Courses | VD Academic Affairs
EE
334
EE
Description
Course Number:
0610334
Laboratory experiments related to 0610333 course content.
(0-3-1)
Prerequisites:
0610234
Corequisites:
0610333
EE
343
EE
Description
Course Number:
0610343
Magnetic circuits, mutual inductance, single-phase power transformers, synchronous generators, induction motor, and DC motors.
(3-0-3)
Prerequisites:
0610213
EE
345
EE
Description
Course Number:
0610345
Laboratory experiments related to 0610343 course content.
(0-3-1)
Prerequisites:
0610343
EE
350
EE
Description
Course Number:
0610350
AC power and the per unit system, determination of transmission line parameters, transmission line models in the transient and the steady state, power system modeling, power system Admittance matrix and network calculations, load flow solutions and control.
(3-0-3)
Prerequisites:
0600307 or 0600308,0610343
Corequisites:
0610345
EE
370
EE
Description
Course Number:
0610370
Features of feedback control systems, modeling of specific control systems examples, transfer functions, block diagram and signal flow graph, time domain analysis of control systems, stability of linear systems, basic control actions and response of control systems, root locus analysis and design, frequency domain analysis and design of control systems.
(3-0-3)
Prerequisites:
0610312
Corequisites:
0610374
EE
374
EE
Description
Course Number:
0610374
Laboratory experiments related to 0610370 course contents.
(0-3-1)
Corequisites:
0610370
EE
381
EE
Description
Course Number:
0610381
Introduction to communication Systems, signal spectral analysis, signal transmission and channel characterization, amplitude modulation (Analog), angle modulation (Analog), behavior of analog communication systems in the presence of noise, PCM and delta modulation schemes, introduction to digital communication systems.
(3-0-3)
Prerequisites:
0610312,0600304
EE
384
EE
Description
Course Number:
0610384
Laboratory experiments related to 0610381 course contents.
(0-3-1)
Corequisites:
0610381
EE
385
EE
Description
Course Number:
0610385
Discrete-time signals and systems. Sampling theorem. A/D and D/A conversions. Z-transform and LTI system analysis. Discrete Fourier Transform and Fast Fourier Transform (DFT, FFT). Circular convolution. Introduction to digital filters.
(3-0-3)
Prerequisites:
0610213
EE
410
EE
Description
Course Number:
0610410
The approximation theory, Passive Butterworth LP filter design, frequency band transformation and the design of Passive HP, BP and BE Butterworth filters, design of Passive Chebyshev LP, HP, BP and BE filters, design of inverse Chebyshev LP and HP filters, delay equalization, sensitivity analysis, active Filter Design with Operational amplifiers and their finite gain effects, bilinear and biquadratic transfer functions and their RC-op amp realizations, cascade realization of higher-order filters- Leap frog filters, synthetic L and FDNR Simulations.
(3-0-3)
Prerequisites:
0610233,0610234,0610312
EE
414
EE
Description
Course Number:
0610414
Laboratory experiments related to 0610475 course contents.
(0-3-1)
Prerequisites:
0610370,0610374
Corequisites:
0610475
EE
415
EE
Description
Course Number:
0610415
Laboratory experiments related to 0610416 course contents.
(0-3-1)
Corequisites:
0610416
EE
416
EE
Description
Course Number:
0610416
Digital signal processing of data - Data acquisition systems - Electrical sensors and transducers -- Analog and digital signal conditioning techniques - A/D and D/A converters - Signal multiplexing - Microprocessor based instrumentation - Noise sources.
(3-0-3)
Prerequisites:
0610333,0610334
EE
417
EE
Description
Course Number:
0610417
Properties of positive real functions, Foster's and Cauer's methods for LC-RC and RL networks, Brunei's impedance synthesis method, lossless two-port networks, Cauer's two-port method, transfer function, partial pole removal, zero shifting, the synthesis of doubly terminated reactance two-port network, transducer parameter H(s), relations between H(s) and Z or Y parameters, reactance ladder realization, approximation theory, Butterworth and Chebyshev approximations, design of filters.
(3-0-3)
Prerequisites:
0610213
EE
420
EE
Description
Course Number:
0610420
Retarded potentials, radiation from a short current element and linear wire antenna, antenna parameters, radiation from arbitrary current distribution, antenna impedance, arrays: uniform, binomial, Chebyshev, aperture-type antenna, receiving antenna, line of sight propagation, ground-wave propagation, ionospheric propagation.
(3-0-3)
Prerequisites:
0610- 320