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20th September 2014, 10:33 AM
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Join Date: Apr 2013
Re: Mahatma Gandhi University EIE Syllabus

Here I am providing the detailed syllabus of EIE of Mahatma Gandhi University.
Semester -3
Engineering Mathemetics-II
Network Theory
Electrical Technology
Solid State Devices
Electronics Circuits-I
Computer Programming
Electrical Lab

Semester-4
Basic Electronics Lab
Engineering Mathemetics-III
Digital Electronics & Logic Design
Communication Engineering-I
Electronic Circuit-II
Signals & Systems
Reliability & Humanities
Electronic Circuits Lab
Computer Programming Lab

Semester-5
Engineering Mathematics-IV
Electronic Instrumentation
Transducer Engineering
Control Systems I
Linear Integrated Circuits
Microprocessors & Microcontrollers
Linear & Digital IC Lab
Transducers & Measurements Lab

Semester-6
Industrial Management & Economics
Industrial Electronics & Applications
Digital Signal Processing
Process Instrumentation I
Process Control
Control system II
Instrumentation Lab-I
Mini Project

Semester-7
Process Instrumentation II
Analytical Instrumentation
Data Acquisition &Communication
Computer Control of Process
Biomedical Instrumentation
Elective-I
Microprocessor & Microcontroller
Instrumentation Lab II
Project Design & Seminar

Semester-8
Computer Networks
Analysis and Design of Instrumentation Systems
Advanced Microprocessors
Fibre Optics & Laser Instrumentation
Elective-II
Elective-III
Process Control Lab
Project & Seminar
Viva voce

Module 1
Complex Integration: Line Integral –Cauchy’s integral theorem- Cauchy’s integral formula-Taylor’s
series-Laurent’s series- zeros and singularities- Residues- residue theorem-Evaluation of real
integrals using contour integration involving unit circle and semicircle.

Module 2
Numerical solution of algebraic and transcendental equations: Successive bisection method-Regula
falsi method - Newton –Raphson method – solution of system of linear equations by Jacobi’s iteration
method and Gauss-Siedel method.


Module 3
Numerical solution of ordinary differential equation: Taylor’s series method- Euler’s method –
Modified Eulers method - Runge – Kutta method (IV order)-Milne’s predictor corrector method.


Module 4
Z – Transforms: Definition of Z transform- properties –Z transform of polynomial functions –
trigonometric functions, shifting property, convolution property- inverse transform – solution of 1st &
2nd order difference equations with constant coefficients using Z transforms.


Module 5
Linear programming: graphical solution – solution using simplex method (non – degenerate case
only) – Big-M method, two phase method- Duality in L.P.P.- Balanced T.P. – Vogels approximation
method – Modi method.


References
1. Advanced Engineering Mathematics – Ervin Kreyszig, Wiley Eastern limited.
2. Numerical methods in Engineering & Science – Dr. B.S.Grewal, Kanna Publishers.
3. Higher Engineering Mathematics - Dr. B.S.Grewal, Kanna Publishers.
4. Numerical methods in Science & Engineering - Dr. M.K.Venkitaraman, National Publishing
Company.
5. Quantitative techniques Theory & Problems - P.C.Tulsian, Vishal Pandey, Pearson Education Asia.
6. Complex variables and applications - Churchill and Brown, McGraw-Hill.
7. Operations research - Panneer Selvam, PHI.
8. Engineering Mathematics Vol. III-S Arumugam, A.T.Isaac, A.Somasundaram, Scitech Publications
9. Advanced Mathematics for Engg. Students Vol. III- S.Narayanan, T.K.M.Pillay, G.Ramanaigh,
S.Vishwananthan Printers & Publishers
2

Module 1
Generalised instrumentation system – Units and standards- Calibration methods- Standards of
measurement- Classification of errors- Error analysis.
Static characteristics – Accuracy, precision, sensitivity, linearity, resolution, hysteresis, threshold,
input impedance, loading effect etc. – Dynamic characteristics.


Module 2
Electronic analog meters: DC voltmeters- Loading- Transfer volt meter- Chopper type- DC amplifier
voltmeter- Solid state voltmeter – Differential voltmeter – Peak responding voltmeter – True RMS
voltmeter – Calibration of DC instrument.
Digital voltmeter: – Introduction – Ramp technique – Dual slope - Integrating type DVM –
Successive approximations type DVM – Resolution and sensitivity of digital meters – General
specifications of a DVM.


Module 3
Analog instruments – Output power meters – Field strength meter - Phase meter – Vector impedance
meter – Q meter – LCR bridge – Rxmeters – Automatic bridges – Transistor tester – Analog pH
meter.
Digital instruments:– Digital multimeters – Digital frequency meter – Digital Measurement of time –
Universal counter – Electronic counter – Digital Tachometer – Digital pH meter – Digital phase
meter – Digital capacitance meter – Automation in digital instrument – Microprocessor based
instruments – Digital instruments with GPIB interface.

Module 4
Signal generators: – Fixed and variable AF oscillators – AF sine and square wave generator. Function
generator – Square and pulse generator – Random noise generator – Sweep generator – TV sweep
generator – Marker generator – Sweep marker generator. Wobbiscope Video pattern generator –
Colour bar generator – Vectroscope – Beat frequency oscillator (BFO) – frequency selective wave
analyser – Heterodyne wave analyser – Harmonic distortion analyser – Spectrum analyser – Digital
fourier analyser.


Module 5
Measuring instruments :- Principle of operation of galvanometers, PMMC, Moving iron instrument -
Resistance measurement using Wheatstone bridge, Kelvin double bridge, Ohm meters AC bridges:
Maxwell bridge - Maxwell wien bridge - Hey’s bridge- Schering bridge- Anderson bridge- Campbell
bridge.


References
1. Albert.D.Hellfrick, William Cooper: Modern Electronic Instrumentation & Measurments
Techniques, Prentice Hall of India Ltd-2003
2. Oliver.B.H & Cag.J.M.: Electronic Measurements & Instrumentation, McGrawHill-1992
3. Sawhney A. K: A course in Electrical and Electronic Measurements and Instrumentation,
Dhanapat Rai and Sons, New Delhi, 1995.
4. H.S.Kalsi: Electronic Instrumentation, Tata McGraw Hill, 1999
5. David Buchla, Wayne Melachlan: Applied Electronic Instrumentation& Measurements,
Prentice Hall-1992
6. A.J.Bouwens: Digital Instrumentation, Tata McGrawHill
7. Rangan, C.S.Sharma: Instrumentation Devices & Systems, Tata McGrawHill
3

Module 1
Definition of transducers- classification of transducers - passive transducers: principle of operation- construction details- characteristics and applications of passive electrical transducers- resistance
potentiometers- strain gauges – resistance thermometers- thermistors - hot wire anemometer- resistive pressure transducers - Induction potentiometer- variable reluctance transducers- LVDT- capacitive transducers- variable air gap type- variable area type – variable permittivity type- capacitor
microhone.


Module 2
Active transducers : Construction – Operation and features of active electrical transducers – Thermo
electric transducers- Piezo electric transducers – Magnetosritic transducers- Hall effect transducers –
Electro mechanical transducers – Photo electric transducers.
IC sensor for temperature and pressure-Smart sensor – Intelligent sensors- Humidity sensor- Electro
optic sensors.


Module 3
Digital transducers: Construction –Operation and features of digital transducers – Digital
displacement transducer –Frequency domain transducers – Digital encoder- Magnetic encoder-
Digital pots and tacho meters- Transducer oscillators – Rotational displacement transducer-
Introduction to fibre optic transducers- Eddy current transducers – Photo resistor-Pyro electric
radiation detectors.


Module 4
Cathode Ray Oscilloscope : – Basic Principle – CRT features – Block diagram of oscilloscope –
simple CRO – High frequency CRT or Travelling wave type CRT – Dual beam CRO – Dual trace
oscilloscope – Special types of CRO – Sampling oscilloscope – Storage oscilloscope – Digital
readout oscilloscope – Digital storage Oscilloscope (DSO) – Fiberoptic CRT recording oscilloscope –
Typical measurements using CRO – Standard specifications of a single beam CRO – Probes for CRO
– Applications of oscilloscope.


Module 5
Display devices- Classification of displays- LED’s in direct and indirect band gap materials- Typical
uses of LED’s- Liquid Crystal Displays- Theory of LCD operation-Typical uses of LCD’s.
Recorders:- Strip chart recorders - Galvanometric recorders- Null type recorder-Circular chart
recorder-X-Y recorder-UV recorder- Magnetic recorder-Direct recording- FM recording-Digital data
recorders- Digital memory waveform recorder(DWR)- Electro mechanical recorders.


REFERENCES
1. Doebelin, E.O., Measurement Systems, McGraw Hill Book Co., 1998.
2. Patranabis, D, Sensors and Transducers, Wheeler Publishing Co., Ltd. New Delhi, 1997
3. Albert.D.Hellfrick, William Cooper: Modern Electronic Instrumentation & Measurments Techniques,
Prentice Hall of India Ltd-1992
4. Murthy, D.V.S., Transducers and Instrumentation, Prentice Hall of India Pvt. Ltd., New Delhi, 1995.
5. Renganathan, S., Transducer Engineering, Allied Publishers, Chennai, 1999.
6. Alan S Morris: Principles of Measurement and Instrumentation, PHI 1993.
7. B.S. Sonde, Transducers and display systems, Tata McGraw Hill, New Delhi 1979.


For detailed syllabus , here is the attachment
Attached Files
File Type: pdf Mahatma Gandhi University EIE Syllabus.pdf (149.3 KB, 134 views)


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