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ELECTRICAL ENGINEERING TECHNOLOGY (ETEE)
ETEE 1101. Electronics Lab I. (1) Prerequisite or corequisite:
ETEE 1123. Experiments that support the concepts and practices
covered in ETEE 1123. Three laboratory hours per week.
ETEE 1123. DC Circuit Analysis. (3) Prerequisite or
corequisite: MATH1100. This course is an introduction to DC
electricity with an emphasis on circuit analysis and measurements.
Topics include DC principles, circuit analysis laws and theorems,
components, and test equipment operation.
ETEE 1201. Electronics Lab II. (1) Prerequisite or
corequisite: ETEE 1223 and ETEE 1213. Experiments that support the
concepts and practices covered in ETEE 1223 and ETEE 1213. Three
laboratory hours per week.
 ETEE
1213. Digital Circuits I. (3) Prerequisite: ETEE 1123. An
introductory course in digital concepts, number systems, logic
gates, Boolean algebra and combinational logic. Introduction to
logic programming. Introduction to digital circuit technologies.
ETEE 1223. AC Circuit Analysis. (3) Prerequisite: ETEE
1123. Corequisite: MATH 1103. This course introduces AC
electricity with an emphasis on circuit analysis, measurements, AC
principles, circuit analysis laws and theorems, components and
test equipment operation.
ETEE 2101. Electronics Lab III. (1) Prerequisite or
corequisite: ETEE 2113. Experiments that support the concepts and
practices covered in ETEE2113 (Electronic Devices): Introduction
to semiconductor based devices with an emphasis on analysis,
selection, biasing and applications in power supplies, small
signal amplifiers, and switching and control circuits. Three
laboratory hours per week.
ETEE 2113. Electronic Devices. (3) Prerequisite: ETEE 1223
and MATH1103. This course is an introduction to
semiconductor-based devices such as diodes, bipolar transistors,
FETs, thermistors, and related components. Emphasis is placed on
analysis, selection, biasing, and applications in power supplies,
small signal amplifiers, and switching and control circuits.
ETEE 2122. Electronic Drafting and Design. (2)
Prerequisite: ETEE 1223. Corequisite: ETEE 2113. This course
introduces computer-aided drafting (CAD) with an emphasis on
application in the electronics field. Topics include electronics
industry standards (symbols, schematic diagrams, layouts); drawing
electronic circuit diagrams; electronic drafting practices and
components such as resistors, capacitors, and ICs. Topics include
editing, screen capturing, and cutting/pasting into reports.
ETEE 2133. Digital Circuits II. (3) Prerequisite: ETEE
1213. Design and application of sequential circuits including
flip-flops, counters, registers, and their interactions as state
machines. Introduction to the architecture of microprocessors.
Introduction to digital signal processing.
ETEE 2143. Introduction to Electrical Power Systems. (3)
Prerequisite: ETEE 1223. This course covers the basic principles
of electric power systems, including transmission lines, generator
and transformer characteristics, and fault detection and
correction. Emphasis is placed on circuit performance analysis in
regards to voltage regulation, power factor, and protection
devices.
ETEE 2201. Electronics Lab IV. (1) Prerequisite or
corequisite: ETEE 2213. Experiments that support the concepts and
practices covered in ETEE2213 (Introduction to Microprocessors):
Introduction to microprocessor architecture and microcomputer
systems including memory and input/output interfacing, assembly
language programming, bus architecture, bus cycle types, I/O
systems, memory systems, and interrupts.
ETEE 2213. Introduction to Microprocessors. (3)
Prerequisite: ETEE 1213. This course introduces microprocessor
architecture and microcomputer systems including memory and
input/output interfacing, assembly language programming, bus
architecture, bus cycle types, I/O systems, memory systems, and
interrupts.
ETEE 2233. Introduction to Computer Networks. (3)
Prerequisite: ETEE 1213. The fundamentals of local area networks
and their operation in business and computer environments is
covered, including the characteristics of network topologies,
system hardware (repeaters, bridges, routers, gateways), system
configuration, and installation and administration of the LAN.
ETEE 2243. Introduction to Control Systems. (3)
Prerequisites: ETEE 1213 and ETEE 1223. The fundamental concepts
of control, systems, sensors, actuator, and associated peripheral
devices are covered, including rotating machine theory, ladder
logic, electromechanical and solid state relays, motor controls,
pilot devices, and PLC (programmable logic controllers),
programming and networking.
ETEE 3124. Analysis of Linear Networks II. (4)
Prerequisite: ETEE 3133 with a grade of C or better. Corequisite:
ETGR 3171. Circuit analysis utilizing network theorems and
techniques in the frequency domain. 2nd order responses. Two port
network analysis and transfer functions. Bode plots; transformers
and filter applications; introduction to Fourier analysis.
Application of simulation software for circuit analysis.
ETEE 3133. Analysis of Linear Networks I. (3) Prerequisite:
ETEE 1223 or AAS degree. Corequisites: MATH 1121 or ETGR 3171 and
junior standing in ET department. Resistive circuits; current and
voltage sources; Kirchoff’s laws, network theorems, RC and RL
circuits; waveform analysis and synthesis; time domain circuit
analysis; 1st order natural and forced responses; Laplace
Transform fundamentals. Circuit transformations. Intro to
frequency domain circuit analysis. Application of simulation
software for circuit analysis.
ETEE 3153. ELET Laboratory V. (1) (W) Corequisites: ETEE
3133 and ETEE 3183. Experiments which support concepts and
practice covered in ETEE 3133 and ETEE 3183. Three laboratory
hours per week.
ETEE 3156. ELET Laboratory VI. (1) (W) Corequisite: ETEE
3124. Experiments with support concepts and practice covered in
ETEE 3124. Three laboratory hours per week.
ETEE 3183. Digital Logic Design. (3) Prerequisite: ETEE
1213 or AAS degree and junior standing in ET department. Design of
combinational and sequential digital logic circuits. Minimization
methods and state assignment techniques. Circuit implementation
using MSI, LSI, and programmable circuits. Introduction to
computer architecture.
ETEE 3211. Active Networks I. (3) Prerequisite: ETEE 3124
with a grade of C or better and ETGR 3171. Rectifiers; amplifiers
analysis; transistor biasing; small signal models; feedback
amplifier analysis; amplifier frequency response.
ETEE 3212. Active Networks II. (3) Prerequisite: ETEE 3211
with a grade of C or better. Amplifier frequency response
(continued); feedback amplifier frequency response; operational
amplifiers and applications.
ETEE 3213. Industrial Electronics. (3) Prerequisite: ETEE
3124. Prerequisite or corequisite: ETEE 3211. Powerdiodes, bipolar
power transistors, thyristors, power MOSFET's and their circuit
applications to industrial problems.
ETEE 3214. Operational Amplifiers with Applications. (3)
Prerequisite: ETEE 3211. Idea OP-AMP analysis, practical OP AMP
considerations, linear OP AMP circuits, nonlinear OP AMP circuits,
practical applications.
ETEE 3222. Automatic Controls. (3) Prerequisite or
corequisite: ETEE 3212. Automatic control concepts; mathematical
models; control system components; transient and frequency
response; control system design.
ETEE 3230. Electronic Communications. (3) Prerequisites or
corequisites: Senior status in ET or permission of department.
This course covers basic principles and concepts of modern
communication systems. Topics include systems, signals,
modulations, transmission, reception and networks. (On demand)
ETEE 3240. Fiber Optics Systems. (3) Prerequisites or
corequisites: Senior status in ET or permission of department.
Introduction to optical fiber communications systems. Review of
ray and wave optics. Fundamentals of amplitude, frequency, and
digital modulation/demodulation. Optic fiber waveguides. Light
sources and detectors. Components, systems, and networks. (On
demand)
ETEE 3255. ELET Laboratory VII (Computer Emphasis). (1) (W)
Corequisite: ETEE 3211. Experiments which support concepts and
practice covered in ETEE 3211. Three laboratory hours per week.
ETEE 3257. ELET Laboratory VII (Electronics Emphasis). (1) (W)
Corequisite: ETEE 3211. Experiments which support concepts and
practice covered in ETEE 3211. Three laboratory hours per week.
ETEE 3260. Opto-Electronic Communications Laboratory. (1) (W)
Corequisite: ETEE 3230, ETEE 3240, senior status in ET or
permission of department. Opto-electronic Communications system
measurements, instrumentation, and applications. Experiments
support concepts and practice covered in ETEE 3230 and 3240. (On
demand).
ETEE 3261. Industrial Instrumentation. (3) Prerequisites:
ETEE 3124. Pneumatic and electrical sensors and transducers used
for measuring physical processes, such as temperature, pressure,
and flow rate; selection criteria; standards and calibration. (On
demand)
ETEE 3275. Integrated Circuit Applications. (3)
Prerequisites: ETEE 3183. Study of the external characteristics of
digital and analog integrated circuits. Applications of these
circuits in digital systems. Design constraints and considerations
due to device limitations. Device selection based upon application
requirements.
ETEE 3281. Computer Design. (3) Prerequisite: ETEE 1213 or
AAS degree and junior standing in ET department. Corequisite: ETEE
3183. Organization and design approaches for computer network
systems. LAN design, hardware and software considerations, network
operating systems, TCP/IP fundamentals.
ETEE 3284. Design of Real Time Systems. (3) Prerequisite:
ETEE 3285. Prerequisite or corequisite: ETEE 3281. Characteristics
and applications of real time computer systems, especially as
applied to process control, monitoring, and data collection; the
computer as a part of the total system, programming for real time
applications; reliability and maintainability; effects of
downtime. (On demand)
ETEE 3285. Assembly-Language Programming. (3) Prerequisite:
ETEE 1213 or AAS degree and junior standing in ET department.
Corequisite: ETEE 3183. Programming methodology and assembly
language programming for the MC6800 series microprocessors.
ETEE 3286. Microcomputer Applications. (3) Prerequisite:
ETGR 2122 or AAS degree and junior standing in ET department.
Applied programming of microcomputers for engineering applications
using Java. Object-oriented program design methods, Graphical user
interfaces for data input and output, computer graphics, and
computer animation.
ETEE 3641. Senior Design Project. (1) (W) (O) Prerequisite:
Senior standing in Electrical Engineering Technology or permission
of the department. A senior design project with a topic agreed to
by student and instructor. Course builds upon technology course
work and professional topics seminar. Topics include project
planning design, construction, test documentation, and oral
presentation of results. |
