Combined I and II Semesters, 2008 scheme (Common for all branches)

ELECTRICAL AND ELECTRONICS ENGINEERING

                           MODULE - I

Elementary concepts - Kirchoffs   laws -   Magnetic Circuits - MMF, field strength, flux density, reluctance -
problems in series magnetic circuits. Review of electromagnetic induction  - Faradays laws, Lenz's law  -
statically induced and dynamically induced emf - self and mutual induction - inductance.
Alternating current fundamentals - generation of alternating currents - waveforms - frequency - period - average
and rms values - form factor. Phasor representation of alternating quantities - rectangular polar and exponential
forms.

Analysis of simple ac circuits - concept of impedance and admittance - phasor representation - j notation -
power and power factor in ac circuits - active and reactive components. Solution of RL, RC and RLC series
circuits.

Three phase systems - generation of three phase voltage - star and delta connection - relation between phase and line values of voltage and current - phasor representation   - three wire and four wire systems.
Measurement of power   in   three phase circuits ( two wattmeter method).   Measurement of energy - working of 1-phase energy meter.

MODULE - II

Transformers - Principle of operation - EMF equation - constructional details of single phase and three phase transformers

Methods of bulk generation of electric power. Block schematic of layout of generating stations - hydroelectric, thermal and nuclear power plants. Renewable energy sources - solar, wind, tidal, wave and geothermal energy. Bulk transmission of electric power - typical electrical power transmission scheme - need for high transmission voltage - substations - substation equipments. Primary and secondary transmission and distribution systems
Different methods of wiring for LT installations. Schematic layout of LT switchboards. Earthing of installations - necessity of earthing - plate and pipe earthing. Protective fuses, MCBs, ELCBs and switches.

Working of incandescent lamps,   -fluorescent lamps, energy efficient lamps

                           

MODULE - III

Diodes - PN junction diodes,. V-I characteristics, dynamic & static resistance, principle of working and V-I characteristics of Zener diode, principle of Photo diode, Solar cell, & LED. Rectifiers & power supplies -  block diagram description of a dc power supply,   circuit diagram & working of half-wave & full wave   rectifier, final equations of Vrms, Vdc,   ripple factor and peak inverse voltage in each case, principle of working of series inductor and shunt capacitor filters. Working of simple zener voltage regulator. Power devices  -    V  - I characteristics and applications of SCR and Triac    Working principle of UPS and SMPS. Transducers  -
Resistance strain guage, thermistor, LVDT 

REFERENCES

1.   V.N. Mittle, “Basic Electrical Engineering”, Tata McGraw Hill, 1990.

2.   DP Kothari, LJ Nagrath, “Theory and Problems of Basic Electrical Engineering”, Prentice Hall of India,
        2000.

3.   B.L. Thereja, “A Text Book of Electrical Technology”, Volume I, S Chand & Co, New Delhi, 1992.

4.   Francis M Fernandez, “A Basic Course in Electrical Engineering”, Rajath Publishers, Ernakulam.

5.   TP Imthias Ahmed, B. Premlet, “Introduction to Electrical Engineering”, Phaser Books, Kollam

6.   Gopakumar, “Introduction To Electronics and Communications”, .Phasor Books, Kollam

7.   Millman and   Halkias, "Integrated Electronics: Analog and digital circuits and systems", McGraw-Hill
        Book Co

8.   Edward Hughes, “Electrical and Electronic Technology”, Pearson Education, 2002.

9.   ML Soni, PU Guptha, US Bhatnagar and A Chakrabarthy, “A Text Book on Power System Engineering”,
        Dhanpath Rai & Sons, New  Delhi 1997

10.  N.N.Bhargava, “Basic Electronics and Linear Circuits”, Tata McGraw Hill