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Electronics Engineering Technology

Curriculum Description

Electrical Engineering Technology
Career Cluster:      Science, Technology, Engineering, Mathematics
Pathway:               Engineering and Technology

Program Major    Electronics Engineering Technology

Pathway Description
These curriculums are designed to prepare students through the study and application of principles from mathematics, natural sciences, and technology and applied processes based on these subjects. 

Course work includes mathematics, natural sciences, engineering sciences and technology.

Graduates should qualify to obtain occupations such as technical service providers, materials and technologies testing services, process improvement technicians, engineering technicians, construction technicians and managers, industrial and technology managers, or research technicians.

Program Major Description

A course of study that prepares the students to apply basic engineering principles and technical skills to become technicians who design, build, install, test, troubleshoot, repair, and modify developmental and production electronic components, equipment, and systems such as industrial/computer controls, manufacturing systems, communication systems, and power electronic systems. Includes instruction in mathematics, basic electricity, solid-state fundamentals, digital concepts, and microprocessors or programmable logic controllers.  Graduates should qualify for employment as electronics engineering technician, field service technician, instrumentation technician, maintenance technician, electronic tester, electronic systems integrator, bench technician, and production control technician. (CTE-Y C40200P1)

The Electronics Engineering Technology program is accredited by the Engineering Technology Accreditation Commission (ETAC) of ABET, 111 Market Place, Suite 1050, Baltimore, MD 21202, 410.347.7700, www.abet.org

      

         

 

 

 

 


 

 

The following represents one way in which the program of study can be completed. Students who aren’t able to follow the recommended curriculum model below should consult their academic advisor to be sure that they take courses in the best order for their success.

Associate in Applied Science

A40200
NC CIP: 15.0303
Day
POS Approved: Fall 2016

Fall Semester

Course Course Title Class Hours Lab/Shop Hours Clinical/WBL Hours Credit Hours
EGR 131 Intro to Electronics Tech 1 2 0 2
ELC 127 Software for Technicians Requisite 1 3 0 2
ELC 131 Circuit Analysis I Requisite 3 3 0 4
ELC 131A Circuit Analysis I Lab Requisite 0 3 0 1
ENG 111 Writing and Inquiry Comprehensive Articulation Agreement Universal General Education Transfer Component Global Distinction Requisite 3 0 0 3
MAT 121 Algebra/Trigonometry I Requisite 2 2 0 3
Totals

Class Hours: 10
Lab/Shop Hours: 13
Clinical/WBL Hours: 0
Credit Hours: 15

Spring Semester

Course Course Title Class Hours Lab/Shop Hours Clinical/WBL Hours Credit Hours
CET 111 Computer Upgrade/Repair I Requisite 2 3 0 3
ELN 131 Analog Electronics I Requisite 3 3 0 4
MAT 122 Algebra/Trigonometry II Requisite 2 2 0 3
PHY 131 Physics-Mechanics Requisite 3 2 0 4
Select one:
Course Course Title Class Hours Lab/Shop Hours Clinical/WBL Hours Credit Hours
PSY 118
OR
Interpersonal Psychology 3 0 0 3
PSY 150 General Psychology Comprehensive Articulation Agreement Universal General Education Transfer Component Global Distinction Requisite (3) (0) (0) (3)
Totals

Class Hours: 13
Lab/Shop Hours: 10
Clinical/WBL Hours: 0
Credit Hours: 17

Summer Term

Course Course Title Class Hours Lab/Shop Hours Clinical/WBL Hours Credit Hours
ELN 132 Analog Electronics II Requisite 3 3 0 4
ELN 133 Digital Electronics Requisite 3 3 0 4
MAT 223 Applied Calculus Requisite 2 2 0 3
Totals

Class Hours: 8
Lab/Shop Hours: 8
Clinical/WBL Hours: 0
Credit Hours: 11

Fall Semester

Course Course Title Class Hours Lab/Shop Hours Clinical/WBL Hours Credit Hours
ELN 229 Industrial Electronics Requisite 3 3 0 4
ELN 232 Intro to Microprocessors Requisite 3 3 0 4
ELN 237 Local Area Networks Requisite 2 3 0 3
___ ___ Humanities/Fine Arts Elective Comprehensive Articulation Agreement ** ** 0 3
Totals

Class Hours: 8
Lab/Shop Hours: 9
Clinical/WBL Hours: 0
Credit Hours: 14

Spring Semester

Course Course Title Class Hours Lab/Shop Hours Clinical/WBL Hours Credit Hours
ELN 233 Microprocessor Systems Requisite 3 3 0 4
ELN 260 Prog Logic Controllers Requisite 3 3 0 4
ENG 114 Prof Research & Reporting Comprehensive Articulation Agreement Global Distinction Requisite 3 0 0 3
PHY 133 Physics-Sound & Light Requisite 3 2 0 4
Totals

Class Hours: 12
Lab/Shop Hours: 8
Clinical/WBL Hours: 0
Credit Hours: 15

Total Credit Hours: 72

Legend

  • : Comprehensive Articulation Agreement - This course is recommended for students transferring to a four-year university.
  • : Local Requirement
  • : Instructional Service Agreement
  • : Universal General Education Transfer Component (UGETC)
  • : Global Distinction
  • : Requisite(s)

Additional Information

Humanities/Fine Arts Electives — Select one: HUM 110, HUM 115, HUM 230, PHI 230, PHI 240, ART 111, HUM 220, MUS 110, PHI 215, REL 110

**Hours vary depending on course selection.

Program Educational Objectives

The Electronics Engineering Technology Program at Forsyth Technical Community College strives to produce graduates who:

  • Demonstrate the knowledge and ability required perform the tasks of an Entry Level Technician
  • Demonstrate the ability to advance to a more responsible position in their work
  • Demonstrate the knowledge required to engage in the lifelong learning of corporate sponsored education/training
  • Meet the requirements to enter a four year Engineering Technology Program

Student Outcomes

Students must demonstrate …

a. an ability to apply the knowledge, techniques, skills, and modern tools of the discipline to narrowly defined engineering technology activities;

b. an ability to apply a knowledge of mathematics, science, engineering, and technology to engineering technology problems that require limited application of principles but extensive practical knowledge;

c. an ability to conduct standard tests and measurements, and to conduct, analyze, and interpret experiments;

d. an ability to function effectively as a member of a technical team;

e. an ability to identify, analyze, and solve narrowly defined engineering technology problems;

f. an ability to apply written, oral, and graphical communication in both technical and non-technical environments; and an ability to identify and use appropriate technical literature;

g. an understanding of the need for and an ability to engage in self-directed continuing professional development;

h. an understanding of and a commitment to address professional and ethical responsibilities, including a respect for diversity; and

i. a commitment to quality, timeliness, and continuous improvement.


Enrollment and Graduation Rates

  •     Fall 2015 Enrollment:               45
  •     2014-2015 Graduation Rate:   15
A40200