1101: Electrical Circuits Laboratory
Cr. 1. (0-3). Prerequisites: ELET 1300 and concurrent enrollment in
ELET 1301. Measurement and analysis of circuit
parameters for direct current, single phase, and alternating current circuits.
1300: Electrical Circuits I
Cr. 3. (3-0). Prerequisite:
credit for or concurrent enrollment in TMTH 1335. Principles of
direct current electricity and their applications to series, parallel,
and series-parallel circuitry including Ohm's Law, Kirchoff's
Law, batteries, meters, resistance, capacitance, inductance, magnetism,
and electromagnetism.
1301: Electrical Circuits II
Cr. 3. (3-0). Prerequisites:
ELET 1300 and prior computer use skills. Corequisites: ELET 1101
and TMTH 1336. Principles of single-phase alternating current
circuits including Thevenin's, Norton's, and superposition
theorems, and loop and nodal analysis.
2103: Digital Circuits and Systems Laboratory
Cr. 1. (0-3). Prerequisite: concurrent enrollment in
ELET 2303. Experiments in digital circuits including basic gates
through programmed arrays and memory devices.
2105: Discrete and IC Semiconductor Circuits Laboratory
Cr. 1.
(0-3). Prerequisite: concurrent enrollment in ELET 2305. Experiments
in discrete and integrated circuits, and semi-conductor circuits
and systems.
2300: Introduction to C Language Programming
Cr. 3. (3-0).
Prerequisite: TECH 1300 or consent of instructor. Corequisite:
TECH 1336. Introduction to C Language
on microcomputer platforms.
2303: Digital Circuits and Systems
Cr. 3. (3-0). Prerequisites:
ELET 1301 or ELET 2307. Basic digital circuits and their application,
including basic gates, arithmetic circuits, counters, data-handling
circuits, and memory devices.
2305: Discrete and IC Semiconductor Circuits
Cr. 3. (3-0).
Prerequisites: ELET 1301 or ELET 2307. Corequisite: ELET 2105.
Solid-state devices and circuits (discrete and integrated circuits)
including rectifiers, single stage and multistage amplifiers,
frequency response and simple filters.
2307: Electrical-Electronics Circuits
Cr. 3. (3-0). Prerequisite:
credit for or concurrent enrollment in
TMTH 1335. For non-ELET
majors. Basic dc and ac circuits.
3102: Communications Circuits Laboratory
Cr. 1. (0-3).
Prerequisite: concurrent enrollment in ELET 3302. Measurement
of the transfer functions and Q-factor of series and parallel
resonant circuits, transformers, power spectrum, and slotted line
measurements.
3104: Control Instrumentation Laboratory
Cr. 1. (0-3).
Prerequisite: concurrent enrollment in ELET 3304. Experiments
related to signal conditioning and measurements in control systems.
3105: Microprocessor Architecture and Systems Laboratory
Cr. 1. (0-3). Corequisite: ELET 3305. Experiments with basic
hardware, software, and operating systems of microprocessor-based
systems.
3107: Electrical Machines Laboratory
Cr. 1. (0-3). Prerequisite:
concurrent enrollment in ELET 3307. Experiments in the characteristics
and application of dc and ac motors and generators.
3110: Electrical Systems Design Laboratory
Cr. 1. (0-3).
Prerequisite: ELET 3310. Laboratory project in the design and
layout of a commercial/industrial electrical system.
3112: Rotating Machine Controls Laboratory
Cr. 1. (0-3).
Prerequisite: concurrent enrollment in ELET 3312. Experiments
in electromechanical and solid-state controls for rotating machines.
3301: Network Analysis
Cr. 3. (3-0). Prerequisites: ELET
2305, TMTH 2336 and a programming course. Determinants, differential
equations, Laplace transforms, Fourier analysis, and their applications
to electrical circuits. Computer usage is emphasized in determining
steady state and transient solutions.
3302: Communications Circuits
Cr. 3. (3-0). Prerequisites:
ELET 2305, ELET 2105 and
ELET 3301. Corequisite: ELET 3102. Analysis
of tuned series and parallel resonant circuits and rf transformers.
Fourier series, modulation/demodulation theory, and Smith charts.
3303: Operational Amplifier Applications
Cr. 3. (2-3).
Prerequisites: ELET 2305, ELET 2105,
and TMTH 2335. The basics
of linear amplifiers with feedback and their use in amplifiers,
wave-shaping circuits, oscillators, active filters, and regulation
for linear and switching power supplies. Laboratory exercises
included.
3304: Control Instrumentation
Cr. 3. (3-0). Prerequisites:
ELET 2305, ELET 2105, and
TMTH 2335. Corequisites: ELET 3104 and
TMTH 2336. Control, analog and digital signal conditioning and
transducers used for measurement of temperature, displacement,
pressure, flow, and optical processes.
3305: Microprocessor Architecture and Systems
Cr. 3. (3-0).
Prerequisites: ELET 2303 and ELET 2103. Corequisite: ELET 3105.
Architecture and operation of microprocessor-based systems including
basic hardware and software.
3306: Microprocessor/Microcomputer Assembly Language and Applications
Cr. 3. (3-0). Prerequisites: ELET 2300, ELET 3305, and ELET
3105. Basic mnemonic instructions for the microprocessor/microcomputer,
and the implementation of algorithms in software and firmware
for various types of engineering technology applications.
3307: Electrical Machines
Cr. 3. (3-0). Prerequisites:
ELET 1301 or ELET 2307,
TMTH 2335,
PHYS 1301 and
PHYS 1101, junior
standing and consent of instructor. Characteristics and applications
of DC and AC motors and generators.
3310: Electrical Systems Designs
Cr. 3. (3-0). Prerequisite:
ELET 3307. Design and layout of electrical power
systems for residential, commercial, and industrial facilities.
3312: Rotating Machine Controls
Cr. 3. (3-0). Prerequisites:
ELET 2305 and ELET 3307. Electromechanical and solid-state controls
for rotating machines.
3316: Electrical Systems, Machines, and Controls
Cr. 3. (3-0). Prerequisites: ELET 2307
and TMTH 2335. Corequisite:
ELET 3116. Basic electrical systems, machines, and their
controls.
3399-4399: Senior Honors Thesis
Cr. 3 per semester. Prerequisite:
approval of chair. Independent work in Electrical-Electronics
Technology under the supervision of a faculty member. Both must
be completed for credit.
4103: Power Transmissions Systems Laboratory
Cr. 1. (0-3).
Prerequisite: concurrent enrollment in ELET 4303. Experiments
in transmission networks characteristics and stability.
4104: Control Systems I Laboratory
Cr. 1. (0-3). Prerequisite:
concurrent enrollment in ELET 4304. Experiments on final control
elements, controller mode operations, and closed loop control
systems (analog and digital).
4108: Microcomputer Interfacing Laboratory
Cr. 1. (0-3).
Prerequisite: concurrent enrollment in ELET 4308. Experiments
in the interfacing of microcomputers including I/O methods, bus
systems, peripheral hardware, and software design.
4121: Microcomputer Networks Laboratory
Cr. 1. (0-3). Prerequisite:
Enrollment in ELET 4321. Experiments in the application, design,
operation, and analysis of microcomputer networks.
4198:4398: Special Problems
Cr. 1, 3 per semester. Prerequisite: approval of chair.
4300: Real-Time Operating Systems for Microcomputers
Cr.
3. (3-0). Prerequisite: ELET 3306. Development of algorithms for
minimum response time to input data. Provide signals for control
of processes and generation of reports using current operating
systems.
4301: Power Distribution Systems
Cr. 3. (3-0). Prerequisite:
ELET 3307 and
TMTH 2336.
Principles of operation and applied design of medium voltage power distribution systems and
distribution sybstations.
4302: Data Communications Systems
Cr. 3. (3-0). Prerequisites:
ELET 3305 and ELET 3302. Analysis and design of data
communications
systems with emphasis on system performance calculations and radio
wave channels, linear, nonlinear, and pulse/digital modulation,
multiplexing, and propagation effects.
4303: Power Transmission Systems
Cr. 3. (3-0). Prerequisites:
ELET 3307 and
TMTH 2336.
Corequisite: ELET 4103.
Principles of operation and applied design of high voltage power
transmission systems and bulk power substations.
4304: Control Systems I
Cr. 3. (3-0). Prerequisites: ELET
3301, ELET 3304, and ELET 3104. Corequisite: ELET 4104. Final
control operations in control systems. Control modes and methods
of implementation by analog and digital means, computer control
algorithms, and tuning and stability of control systems.
4308: Microcomputer Interfacing
Cr. 3. (3-0). Prerequisites:
ELET 2300, ELET 3303, and ELET 3305. Corequisite: ELET 4108. Microcomputer
interfacing techniques, including I/O methods, bus systems, peripheral
hardware, and software design and implementation.
4309: C Language Programming
Cr. 3. (3-0). Prerequisites:
ELET 2300 and ELET 3306. Development of programs for I/O control
and real-time application. Assembly language programs also will
be written and linked to C language programs.
4319: Electrical Power Systems and Utility Practices
Cr.
3. (3-0). Prerequisites: ELET 3301 or equivalent,
ITEC 3340,
and senior standing. Electrical power history, cultural impact,
development into a regulated monopoly, management practices, network
components, and principles of power system networks.
4321: Microcomputer Networks
Cr. 3. (3-0). Prerequisites:
ELET 4300 and ELET 3302. Corequisite: ELET 4121. Microcomputer
networking methods with emphasis on the ISO-OSI model. Applications
include star- and ring-type networks and operating systems requirements
for networks.
4322: Java Programming
Cr. 3. (3-0).
Prerequisites: High level language programming and senior standing.
The course covers designing classes and objects in Java, Java's approach
to inheritance and polymorphism, and the details of creating Java applets
for use on the internet.
4397: Selected Topics in Electrical-Electronics Technology
Cr. 3. (3-0). Prerequisite: approval of chair. May be repeated for credit when topics vary.
5114: Digital Control Systems Laboratory
Cr. 1. (0-3). Prerequisite: Credit for or concurrent enrollment in
ELET 5314.
Experiments in microprocessor-based signal generators, microprocessor-based process data
acquisition (A/D and D/A), on-off controller, computer control of analog proportionally
controlled plant, digital proportional-integral controller, microprocessor-based process control
temperature measurement.
5314: Digital Control Systems
Cr. 3. (3-0).
Prerequisites:
ELET 3305,
ELET 3105, and
ELET 4304. Corequisite:
ELET 5114. Practical aspects of microcomputer-based control
including digital control systems, z-transform, and discrete transfer functions, control system
analysis, proportional integral derative, (PID) control and compensator design.
5397: Selected Topics in Microcomputer Systems
Cr. 3. (3-0). Prerequisite: approval of the department chair. May be repated with the approval
of the department chair.