Untitled - University of New Orleans
Untitled - University of New Orleans
Untitled - University of New Orleans
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and including a final design project, to accompany and complement<br />
the lecture course ENEE 3583. Three hours <strong>of</strong> laboratory.<br />
ENEE 3516 Engineering Electronics Lab I<br />
1 cr.<br />
Prerequisite: Concurrent registration in ENEE 3540. Selected experiments<br />
to accompany the lecture course ENEE 3540. This laboratory<br />
must be taken at the same time as ENEE 3540. Three hours <strong>of</strong><br />
laboratory.<br />
ENEE 3517 Engineering Electronics Lab II<br />
1 cr.<br />
Prerequisite: Concurrent registration in ENEE 3543. Selected experiments<br />
to accompany the lecture course ENEE 3543. This laboratory<br />
must be taken at the same time as ENEE 3543. Three hours <strong>of</strong><br />
laboratory.<br />
ENEE 3518 Electrical Engr Laboratory<br />
1 cr.<br />
Offered each semester and summer session. Prerequisite: credit or<br />
registration in ENEE 3501. A laboratory in basic electronics, instrumentation,<br />
and electric power devices for students not majoring in<br />
electrical engineering. Three hours <strong>of</strong> laboratory.<br />
ENEE 3521 Electric Machinery<br />
3 cr.<br />
Prerequisite: ENEE 2551. Introduction to the theory <strong>of</strong> electromechanical<br />
energy conversion with special application to the theory<br />
and operation <strong>of</strong> electrical machines and machine control<br />
systems.<br />
ENEE 3522 Elec Power Systems<br />
3 cr.<br />
Prerequisite: ENEE 2551. Introduction to industrial and utilities electric<br />
power systems, poly-phase systems, fault conditions, per-unit<br />
values, and the method <strong>of</strong> symmetrical components.<br />
ENEE 3530 Cont & Discrete Sig Syst Analy<br />
3 cr.<br />
Prerequisite: ENEE 2551 and MATH 2511 and 2221. Fundamental techniques<br />
for the analysis <strong>of</strong> electrical and electronic signals and<br />
systems are introduced and include: signal representation, Fourier<br />
series, Fourier transform, Laplace transform, discrete Fourier transform,<br />
and the Z-transform. Emphasis will be placed on the application<br />
<strong>of</strong> the above techniques to engineering problems.<br />
ENEE 3533 Classical Control Sys Design<br />
3 cr.<br />
Prerequisites: ENEE 3530. Design <strong>of</strong> control systems using classical<br />
frequency response and Laplace transforms techniques; analysis<br />
and design <strong>of</strong> servo-systems using Nyquist, Bode, and root-locus<br />
diagrams; design criteria, system stability, frequency, and time<br />
response. State variable feedback.<br />
ENEE 3535 Communication System Design<br />
3 cr.<br />
Prerequisites: ENEE 3530 and concurrent registration in ENEE 3574.<br />
Design, characterization, and selection <strong>of</strong> communication methods<br />
and systems.<br />
ENEE 3540 Engineering Electronics<br />
3 cr.<br />
Prerequisite: ENEE 2551 and concurrent registration in ENEE 3516.<br />
The characteristics <strong>of</strong> modern solid-state non-linear and active<br />
devices, representative circuit models, and the analysis and design<br />
<strong>of</strong> typical circuits using these devices. The accompanying laboratory,<br />
ENEE 3516, must be taken with this course.<br />
ENEE 3543 Engineering Electronic Systems<br />
3 cr.<br />
Prerequisite: ENEE 3540 and concurrent registration in ENEE 3517.<br />
Use <strong>of</strong> solid-state devices as basic system building blocks. Multistage<br />
amplifiers, feedback amplifiers, stability and oscillators, analog<br />
systems, power circuits and systems. The accompanying laboratory,<br />
ENEE 3517, must be taken with this course.<br />
ENEE 3547 Digital Integrated Cir Design<br />
3 cr.<br />
Prerequisites: ENEE 2582, 2586, and 3540. Study <strong>of</strong> characteristics<br />
<strong>of</strong> bipolar and CMOS logic gates and design techniques for digital<br />
integrated circuits.<br />
ENEE 3560 Engineering Electromagnetics I<br />
3 cr.<br />
Offered each semester. Prerequisites: MATH 2115, MATH 2221, and<br />
ENEE 2551. Electrostatics and magnetostatics and their applications<br />
to analysis and design in various fields <strong>of</strong> electrical engineering.<br />
Formulation <strong>of</strong> Maxwell’s equation for electromagnetic fields in<br />
free space and in material media. The wave equation and planewave<br />
propagation.<br />
ENEE 3561 Engineering Electromagnetic II<br />
3 cr.<br />
Prerequisite: ENEE 3560. Maxwell’s equations for time-varying<br />
electromagnetic fields and their applications; wave propagation<br />
through different media; design <strong>of</strong> transmission lines and waveguides;<br />
introduction to electromagnetic radiation; and antennas.<br />
ENEE 3572 Prob Meth Signal Sys Analysis<br />
3 cr.<br />
Prerequisites: ENEE 3530. The fundamentals <strong>of</strong> probability theory<br />
are introduced. Application <strong>of</strong> probability theory to signal and<br />
system analysis is considered and includes correlation functions,<br />
spectral density, linear system response to random input signals,<br />
and system parameter optimization.<br />
ENEE 3574 Communication Sys Design Lab<br />
1 cr.<br />
Prerequisites: concurrent registration in ENEE 3535. Selected experiments<br />
examining fundamental performance and design concepts<br />
<strong>of</strong> modulation systems, including a design project. Three hours <strong>of</strong><br />
laboratory.<br />
ENEE 3575 Voice Video Telecomm System<br />
3 cr.<br />
Prerequisites: CSCI 1201, MATH 2108, and 2111, or consent <strong>of</strong> the<br />
department. Fundamental concepts <strong>of</strong> telecommunication voice<br />
and video systems are presented including telephony and video<br />
fundamentals, standards organizations and regulations, subscriber<br />
loop, trunk and feeder link technology, private branch exchange<br />
and central <strong>of</strong>fice techniques, voice digitization methods, modulation<br />
and multiplexing schemes, signal transport methods, and video<br />
compression approaches. Additional topics cover current trends in<br />
telecommunications.<br />
ENEE 3582 Digital Design Using Micros<br />
3 cr.<br />
Prerequisite: ENEE 2582, ENEE 2586, and concurrent registration in<br />
ENEE 3512. The design <strong>of</strong> microcomputer based systems including<br />
both hardware and s<strong>of</strong>tware considerations.<br />
ENEE 3583 Computer System Design<br />
3 cr.<br />
(ENEE 3583 and CSCI 4302 are cross-listed) Prerequisites: Credit or<br />
registration in ENEE 3582 and ENEE 3512, or credit in CSCI 3301 and<br />
3401, or consent <strong>of</strong> department. Concurrent enrollment in ENEE<br />
3514 is required for students in the Computer Engineering Concentration.<br />
The design process <strong>of</strong> digital computer systems is studied<br />
from the instruction set level, system architecture level, and digital<br />
logic level. Topics include machine organization, register transfer<br />
notation, processor design, memory design, and input/output considerations.<br />
Includes semester project.<br />
ENEE 3587 Microcomputer Interfacing<br />
3 cr.<br />
Prerequisites: ENEE 3582. The design <strong>of</strong> microcomputer based<br />
systems including both hardware and s<strong>of</strong>tware considerations.<br />
Includes laboratory work and a semester project. Design projects<br />
with both written and oral reports will be required.<br />
ENEE 3900 Senior Honors Thesis<br />
1-6 cr.<br />
Prerequisites: admission to the Honors Program and consent <strong>of</strong> the<br />
director <strong>of</strong> the Honors Program and the chair <strong>of</strong> the department.<br />
Senior-level research and/or design project in electrical engineering.<br />
Thesis and oral examination required. May be repeated for<br />
credit with total hours no to exceed six.<br />
<strong>University</strong> <strong>of</strong> <strong>New</strong> <strong>Orleans</strong>/233