Page 195 - University Bulletin
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EE332 Control Systems
Credits: 3 (3,1,0) Prerequisite: EE231, MATH223
Introduction to feedback control systems. Block diagram and signal flow graph representation.
Mathematical modeling of physical systems. Stability of linear control systems. Time-domain and
frequency-domain analysis tools and performance assessment. Lead and lag compensatory
design. Proportional, integral, and derivative control.
EE341 Electromagnetics Fundamental
Credits: 3 (3,1,0) Prerequisite: MATH215, MATH225, EE201
This module is designed to introduce the electromagnetic fields. Coulomb's law, Gauss's law,
electrical potential, dielectric materials capacitance, boundary value problems, Biot-Savart law,
Ampere's law, Lorentz force equation, magnetic materials, magnetic inductance, time varying
fields and Maxwell's equations.
EE351 Communication Systems
Credits: 4 (3,1,2) Prerequisite: EE211, EE231
In this course, we focus on signal transforms and continuous-wave modulation, which is the basic
operation of analog communication systems. Initially, we give the students an insight and
understanding of signals classifications, Fourier series, Fourier transform, spectrum analysis, and
explore their applications in the context of analog communication systems. We then cover
thoroughly amplitude modulation including the generation and reception of double-side band,
single side-band, and vestigial side-band. We also cover the angle modulations (phase and
frequency), the generation both the narrow and wide-band angle modulation.
EE403 Power Systems
Credits: 3 (3,1,0) Prerequisite: EE304
This course provides an introduction to power systems used in electrical engineering. Examples
include different types of generation systems, load flow studies and infinite bus systems with
exploring their applications in substations and power plants.
EE414 Electrical and Electronic Measurements
Credits: 3 (3,0,0) Prerequisite: Senior Level Standing
Introduction to fundamentals of EE: circuits, energy, communication, control, signal processing,
electromagnetics, electronics, and digital systems. Computational techniques, instrumentation,
and measurement, along with an introduction to technology and applications.
EE415 Opto-Electronics
Credits: 3 (3,0,0) Prerequisite: Senior Level Standing
The course is an introduction to the fundamentals of optoelectronics and principles of
optoelectronic device operation. Topics include electromagnetic theory, optical waveguides, light-
emitting devices, detectors, and modulators. The course also covers the optical and electro-optical
properties of semiconductors and low-dimensional semiconductor structures.
EE416 VLSI Circuits Design
Credits: 3 (3,0,0) Prerequisite: Senior Level Standing
This module provides an in-depth study of VLSI digital circuits design, covering combinational and
sequential circuits using CMOS technology and VHDL. It also introduces digital systems design
using FPGA.
183 PSU UNDERGRADUATE BULLETIN
