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April 23rd, 2015, 03:12 PM
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Bharathiar University MSc Electronics Syllabus
I am looking for M.Sc. Electronics and Instrumentation Syllabus of Bharathiar University so please provide me the same?
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#2
April 23rd, 2015, 04:12 PM
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Re: Bharathiar University MSc Electronics Syllabus
Here I am giving you M.Sc. Electronics and Instrumentation Syllabus of Bharathiar University. M.Sc. Electronics and Instrumentation: Eligibility Criteria: Candidates must have passed B.Sc Electronics / Industrial Electronics / Electronic Science / Electronics and Communication Systems / Physics / Applied Science / Computer Science / BCA / B.Sc Hons / B.Sc. Electrical Equipment Maintenance, Instrumentation / B.E.S. Bharathiar University M.Sc. Electronics and Instrumentation Syllabus: M.Sc., ELECTRONICS AND INSTRUMENTATION List of Electives: Elective I (Semester I) 1. Electrical Measurements and Instruments 2. Measurements Techniques and its Applications. 3. Industrial Instrumentation Elective II (Semester II) 1. Data Communication Networks 2. Industrial Data Networks 3. Computer Aided Instrumentation Elective III (Semester III) 1. Nano Electronics and systems 2. System on a chip 3. Robotics and Automation Supportive Papers offered at Electronics & Instrumentation Department for other students. Paper I : Digital Electronics and Microprocessor. Paper II : Biomedical Instrumentation. Paper III : Analytical Instrumentation. M.Sc. Electronics & Instrumentation (UD) 2012-13 Annexure No: 22C Page 5 of 34 SCAA. D t: 17.02.2012 Semester I - 1. SENSORS AND TRANSDUCERS UNIT I SCIENCE OF MEASUREMENTS AND INSTRUMENTATION OF TRANSDUCERS: Units and standards-Calibration methods-Static calibration-classification of errors –Error analysis-Statistical methods-Odds and uncertainty-Classification of transducers-Selection of transducers. UNIT II CHARACTERISTICS OF TRANSDUCERS: Static characteristics Accuracy, precision, resolution, sensitivity, Linearity, threshold resolution, hysteresis and dead space, Dynamic characteristics-Mathematical model of transducer-Zero, II order transducers and I. response to impulse, step, ramp and sinusoidal inputs. UNIT III RESISTANCE TRANSDUCERS: Principle of operation, construction details, characteristics and application of resistance potentiometer, strain gauge, resistance thermometer, thermister, hotwire anemometer, pizeoresistive sensor and humidity sensor. UNIT IV INDUCTANCE AND CAPACITANCE TRANSDUCERS: Induction potentiometer-Variable reluctance transducers-EI picks up-LVDT-Capacitive transducer and types-Capacitor microphone-Frequency response UNIT V OTHER TRANSDUCERS: Piezoelectric transducer, magnetostrictive -IC sensor-Digital transducers-Smart sensor-Fibre transducer. TEXT BOOKS 1. A.K.Sawhney”A course in Electrical & Electronic Measurement and Instrumentation’ Dhanpat Raj and Co (P) Ltd.2004 2. D.V.S Murthy, ‘Transducer and Instrumentation’ Prentice Hall of India,1995 REFERENCE BOOKS 1. E.O.Doebelin, Measurement Systems-Applications and Design Tata McGraw Hill, New Work, 1990 2. D.Patranabis,”Sensors and Transducers” Prentice Hall of India, 1999. 3. John P.Bentley” Principles of Measurement Systems” III Edition, Pearson Education, 2000. 4. Hermann K.P.Neubert,” Instrument Transducers” Oxford University Press, 2000. 5. D.V.S.Murthy”Transducers and Instrumentation” Prentice Hall of India, 2001. 6. S.Ranganathan”Transducer Engineering” Allied Publishers Pvt.Ltd.2003. 7. AlSulko and J.D.Fault”Industrial Instrumentation” Vikas Publications, Delhi, 1996 M.Sc. Electronics & Instrumentation (UD) 2012-13 Annexure No: 22C Page 6 of 34 SCAA. D t: 17.02.2012 Semester I - 2.SIGNALS AND SYSTEMS UNIT I: INTRODUCTION: Continuous Time (CT) and Discrete Time (DT) signals – classification of CT and DT signals – Basic CT and DT signals – Signal Operations – Representation of signals by impulses UNI II: CONTINUES TIME & DISCRETE TIME SYSTEMS: Properties – Linear Time Invariant (LTI) system – Linear Shift Invariant (LSI) systems - Properties – Continuous and discrete convolution – CT systems representation by differential equations – DT systems representation by difference equations. UNIT III: FOURIER SERIES REPRESENTATION OF PERIODIC SIGNALS: Fourier series analysis of periodic signals – properties of Continuous Time Fourier series (CTFS)– Convergence of CTFS - Representation of periodic signals by Continuous time Fourier transform (CTFT) – properties of CTFT– Convergence of CTFT – Frequency response of systems characterized by differential equations. UNIT IV: FOURIER ANALYSIS OF DT SIGNALS AND SYSTEMS: Fourier series representation of DT periodic signals (DTFS) – Properties of DTFS -representation of aperiodic signals by DTFT – properties of the DTFT – Frequency response of systems characterized by differential equations. UNIT V: SAMPLING AND LAPLACE TRANSFORM: Sampling: Introduction – sampling theorem – reconstruction of a signal from its samples using interpolation – Aliasing – DT processing of a CT signal – sampling of DT signals Laplace Transform: Introduction – Laplace transform – region of convergence for LT – Inverse Laplace Transform – properties of Laplace transform. TEXT BOOK 1. Alen V Oppenheim Alen S. Wilsky and Hamid Nawab S “Signals and Systems”, second Edition, PHI, New Delhi, 1997 REFERENCE BOOKS 1. Michael J Roberts, “ Signals and Systems Analysis using transform methods and MATLAB”, Tata McGraw- Hill, 2003 2. Haykin.S and Barry Van Veen, “Signals and Systems”, John willy and Sons Inc., 2002 3. Samir S Soliman and Srinath MD, “Continuous and discrete signals and systems” Second Edition, PHI, 2003 4. Lathi B.P., “Linear Systems and Signals”. Oxford University Press Inc., 2003 M.Sc. Electronics & Instrumentation (UD) 2012-13 Annexure No: 22C Page 7 of 34 SCAA. D t: 17.02.2012 Semester I -3. EMBEDDED SYSTEM AND RTOS UNIT-I INTRODUCTION TO EMBEDDED SYSTEMS: Embedded systems-processor embedded into a system-Embedded Hardware units and devices in system- Embedded software in a system – examples of embedded systems – embedded system on-chip (Soc) and use of VLSI circuit design technology UNIT-II DEVICES AND COMMUNICATION BUSES FOR DEVICES NETWORK: IO types and examples- serial communication devices- parallel device ports- sophisticated interfacing features in device ports- wireless devices – timer and counting devices – watchdog timer – real time clock – networked embedded systems – serial bus communication protocols – parallel bus device protocols-parallel communication network using ISA, PCI, PCI-X and advanced buses – Internet enabled systems–network protocols – wireless and mobile system protocols. UNIT-III PROGRAMMING CONCEPTS AND EMBEDDED PROGRAMMING IN , C++ AND JAVA : Software programming in assembly language (ALP) and in high-level language ‘C’ – C program elements: header and source files and preprocessor directives – macros and functions – data types, data structures, modifiers, statements, loops and pointers – object-oriented programming – embedded programming in C++, embedded programming in Java. UNIT-IV REAL-TIME OPERATING SYSTEMS: OS services – process management – timer functions – event functions – memory management – device, file and IO subsystems management – interrupt routines in RTOS environment and handling of interrupt source calls – real-time operating systems – basic design using an RTOS – RTOS task scheduling models, interrupt latency and response of the tasks as performance metrics – OS security issues. UNIT-V DESIGN EXAMPLES, CASE STUDIES OF PROGRAM MODELING AND PROGRAMMING WITH RTOS: Case Study of Embedded System Design and Coding for an Automatic Chocolate Vending Machine (Acvm) Using Mucos RTOS – Case Study of Digital Camera Hardware and Software Architecture – Case Study Of Coding For Sending Application Layer Byte Streams On A TCP/IP Network Using RTOS Vxworks. TEXT BOOKS 1.Rajkamal,”Embedded System-Architecture, Programming, Design’Tata Mc Graw Hill 2006. 2.Daniel W.Lewis’Fundamentals of Embedded Software’ Prentice Hall of India, 2004. REFERENCE BOOKS 1. David E Simon,” An Embedded Software Primer” person Education Asia, 2006. 2. Frank Vahid, Embedded System Design – A Unified hardware & Software Introduction John Wiley, 2002. 3. SriramV.Iyer,Pankaj Gupte,Embedded Real Time Systems Programming’Tata Mc Graw Hill, 2004. 4. Steve Heath,’ Embedded System Design’II edition, Elsevier, 2003.Architecture 5. Arnold Berger,” Embedded System Design: An Introduction to processes, Tools, and Techniques”, CMP Books, 2001. Contact Details: Bharathiar University Trichy Road, Ramanathapuram Coimbatore, Tamil Nadu 641046 090470 84999 more syllabus detail to atteched a pdf file........ |
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