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to view the 2005-2007 Undergraduate Catalog. - Lawrence ...
to view the 2005-2007 Undergraduate Catalog. - Lawrence ...
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C OLLEGE OF E NGINEERING<br />
EEE3231<br />
MICROPROCESSORS LAB<br />
Co-requisite: EEE3233. Study and<br />
design of assembly language and<br />
programming, hardware emulation,<br />
clock design and interface,<br />
input/output and memory design<br />
and interface. Design of a turnkey<br />
microcomputer system.<br />
Lab. 2 hrs. 1 hour credit<br />
EEE3233<br />
MICROPROCESSORS<br />
Prerequisite: EEE2213, EEE2114.<br />
Architecture, timing, instruction<br />
set, memory and input/output<br />
techniques for various microprocessors,<br />
design of a microcomputer<br />
system. Lect. 3 hrs.<br />
3 hours credit<br />
EEE3311 ELECTRONICS LAB<br />
Co-requisite: EEE3311.<br />
Experiments on power supplies<br />
voltage regula<strong>to</strong>rs, transis<strong>to</strong>r class<br />
A amplifiers, timers, simple operational<br />
circuits, active filters, sample<br />
and hold circuits are performed.<br />
Lab. 2 hrs., Lab fee.<br />
1 hour credit<br />
EEE3314 ELECTRONICS<br />
Prerequisite: EEE3123. Study and<br />
design of passive and active semiconduc<strong>to</strong>r<br />
devices, circuits, operational<br />
amplifiers, voltage compara<strong>to</strong>r<br />
circuits and non-linear circuits,<br />
design of power supplies,<br />
voltage regula<strong>to</strong>rs, and timers.<br />
Solid state semi-conduc<strong>to</strong>r materials<br />
and characteristics will be covered.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE3414<br />
ELECTROMAGNETIC<br />
FIELDS AND WAVES<br />
Prerequisite: PHY2423. Vec<strong>to</strong>r<br />
analysis. Electrostatics and magne<strong>to</strong>statics<br />
in free space. Fields in<br />
<strong>the</strong> presence of engineering materials.<br />
Time-varying fields and<br />
Maxwells equations. Plane electromagnetic<br />
waves. Transmission<br />
line <strong>the</strong>ory. Lect. 4 hrs.<br />
4 hours credit<br />
EEE3422 ADVANCED<br />
COMPUTER<br />
APPLICATION LAB<br />
Prerequisites: MCS3413,<br />
EEE3123, Co-requisite: EEE3313.<br />
Computation techniques for electrical<br />
engineering, including<br />
matrix methods and solution of<br />
differential and integral equations.<br />
Application of specialized programs<br />
for solving engineering<br />
problems. Use of computer simulation<br />
techniques. Lect. 1 hr.,<br />
Lab. 2 hrs. 2 hours credit<br />
EEE3511 INTRODUCTION TO<br />
ELECTRICAL SYSTEMS LAB<br />
Co-requisite: EEE3513. Electrical<br />
safety, measurement of single<br />
phase and three phase AC voltages,<br />
currents and power.<br />
Transformers, relays, <strong>to</strong>rque,<br />
power, and rotational speed.<br />
Lab 2 hrs. 1 hour credit<br />
EEE3513 INTRODUCTION<br />
TO ELECTRICAL SYSTEMS<br />
Prerequisite: EEE3123. Phasors,<br />
single phase AC power, three<br />
phase systems, three phase power,<br />
magnetic circuits, relays, transformers.<br />
Fundamentals of rotating<br />
machinery. National Electric<br />
Code, short circuit current calculations,<br />
fuses and circuit breakers.<br />
Lect. 3 hrs. 3 hours credit<br />
EEE4131 ELECTRICAL<br />
MACHINERY LAB<br />
Co-requisite: EEE4133. Electrical<br />
and rotating machine safety,<br />
measurement of current, power,<br />
<strong>to</strong>rque, and efficiency of DC<br />
machines, and synchronous<br />
machines. Determination of<br />
machine model parameters, chopper<br />
control of electric machines.<br />
Lab. 2 hrs. 1 hour credit<br />
EEE4133 ELECTRICAL<br />
MACHINERY<br />
Prerequisite: EEE3513, Co-requisite:<br />
EEE4131. Steady state and<br />
dynamic modeling of DC<br />
machines, induction machines,<br />
and synchronous machines.<br />
Power, <strong>to</strong>rque, loss mechanisms,<br />
efficiency. Power electronic control<br />
of electric machinery.<br />
Lect. 3 hrs. 3 hours credit<br />
U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7<br />
EEE4151 ELECTRIC<br />
DRIVES LAB<br />
Co-requisite: EEE4153. Electrical<br />
safety, measurement of current,<br />
power <strong>to</strong>rque, and efficiency of<br />
DC, induction, and synchronous<br />
machines. Determination of model<br />
parameters, chopper control of<br />
DC and AC mo<strong>to</strong>rs. Lab. 2 hrs.<br />
1 hour credit<br />
EEE4153 ELECTRIC DRIVES<br />
Prerequisite: EEE3513, Co-requisite:<br />
EEE4151. Electronic control,<br />
and both steady-state and dynamic<br />
modeling of DC mo<strong>to</strong>rs and genera<strong>to</strong>rs,<br />
induction mo<strong>to</strong>rs, and<br />
synchronous mo<strong>to</strong>rs and genera<strong>to</strong>rs.<br />
Power, <strong>to</strong>rque, loss mechanisms,<br />
and efficiency. Lect. 3 hrs.<br />
3 hours credit<br />
EEE4231<br />
MICROPROCESSORS 2 LAB<br />
Prerequisite: EEE3231, Co-requisite:<br />
EEE4233. Study and design<br />
of hardware aspects of computer<br />
technology, including memory,<br />
interface, and I/O circuitry, interrupt<br />
and exception pro<strong>to</strong>cols. The<br />
lab will include a major student<br />
project incorporating <strong>the</strong> principles<br />
studies in EEE4233.<br />
Lab. 2 hrs. 1 hour credit<br />
EEE4233<br />
MICROPROCESSORS 2<br />
Prerequisite: EEE3233, Co-requisite:<br />
EEE4231. A continuation of<br />
Microprocessors 1, emphasizing<br />
<strong>the</strong> hardware aspects of computer<br />
technology. Specific architectures<br />
studied include advanced Intel<br />
and Mo<strong>to</strong>rola processors, and various<br />
memory and I/O devices<br />
and strategies. Lect. 3 hrs.<br />
3 hours credit<br />
EEE4241 EMBEDDED<br />
SYSTEMS LAB<br />
Co-requisite: EEE4243. Program<br />
development using a microcontroller<br />
evaluation module board<br />
(EVB); design of experiments<br />
using an EVB development <strong>to</strong>ol;<br />
various I/O interfacing design<br />
examples. Term design project.<br />
Lab 2 hrs. 1 hour credit<br />
EEE4243 EMBEDDED<br />
SYSTEMS<br />
Prerequisite: EEE3233.<br />
Utilization of microcontrollers in<br />
design of instruments and embedded<br />
controllers. Description of onchip<br />
resources, programming<br />
framework, parallel I/O, main<br />
timer and real-time interrupt,<br />
pulse accumula<strong>to</strong>r, A/D converter<br />
and serial communication subsystems.<br />
Interfacing techniques.<br />
Lect. 3 hrs. 3 hours credit<br />
EEE4253 COMPUTER<br />
ARCHITECTURE I<br />
Prerequisite: EEE3233. Analysis<br />
of state machines. CPU design<br />
with consideration for data flow,<br />
I/O, and ALU. Basic computer<br />
architecture classifications.<br />
Memory systems including memory<br />
cache and virtual memory<br />
design. Pipeline design techniques.<br />
RISC and CISC computer<br />
architectures. Selected 8, 16, 32,<br />
and 64 bit microprocessor chips.<br />
Lect. 3 hrs. 3 hours credit<br />
EEE4261 COMPUTER<br />
NETWORKING<br />
LABORATORY<br />
Co-requisite: EEE4263. Local<br />
asynchronous communication;<br />
extending LANs-modems,<br />
repeaters, bridges, switches; packer<br />
switches; service paradigms;<br />
pro<strong>to</strong>cols and layering; binding<br />
pro<strong>to</strong>col addresses; networking<br />
management software; network<br />
security, filtering, firewalls.<br />
Lab. 2 hrs. 1 hour credit<br />
EEE4263 COMPUTER<br />
NETWORKING<br />
Prerequisites: EEE2114,<br />
EEE3223. Local asynchronous<br />
communication; extending LANsmodems,<br />
repeaters, bridges;<br />
switches; packet switches; service<br />
paradigms; pro<strong>to</strong>cols and layering;<br />
binding pro<strong>to</strong>col address; network<br />
management software; network<br />
security-filtering and firewalls.<br />
Course contains lecture and labora<strong>to</strong>ry<br />
sections. Lect. 3 hrs.<br />
3 hours credit<br />
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