Course Catalog

Computer Engineering Technology - CET1 Technical Certificate of Credit


Campus Locations: Online

The Computer Engineering Technology Fundamentals Technical Certificate of Credit (TCC) provides students with an opportunity to exit the Electronics and Computer Engineering Technology program with the basic technical skills required to enter the computer engineering technology field through a short-term certificate program. The courses in the Computer Engineering Technology TCC are embedded within the Electronics and Computer Engineering Technology A.A.S. Degree program. The completion of this certificate shows a current employer or prospective employer that progress has been made in the program and that basic skills have been achieved. The Electronics and Computer Engineering Technology Technical Certificates of Credit programs are planned sequences of carefully developed college-level courses designed to prepare students to work in the field of electronics and computer engineering technology. The programs emphasize the application of scientific, mathematics, and engineering knowledge and methods combined with technical skills in support of engineering activities.

Requirements:

  • Submit a completed application and application fee
  • Be at least 16 years of age
  • Submit official high school transcript or High School Equivalency transcript or college transcripts showing successful completion of 60+ semester credits or 72+ quarter credits
  • Submit official college transcripts, if applicable
  • Present acceptable ACCUPLACER, ACT, ASSET, COMPASS, PSAT, or SAT scores, Georgia Milestones Literature/Composition or Georgia Milestones American Literature/Composition (for meeting English requirement only) or GED score of 145 or higher, or have one of the following: an associate degree or higher or have a High School overall GPA of 2.0, a HOPE Scholarship GPA of 2.6 or higher after the completion of 10th grade, or have 2 years documented work experience in the subject area. Documentation on a college transcript of successful completion of appropriate courses from a regionally accredited college or university may be accepted in lieu of test scores.
Curriculum Outline (14 hours)
Occupational Courses 14
ECET 1101

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): MATH 1111, ENGT 1000 Emphasizes the knowledge and ability to analyze basic DC circuits and introductory concepts of AC circuits. Topics include: international units, basic electrical laws, series and parallel circuits, network analysis concepts, network theorems concepts, D.C. instruments, grounding techniques, magnetism, inductance/capacitance, transient analysis, and introduction to dependent sources and 2-port parameters. Laboratory work parallels class work.

4
ECET 1110

Weekly Contact Hours: Lecture - 3 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): ENGT 1000 Study of digital circuit fundamentals with an emphasis on digital electronics and techniques, simplification of logic circuits, sequential and combinational logic circuits, programmable logic devices, flip-flops and registers, binary number system, and arithmetic and logic operations. Laboratory work parallels class work using trainers, DesignWorks, and Altera simulation software and system.

4
ECET 1191

Weekly Contact Hours: Lecture - 2 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): Degree Level Algebra Scores Co-requisite(s): None This course emphasizes fundamental concepts of problem solving using a high level source language. Laboratory work is designed to acquaint students with computer facilities, software, and programming fundamentals. Topics include: system fundamentals, concepts of structured programming, arrays, functions, and engineering applications.

3
ENGT 1000

Weekly Contact Hours: Lecture - 2 Lab 2 - 0 Lab 3 - 3 Pre-requisite(s): None Co-requisite(s): None Provides a study of engineering technology as a career field and describes the knowledge and skills required for academic and occupational success. Topics include: engineering technology career, measurement and standards, mathematical operators, engineering tools, and engineering concepts. Labs reinforce mathematical, mechanical and electrical concepts through practical exercises, such as measurement and calculation of density of objects, relative humidity, use of digital multi-meter, building circuits, use of precision instruments, and team exercises.

3
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