course contents - ug - National Institute of Technology Karnataka
course contents - ug - National Institute of Technology Karnataka
course contents - ug - National Institute of Technology Karnataka
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NATIONAL INSTITUTE OF TECHNOLOGY KARNATAKA, SURATHAKAL<br />
-----------------------------------------------------------------------------------------------------------------analysis.<br />
Discrete-time systems: sampling, quantization, ZOH, properties <strong>of</strong> discrete-time systems,<br />
constant coefficient difference equations. Z transform: definition and properties, inverse Z transform,<br />
transfer function, application <strong>of</strong> Z transforms to discrete-time systems, relation between s-plane and zplane.<br />
Digital control system: Effect <strong>of</strong> sampling on system stability, transient response and steady state<br />
error.<br />
B.C.Kuo, Automatic Control Systems, PHI, 1995.<br />
K.Ogata, Modern Control Engineering, Pearson Education, 2002<br />
K.Ogata, Discrete -Time Control Systems, Pearson Education Asia, 1995<br />
R.C. Dorf and R.H. Bishop, Modern Control Systems, Pearson, 2008<br />
EC264 ANALOG ELECTRONICS LAB (0-0-3) 2<br />
Design with RC circuits � AC analysis � Frequency response <strong>of</strong> First order RC Low pass filter and First<br />
order RC High pass filter; Transient analysis � Pulse shaping using RC circuits<br />
Clipping circuits, Clamping circuits; Design <strong>of</strong> full wave rectifier; Biasing transistors - BJT<br />
MOSFET Current Mirror � Basic and Cascode; RC coupled amplifier- using BJT and MOSFET<br />
Class AB push-pull amplifier; Design Project<br />
EC265 MICROPROCESSOR LAB (0-0-3) 2<br />
Programming exercises, Study <strong>of</strong> interfacing / peripheral chip and related experiments, Study <strong>of</strong> BIOS/<br />
DOS utilities; Design Project<br />
EC290 SEMINAR (0-0-2) 1<br />
EC310 LINEAR INTEGRATED CIRCUITS (3-1-0) 4<br />
Operational Amplifier & its linear applications: Ideal characteristics, non-inverting amplifier, voltage<br />
follower, inverting amplifier, summing amplifier, current steering DAC, Difference amplifiers, voltage to<br />
current converters. Filters : First and second order filter transfer function, Butterworth response, 2 nd order<br />
passive filters (RC, RLC), Emulation <strong>of</strong> inductor using opamps-R-C, Salen-Key biquad, Tow-Thomas<br />
biquad, Realization <strong>of</strong> higher order filters, All-pass filter. Non-linear application <strong>of</strong> opamps : Zerocrossing<br />
detector, Schmitt trigger (inverting & non inverting), astable multivibrator, Triangular wave<br />
generator, Precision rectifiers. Non idealities <strong>of</strong> opamps and their effects. NE555 Timer circuit : Internal<br />
architecture, Schmitt trigger, astable multivibrator, monostable multivibrator, saw-tooth wave generator.<br />
Compensation in amplifiers: Dominant pole compensation. Noise & Distortion in amplifiers : Types <strong>of</strong><br />
noise, Noise representation, Noise in different circuits, Noise bandwidth, Distortion in amplifiers,<br />
Intermodulation, IIP3, Dynamic range . PLL, VCO, Voltage Regulator ICs .<br />
Sergio Franco, Design with OPAMPS and Linear Integrated circuits, Tata McGraw Hill, 2002.<br />
Sedra and Smith, Microelectronics Circuits, Oxford Univ. Press, 2004<br />
Co<strong>ug</strong>hlin, Driscoll, OP-AMPS and Linear Integrated Circuits, Prentice Hall, 2001.<br />
Carson Chen, Active Filter Design, Hayden, 1987<br />
EC311 ANTENNAS AND PROPAGATION (3-1-0) 4<br />
Fundamentals <strong>of</strong> Antennas, Radiation Mechanism, Vector potential functions, Electric and magnetic<br />
fields for electric and magnetic current sources solution <strong>of</strong> vector potential wave equation. Duality,<br />
Reciprocity and reaction theorems, Linear Wire and loop antennas, Circular, square, Triangular,<br />
Rectangular, Rhombic and Ferrite loop antennas, Antenna Arrays, Travelling wave and broad band<br />
antennas, Aperture, Reflector and lens antennas, Babinets�s principles, Sectoral pyramidal and conical<br />
horns, parabolic and cassegrain reflector antennas, lens antennas, Propagation <strong>of</strong> Electro-magnetic waves.<br />
C.A Balanis, Antenna Theory, John Wiley, 1996.<br />
J.D.Krauss, Antenna, McGraw Hill, 2001.<br />
R.S.Elliot, Antenna Theory and Design, Prentice Hall International, 2006<br />
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