Undergraduate Catalog Archives Archive of 2009-2010 Catalog with Spring '10 updates Colleges Technology Majors Electrical Power Engineering TechnologyThe goal of the Electrical Power Engineering Technology program is to provide students with a high quality applications-oriented undergraduate education based on state-of-the-art technological equipment associated with electrical technology. This goal is achieved through several objectives such as continuing to update specific courses in the program to ensure relevance to the latest industrial changes, supporting the development of appropriate computer facilities, promoting the integration of advanced technology in all courses, and encouraging professional growth and development of the faculty.
The program is designed to satisfy the educational needs of the urban Houston community by providing a climate that fosters self-awareness, personal growth, and a desire for life-long learning.
Students completing a major in Electrical Power Engineering Technology receive a strong foundation in measurement systems, analog and digital signal conditioning, microprocessor hardware and software, industrial electronics, and rotating machinery.
Students have the opportunity to select additional coursework in either control systems, power electronics, or electrical power.
Although analog electronics remain important, one of the newest and fastest growing areas is in the application of computers for control; this may be control within some manufactured product or control of some manufacturing process.
The manufacturers of electrical systems and machines need electrical power technologists who are familiar with machines and machine controls, both traditional and computer-controlled.
The electrical industry provides and controls the transformers, motors, generators, switch gear, and protection equipment required to power homes, businesses, and industries. Electrical power technologists plan electrical systems and modifications to existing electrical systems that generate and use large amounts of electricity required for distribution networks that are economical, safe, and functional.
Graduates of the Electrical Power Engineering Technology major understand, design, analyze, and work effectively in industrial settings utilizing product/process control systems and electrical power systems. Graduates are working in petrochemical companies, food manufacturing, steel processing, utilities, electrical equipment, sales, manufacturing and testing, and a host of other diverse industries.
Majors in Electrical Power Engineering Technology may use no grade below C- in junior and senior level ELET courses to satisfy major degree requirements.
Students pursuing a major in Electrical Power Engineering Technology must complete the following requirements, in addition to university core and general college requirements:
| ELET 1300, 1100. Electrical Circuits I, Laboratory |
| ELET 1301, 1101. Electrical Circuits II, Laboratory |
| ELET 2301, 2101. Poly-Phase Circuits and Transformers, Laboratory |
| ELET 2303, 2103. Digital Systems, Laboratory |
| ELET 2305, 2105. Semiconductor Devices and Circuits, Laboratory |
| ELET 3301. Linear Systems Analysis |
| ELET 3405. Microprocessor Architecture |
| ELET 3307, 3107. Electrical Machines, Laboratory |
| ELET 3312, 3112. Programmable Logic Controllers and Motor Control Systems , Laboratory |
| ELET 4303. Computer-Based Power Distribution and Transmission |
| ELET 4305. Project Management and Economic Considerations for Power Systems |
| ELET 4310. Alternative Electrical Energy Sources and Power Quality Issues |
| ELET 4311. Computer-Based Communications and Security Issues for Electrical Power Systems |
| ELET 4317. Computer-Based Electrical System Protection and Safety |
| ELET 4319. Electrical Power Systems and Industry Practices |
| ELET 4326. Power Converter Circuits |
(6 semester hours)
| ELET 4304. Control Systems |
|
ELET 4310. Alternative Electrical Energy Sources and Power Quality issues |
| ELET 4311. Computer-Based Communications and Security Issues for Electrical Power Systems |
| Approved ELET elective (3 advanced semester hours) |
| Mathematics (14 semester hours which includes university core) |
|---|
| Students are required to have credit for MATH 1310, College Algebra, by Math Placement Exam, CLEP, or completion of course. |
| MATH 1330. Precalculus |
| MATH 1431. Calculus I |
| MATH 1432. Calculus II |
| Natural Sciences (8 semester hours which includes university core) |
|---|
| PHYS 1301, 1101. Introductory General Physics I, Laboratory |
| PHYS 1302, 1102. Introductory General Physics II, Laboratory |
| Social Sciences (3 semester hours) |
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| Selected from core approved list. |
| Writing in the Discipline (3 semester hours) |
|---|
| Selected from core approved list. |
| General Technology Requirements |
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| ELET 2300. Introduction to C++ Language Programming |
| TELS 3340. Organizational Leadership and Supervision
or HDCS 3300. Organizational Decisions in Technology |
| TELS 3363. Technical Communications |
| MECT 1364. Materials and Processes I |
| ITEC 2334. Information Systems Applications |
| Free electives (3 semester credit hours) |
Degree awarded: Bachelor of Science
Major: Electrical Power Engineering Technology
Catalog Publish Date: May 4, 2010
This Page Last Updated: August 27, 2009
This Archive Captured: May 11, 2010
