 25
No. of Lecture Hrs./ Week : 04 Exam Hours : 03
Total No. of Lecture Hrs. : 52 Exam Marks : 100

PART – A

UNIT – 1
Introduction, Microprocessor based computer system, Architecture of 8086 Microprocessor, Pin functions, Clock generator, Minimum /Maximum mode of operation.
7 Hours

UNIT – 2
Read /Write Timing diagrams, 8086 instruction set, Instruction template for data transfer instruction, addressing modes.
7 Hours

UNIT – 3
Assembler directives, Programming examples.
6 Hours

UNIT – 4
Linking and relocation, Stacks, Procedures, Interrupt and Interrupt routines, Macros.
6 Hours

PART – B

UNIT – 5
DOS interrupt 21H function to read a character from keyboard, Write character to console, Creation of a new file, read/write from/ to file, Serial/parallel communication.
Interfacing devices, Memory devices and Interfacing
7 Hours

UNIT – 6
8255PPI device and interfacing, Keyboard, display, ADC, DAC, Stepper motor and Printer interfacing using 8255.
7 Hours

UNIT – 7
8279 programmable keyboard/display controller and interfacing, 8253 and interfacing, 8259 programmable interrupt controller and interfacing
6 Hours

UNIT – 8
8257 DMA controller and interfacing, serial communication using 8251 & 8087 Numeric data processor and interfacing, RS 232 serial communication standards.
6 Hours

TEXTBOOKS:

  • 1 Advanced Microprocessor and Peripherals- A.K.Ray and K.M. Bhurchandi, Tata McGraw Hill.
  • 2 Microcomputer systems 8086/8088 family, Architecture, Programming and Design – Yu-Cheng Liu & Glenn A Gibson, 2nd Edition- July 2003, Prentice Hall of India.

REFERENCE BOOKS:

  • 1. Microprocessor and Interfacing, Programming & Hardware- Douglas V Hall, 2nd Edition, Tata McGraw Hill
  • 2. Microprocessor Architecture, Programming and Applications with the 8085- Ramesh S Gaonkar, 4th Edition, Penram International.

DIGITAL SIGNAL PROCESSING
Subject Code : 10IT53

IA Marks : 25
No. of Lecture Hrs./ Week : 04 Exam Hours : 03
Total No. of Lecture Hrs. : 52 Exam Marks : 100

PART – A

UNIT – 1
Review of discrete signal and systems, DFT, IDFT, Properties of DFT
7 Hours

UNIT – 2
COMPUTATION OF FFT: Radix-2 Decimation in Time FFT, Radix-2 Decimation in Frequency FFT, Inverse FFT Algorithm.
6 Hours

UNIT – 3
DIGITAL FILTER STRUCTURES: Basic IIR Filter Structures: Direct forms (I & II), cascade and parallel realizations, Basic FIR filter structures- Direct & cascade form structure. 6 Hours

UNIT – 4
FIR FILTERS: Properties, Filter Design using Windows (Rectangular, Hamming, Hanning and Kaiser Window), FIR Filter design using Frequency sampling technique.
7 Hours

PART – B

UNIT – 5 &6
IIR FILTERS: Specification and design techniques, Impulse Invariant and Bilinear Transformation techniques. Design of digital Butterworth and Chebyshev low pass filters using Analog filter design techniques, Transform of Low pass to High pass, Band pass and Band rejection filters, Comparison of IIR and FIR filters
14 Hours

UNIT – 7
MULTIRATE DIGITAL SIGNAL PROCESSING: Introduction, Decimation by a factor D, Interpolation by a factor I, Applications of multirate signal processing: Interfacing of digital systems with different sampling rate, Implementation of Digital filter banks, DFT filter banks, Quadrature Mirror filter banks.
6 Hours

UNIT- 8
ADAPTIVE FILTERS: Adaptive filters, LMS adaptive algorithms, Recursive least square algorithms, Applications of Adaptive filters.
6 Hours

TEXT BOOKS:

  • 1. Digital Signal Processing- PROAKIS and MANOLAKIS, 3rd Edition, Prentice Hall of India / Pearson.
  • 2. Real Time Digital Signal Processing: Fundamentals, Algorithms and implementation using TMS Processor-V.Udayashankara, Prentice Hall of India, New Delhi, 2010

REFERENCE BOOKS:

  • 1. Digital Signal Processing- S K MITRA, 4th Edition, Mc Graw-Hill.
  • 2. Theory and Application of DSP- RABINAR L R and GOLD B, Prentice Hall of India, 1999.
  • 3. Introduction to digital signal processing- JOHNSON, Prentice Hall of India 1999.
  • 4. Digital Signal Processing-ALAN V OPPENHEIM, Prentice Hall of India.

PROCESS INSTRUMENTATION
Subject Code : 10IT54

IA Marks : 25
No. of Lecture Hrs./ Week : 04 Exam Hours : 03
Total No. of Lecture Hrs. : 52 Exam Marks : 100

PART – A

UNIT – 1
GENERALIZED CONFIGURATION, FUNCTIONAL DESCRIPTION & PERFORMANCE CHARACTERISTICS OF MEASURING INSTRUMENTS: Functional elements of an instrument: analog & digital modes of operation: null & deflection methods: I/O configuration of measuring instruments & instrument system- methods of correction for interfering & modifying inputs. Measurement Of Displacement: Principle of measurement of displacement, resistive potentiometers, variable inductance & variable reluctance pickups, LVDT, capacitance pickup.
7 Hours

UNIT – 2
MEASUREMENT OF FORCE, TORQUE & SHAFT POWER: Principle of measurement of Force, Torque, Shaft power standards and calibration: basic methods of force measurement; characteristics of elastic force transducer- Bonded strain gauge, differential transformer, piezo electric transducer, variable reluctance/ FM- Oscillator digital systems, loading effects; torque measurement on rotating shafts, shaft power measurement (dynamometers).
6 Hours

UNIT – 3
TEMPERATURE MEASUREMENT: Standards & calibration: thermal expansion methods-bimetallic thermometers, liquid-in-glass thermometers, pressure thermometers; thermoelectric sensor (thermocouple)- common thermocouples, reference junction consideration, special materials, configuration & techniques; electrical resistance sensors- conductive sensor (resistance thermometers), bulk semiconductors sensors (thermistors); junction semiconductor sensors; digital thermometers.
6 Hours

UNIT – 4
RADIATION METHODS: radiation fundamentals, radiation detectors, unchopped (DC) broadband radiation thermometers, Chopped (AC) selective band (photon) radiation thermometers, automatic null balance radiation thermometers (optical pyrometers). Two colour radiation thermometers, Black body-tipper fiber optic radiation thermometer. IR imaging systems. Fluroptic temperature measurement.
7 Hours

PART – B

UNIT – 5
PRESSURE MEASUREMENT: Standards & calibration: basic methods of pressure measurement; dead weight gauges & manometer, manometer dynamics; elastic transducers, high pressure measurement; low pressure (vacuum) measurement- McLeod gauge, Knudsen gauge, momentum-transfer (viscosity) gauges, thermal conductivity gauges, ionization gauges, dual gauge technique.
7 Hours

UNIT – 6
FLOW MEASUREMENT: Local flow velocity, magnitude and direction. Flow visualization. Velocity magnitude from pitot static tube. Velocity direction from yaw tube, pivoted vane, servoed sphere, dynamic wind vector indicator. Hot wire and hot film anemometer. Hot film shock-tube velocity sensors.
6 Hours

UNIT – 7
LASER DOPPLER VELOCIMETER; gross volume flow rate; calibration and standards. Constant-area, variable-pressure-drop meters (obstruction meters). Averaging pitot tubes. Constant pressure-drop, variable area meters (Rotameters), turbine meters, positive displacement meters. Metering pumps. Electromagnetic flow meters. Drag force flow meters. Ultrasonic flow meters, vortex-shedding flow meters.
6 Hours

UNIT – 8
LEVEL MEASUREMENT: Capacitance probe; conductivity probes; diaphragm level detector, differential pressure level detector, radiation level sensors, level transmitter, ultrasonic level detector.
7 Hours

TEXT BOOKS:

  • 1. Measurement systems application and design- ERNEST O DOEBELIN, 5th Edition Tata McGraw Hill.
  • 2. Instrument Engineers Hand book-(process measurement) B G LIPTAK, Chilton book Company.

REFERENCE BOOKS:

  • 1. Instrumentation Devices & Systems- Rangan, Mani and Sharma 2nd Edition, Tata McGraw Hill.
  • 2. Process Instruments & Controls Hand Book Considine- D.M. Mc Graw Hill.
  • 3. Transducers & Instrumentation- DVS Murthy, Prentice Hall of India.
  • 4. Instrumentation & Process Measurements- W.Bolton, Universities Press.

BIOMEDICAL INSTRUMENTATION
Subject Code : 10IT55

IA Marks : 25
No. of Lecture Hrs./ Week : 04 Exam Hours : 03
Total No. of Lecture Hrs. : 52 Exam Marks : 100

PART – A

UNIT – 1
FUNDAMENTALS: Sources of biomedical signals, Basic instrumentation system, General constraints in design of biomedical instrumentation systems BIOELECTRIC SIGNALS AND ELECTRODES: Origin of bioelectric signals, Types of bioelectric signals, Recording electrodes, Electrode-Tissue interface, Polarization, Skin contact impedance, Silver-silver chloride electrodes, Electrodes for ECG, EEG, EMG, Microelectrodes.
7 Hours

UNIT – 2
ELECTROCARDIOGRAPH: Electrical activity of the heart, Genesis & characteristics of Electrocardiogram (ECG), Block diagram description of an Electrocardiograph, ECG lead system, Multi-channel ECG machine ELECTROENCEPHALOGRAPH: Genesis of Electroencephalogram (EEG), Block diagram description of an Electroencephalograph, 10-20
electrode systems, and computerized analysis of EEG.
7 Hours

UNIT – 3
PATIENT MONITORING SYSTEM: Bedside patient monitoring systems, Central monitors, Measurement of heart rate – Average heart rate meter, Instantaneous heart rate meter (cardio tachometer), Measurement of pulse rate.
6 Hours

UNIT – 4
BLOOD PRESSURE MEASUREMENT : Direct & Indirect method, Automatic blood pressure measuring apparatus using Korotkoff’s method, Rheographic method, Oscillometric method, Ultrasonic Doppler shift method, Measurement of Respiration rate – Thermistor method, Impedance pnuemography, CO2 method, Apnea detectors
6 Hours

PART – B

UNIT – 5
BLOOD FLOW METERS: Electromagnetic blood flow meters, Ultrasonic blood flow meters, NMR blood flow meters, Laser Doppler blood flow meters.
6 Hours

UNIT – 6
CARDIAC OUTPUT MEASUREMENT: Indicator dilution method, Dye dilution method, Thermal dilution techniques, Measurement of continuous cardiac output derived from the aortic pressure waveform, Impedance technique.
6 Hours

UNIT – 7
CARDIAC PACEMAKERS AND DEFIBRILLATORS: Need for cardiac pacemaker, External pacemaker, Implantable pacemaker, Types of Implantable pacemakers, Programmable pacemaker, Rate-responsive pacemakers, AC & DC defibrillators.
7 Hours

UNIT – 8
PULMONARY FUNCTION ANALYZER: Pulmonary function measurement, Spirometry, Pneumotachometer, Measurement of volume by Nitrogen washout technique. Patient Safety: Electric shock hazards, Leakage currents
7 Hours

TEXT BOOK:

  • 1. Handbook of Biomedical Instrumentation-R. S. Khandpur, 2nd Edition, 2003, Tata McGraw-Hill.

REFERENCE BOOKS:

  • 1. Principles of applied biomedical instrumentation- Lesely Cromwell & others. 2nd Edition, John Wiley and sons.
  • 2. Encyclopedia of medical devices and instrumentation-J. G. Webster, John Wiley, 1999.

C++ AND DATA STRUCTURES
Subject Code : 10IT56

IA Marks : 25
No. of Lecture Hrs./ Week : 04 Exam Hours : 03
Total No. of Lecture Hrs. : 52 Exam Marks : 100

Part – A

UNIT – 1
C++ PROGRAMMING BASICS: Need for object oriented programming, procedural languages, characteristics of OOP, preprocessor directives, data types, manipulators.
6 Hours

UNIT – 2
STRUCTURES: Structures, enumerated data types, Boolean type, Functions: passing arguments, returning values, reference arguments, overloaded functions, inline functions, variable and storage classes.
7 Hours

UNIT – 3
OBJECTS AND CLASSES: objects as data types, constructors, destructors, overloaded constructors. Arrays: Arrays as class member data types, passing arrays, arrays as objects, strings, arrays of strings.
7 Hours

UNIT – 4
OPERATOR OVERLOADING: over loading of unary operators, binary operators, data conversion.
6 Hours

PART – B

UNIT – 5
INHERITANCE: Inheritance, derived class and base class, overriding member functions, scope resolution, levels of inheritance, multiple inheritances.
7 Hours

UNIT – 6
Pointers, pointers to objects, linked list, virtual functions, static functions, files and streams, input/output operations.
7 Hours

UNITS – 7 & 8
DATA STRUCTURES: data representation, matrices, stacks, Queues, skip lists and Hashing, binary trees.
12 Hours

TEXT BOOKS:

  • 1. Object oriented programming in TURBO C++ -Robert Lafore, Galgotia Publications.2002.
  • 2. Data Structures, Algorithms and Applications in C++: Sartaj Sahni, Tata McGrawHill.

REFERENCE BOOKS:

  • 1. Object Oriented Programming with C++, E Balaguruswamy, 3rd Edition, Tata McGraw Hill 2006.
  • 2. C++ the complete reference, Herbert Schildt, 4th Edition, Tata McGraw Hill, 2003.
  • 3. Data Structures using C++, D.S.Malik, Thomson, 2003.

ANALOG IC LAB
Subject Code : 10ITL57

[Refer to Syllabus Copy for correct format]

IA Marks : 25
No. of Practical Hrs./ Week : 03 Exam Hours : 03
Total No. of Practical Hrs. : 42 Exam Marks : 50

  • 1. Measurement of Opamp parameters (input offset current, input bias current, slew rate, input offset voltage, PSRR, CMRR) & offset nulling.
  • 2. Inverting amplifier & attenuator, noninverting amplifier& voltage follower.
  • 3. Adder, subtractor, integrator, differentiator,
  • 4. I to V converter & V to I converter.
  • 5. Half wave & full wave precision rectifiers.
  • 6. Design of low-pass filters (Butterworth I & II order).
  • 7. Design of high-pass filters (Butterworth I & II order).
  • 8. Instrumentation amplifier- Design for different gains.
  • 9. RC phase-shift and Wein bridge Oscillators.
  • 10. ZCD, positive voltage level & negative voltage level detectors.
  • 11. Schmitt trigger- design for different hystersis.
  • 12. Design of astable and monostable multivibrator using 555 timer.
  • 13. Low voltage and high voltage regulators using LM723.

Note:
i. Standard design procedure to be adopted.
ii. Students should build the circuit using discrete components and IC’s (models are not to be used)

8086 MICROPROCESSOR LAB
Subject Code : 10ITL58

[Refer Syllabus Copy for Correct Format]

IA Marks : 25
No. of Practical Hrs./ Week : 03 Exam Hours : 03
Total No. of Practical Hrs. : 42 Exam Marks : 50

PART – A

  • 1. Write an assembly language program to find the average of N 16 bit unsigned integers.
  • 2. Write an ALP to find the GCD of two 16 bit unsigned integers.
  • 3. Write an ALP to convert a BCD number to 7-segment code using lookup table.
  • 4. Write an ALP to sort a set of N 16 bit unsigned integers in ascending / descending order using bubble sort algorithm. Length of numbers N is in location X and the integers start from word location X+1.
  • 5. Write an ALP to read a 4-digit hexadecimal number from keyboard and display on the screen using INT 21H. Implement the same using two PUBLIC procedures.
  • 6. Write an ALP to multiply 2 16 bit number in location in X, X+1 and Y, Y+1 respectively using. · Successive addition. · Shift method
  • 7. Write an ALP to perform the following.
    · If contents of X=1, then determine Z=(Y+W)/V.
    · If contents of X=0, then determine Z=(Y*W)-V.
    · For other values of X store 00 in location Z, where Y, W, V location contains 16 bit unsigned integers.
  • 8. Write an ALP to check whether the code word is valid or not. The code word is stored in location X. (Example: The code word is valid if 3 MSB’s are 0 and two 1’s in the remaining bits).
  • 9. Develop and execute an ALP to read a digit hexadecimal number from keyboard and store the corresponding value in a word location.
  • 10. Using conditional assembly develop and execute an ALP with the features. It uses one input value, an unsigned 16 bit integer called X. If EQNI is true, it assembles code which computes 3*X*X+4*X+5 and places 32 bit result in double word memory. Otherwise it assembles code which computes 7*[X**2] +8 and places 32 bit result in double word memory location.
  • 11. Develop and execute ALP that implements Binary search algorithm. The data consists of Sorted 16 bit unsigned integers. The search key is also a 16 bit unsigned integer.
  • 12. Develop and execute an assembly language program to compute factorial of a positive integer number using recursive procedure.

PART – B

  • 1. Generate a square wave using sub port of port C: 8255.
  • 2. Interface a stepper motor and write program to rotate in clock-wise and anti-clock wise direction.
  • 3. Interface a 4´4-matrix keypad and write a program to identify the key.
  • 4. Generate a sine wave of programmable amplitude using DAC interface.
  • 5. Interface an 8-bit ADC and write program to store the converted data in memory location.
  • 6. Using the 8255 in the ADD-ON card realize an 8 to 1 multiplexer.
  • 7. Generate a triangular wave using DAC interface.
  • 8. Implement a programmable up/down 4-bit binary/decade counter using the I/O lines in the add-on card. Provision for selecting up or down, binary or decade counting and loading an initial value is to be provided.
  • 9. Develop and execute an ALP to display 4 digit BCD number on multiplexed display.
  • 10. Interface a 7-segment display and write program to display number from 0 to 9 in succession at regular interval.
  • 11. Interface a printer and write program to print characters.
  • 12. Develop and execute ALP to realize ALU. A&B are n bit input binary to ALU and Y is output. Two control lines X1, X2 decide the operation to be performed.
    X1 X2 operation
    0 0 ADD
    0 1 SUB
    1 0 AND
    1 1 XOR

 

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