ELECTRICAL ENGINEERING /97


EEL 5182-State Variable Methods in Linear Systems (3) Prereq:
EEL 3135. Linear algebra and state variable methods for design
and analysis of discrete and continuous linear systems.
EEL 5218-High Voltage DC Transmission Systems (3) Prereq:
introductory course in electric power. Line-commutated con-
verter analysis, rectifier and inverter controls, system protection,
harmonics, supplementary controls, and multiterminal operation.
EEL 5219-Analysis of Power Transmission Lines (3) Prereq: EEL
3211, MAS3114 or equivalents. Calculation of multiphase trans-
mission line parameters for typical power line configurations.
Modal analysis of wave propagation. Line models and computer
applications for transient analysis.
EEL 5268-Control of Electric Energy Systems (3) Prereq: EEL
4213 or equivalent. Voltage, frequency, and power control in
normal and emergency system states. Effects of channel crosscou-
pling. Dynamic modeling with emphasis on simplified model
versions.
EEL 5317C-Introduction to Power Electronics (4) Prereq: EEL
3304,3396; coreq: EEL 4657. Components and circuits for power
applications. Switched-mode power supplies.
EEL 5320-Bipolar Analog IC Design (3) Prereq: EEL 3304.
Amplifier stages, active loads, output stages, op-amps, feedback,
frequency response, compensation.
EEL 5322-VLSI Circuits and Technology (3) Prereq: EEL 3396,
3304. Introduction to VLSI circuit technology and manufacturing.
Fabrication, device models, layout, parasitics, and simple gate
circuits.
EEL 5352-Introductory Quantum Theory for Semiconductors
(3) Prereq: EEL 3396 and 3472 or equivalent. Old quantum
theory, operators, Dirac notation, crystals, band structure, quasi-
classical electron and hole dynamics.
EEL 5370-Applied Electronics (3) Modern communication cir-
cuits.
EEL 5441-Fundamentals of Photonics (3) Prereq: EEL 3472 and
3396. Review of electromagnetic fields and waves, energy bands
in semiconductors, p-n junctions and optical properties of semi-
conductors. Fundamentals of optical modulators and switches,
laser theory, laser characteristics, photodetectors, optical
waveguides, and photonic applications.
EEL 5485-Applied Magnetics (3) Introduction to the design and
use of magnetic components. Piecewise linear modeling. Induc-
tors, dc to dc converters, tape recording, and magnetic bubble
technology.
EEL 5490-Lightning (3) Prereq: EEL 3472. Introduction to light-
ning discharge processes. Electromagnetics relevant to lightning
measurements. Applications for determining lightning charge,
current, location, and characteristics. Lightning protection.
EEL 5544-Noise in Linear Systems (3) Passage of electrical noise
and signals through linear systems. Statistical representation of
random signals, electrical noise, and spectra.
EEL 5547-Introduction to Radar (3) Prereq: EEL 4516 or 5544.
Basic principles of cw and pulsed radar; angle, range, and doppler
tracking; accuracy and resolution; signal design.
EEL 5631-Digital Control Systems (3) Prereq: EEL 3701, 4657.
A study of the digital computer as a control element, classical
sampled data control theory, and application with microcompu-
 ters.
 EEL 5718C-Computer Communications (3) Prereq: EEL 4514.
 Design of data communication networks: modems, terminals,
 error control, multiplexing, message switching, and data concen-
 tration.
 EEL 5719-Digital Filtering (3) Analysis and design of digital
 filters for discrete signal processing; spectral analysis; fast Fourier
 transform.
 EEL 5745C-Microcomputer Hardware and Software (4) Prereq:
 EEL 3701 andEEL 3304 or3003. Functional behavior of micropro-
 cessors, memory, peripheral support integrated circuit hardware;
 microcomputer system and development software; applications.
 EEL 5761-Hardware-Software Interactions: Time Sharing Sys-
 tems (3) Prereq: EEL 4744C or 4712C. Resource sharing and
 allocation, I/O, and I/O interfaces within context of time sharing
 computer architecture.
 EEL 5830-Human-Computer Interaction (3) Prereq: EEL 3701.
 Designing human-computer interfacing; cognition, perception,
 sensing, displays, speech, dialogs, and graphics.


EEL 5840-Elements of Machine Intelligence (3) Engineering and
hardware concepts pertaining to design of intelligent computer
systems.
EEL 5905-Individual Work (1-4; max: 6) Prereq: consent of
adviser. Selected problems or projects.
EEL 5934-Special Topics in Electrical Engineering (1-3; max: 8)
EEL 6134-Nonlinear Control Systems (3) Prereq: EEL 5182.
Introduction to nonlinear control; mathematical foundations of
nonlinear controls. Poincare-Bendixson theory; Liapunov theory;
input/output theory of nonlinear systems; internal stability; topics
in modern nonlinear control.
EEL 6171-Advanced System Theory (4) Structural analysis of
linear dynamical systems. Invariance, F and G invariance, con-
strained reachability, pole assignment and stability, advanced
topics in linear algebra useful in mathematical system theory.
EEL 6200-Advanced Analysis of Electric Machines (3) Prereq:
EEL 3211, MAS 3114 or equivalents. Principles of electrome-
chanical energy conversion, reference frame theory, analysis and
modeling of AC and DC machines, state variable formulation of
systems with electromechanical devices.
EEL 6264-Advanced Electric Energy Systems I (3) Prereq: EEL
5268 or consent of instructor. Energy systems planning and
operation with emphasis on advanced analysis methodologies
and computer simulation.
EEL 6265-Advanced Electric Energy Systems II (3) Prereq: EEL
6264. Continuation of EEL 6264 with additional emphasis given
to the new electric energy technologies.
EEL 6311 -Electronic Circuits 1 (3) Prereq: required undergradu-
ate electronics and control sequences. Analysis and design of
operational amplifier circuits, other topics in electronic circuit
design.
EEL 6312-Electronic Circuits II (3) Prereq: EEL 5320 or 6311.
Design of active circuits, analysis and design of phase-locked
loops, and frequency synthesizers.
EEL 6321-MOS Analog IC Design (3) Prereq: EEL 5320 or6311.
Design of analog circuits in CMOS IC technology. MOS switches,
MOS op amp circuits, circuit simulation using SPICE.
EEL 6323-Advanced VLSI Design (3) Prereq: EEL 5322. Ad-
vanced very large scale integrated circuit design, testability, and
performance evaluation. Useof industrial VLSI software. Building
an advanced CMOS VLSI circuit.
EEL 6324-Silicon Fabrication Processes (3) Prereq: EEL 5322.
Advanced modeling of physics of silicon fabrication. Lithography,
deposition, etching, oxidation, implantation, and diffusion. Ori-
ented toward silicon device fabrication.
EEL 6325-Computer Simulation of Integrated Circuits and
Devices (3) Prereq: graduate standing. Basic methods of numeri-
cal simulation of semiconductor devices and electronic circuits,
with reference to PISCES and SPICE. PDE discretization; numeri-
cal integration, Newton/iterative linearization, linearized system
solution.
EEL 6328-Microwave IC Design (3) Fundamentals of micro-
wave integrated circuit design. Use of computer software to
design simple microwave circuits. Microwave circuit testing.
EEL 6354-Device-Related Solid State Physics (3) Prereq: con-
sent of instructor. Recombination mechanisms and recombina-
tion statistics; tunneling and thermionic emission in various
semiconductor contexts; effective-mass theory and the dynamics
of electrons in crystals. Efficiencies of energy conversion.
 EEL 6381-Network Representation of Solid-State Devices (3)
 Prereq: graduate standing. Relationship between dynamic large-
 and small-signal equivalent circuit models and the physical
 mechanisms governing device operation. Special attention given
 to approximations and methods of reasoning. Emphasis on large-
 signal, dynamic models for MOS bipolar transistors and related
 devices.
 EEL 6382-Semiconductor Physical Electronics I (3) Crystal
 structures; imperfections; statistics; lattice dynamics; energy band
 theory. Equilibrium properties of electrons and holes in semicon-
 ductors. Electronic transport phenomena. Boltzmann's equation
 and transport coefficients in semiconductors.
 EEL 6383-Semiconductor Physical Electronics II (3) Prereq: EEL
 6382. Scattering mechanisms. Recombination-generation and
 trapping processes; optical properties. Excess carrier phenomena.
 Photoelectric effects in semiconductors. Metal-semiconductor