Electronics Engineering Technology
Electronics Engineering Technology
A.A.S. Degree (D,G,S)
The graduate of the Electronics Engineering Technology program has extensive training in analog and digital electronics with emphasis on applications and analysis relating to microprocessor, industrial control and communication systems. The students are skilled in computer simulation, robotics, programmable logic controllers, networking, and wireless communications. This program integrates the teaching styles of lecture, demonstration, laboratory and "hands-on" into all course work. Career opportunities in engineering, robotics, avionics, communications, computer electronics, quality control, networking, microwave filters, and manufacturing are likely employment areas.
Program Graduate Competencies
The Program Graduate Competencies listed below identify the major learning goals related to your specific program of study and identify the knowledge and skills you will have when you graduate to be successful in your chosen field.
- Perform the duties of an entry-level technician using the skills, modern tools, theory, and techniques of the electronics engineering technology.
- Apply a knowledge of mathematics, science, engineering, and technology to electronics engineering technology problems that require limited application of principles but extensive practical knowledge.
- Conduct, analyze, and interpret experiments using analysis tools and troubleshooting methods.
- Identify, analyze, and solve narrowly defined electronics engineering technology problems.
- Explain the importance of engaging in self-directed continuing professional development.
- Demonstrate basic management, organizational, and leadership skills which commit to quality, timeliness, and continuous improvement.
Core Curriculum Competencies
The Core Curriculum Competencies listed below identify what you will be able to do as a graduate, regardless of your program of study. You will acquire these core competencies through general education courses and program-specific coursework. You will be expected to use relevant technology to achieve these outcomes:
- Apply clear and effective communication skills.
- Use critical thinking to solve problems.
- Collaborate to achieve a common goal.
- Demonstrate professional and ethical conduct.
- Use information literacy for effective vocational and/or academic research.
- Apply quantitative reasoning and/or scientific inquiry to solve practical problems.
Graduation Requirements
Core Courses
Select 2 course(s) from:
Program/Major Courses
Program/Major Support Courses
| CEN 100 | Intro to Electronics and Computer Engineering Technology | 3 |
| CEN 150 | Computer Assembly & Maintenance | 4 |
| CEN 180 | C/C++ Language Introduction | 4 |
| MAT 193 | Reasoning with Functions II | 4 |
| PHY 205 | General Physics I | 4 |
Suggested Pathway to Graduation (Course Sequence Sheet)
Semester 1
| SSC 100 | First Year Seminar | 1 |
| ELC 125 | Electrical Circuits I | 4 |
| CEN 150 | Computer Assembly & Maintenance | 4 |
| MAT 183 | Reasoning with Functions I | 5 |
| CEN 100 | Intro to Electronics and Computer Engineering Technology | 3 |
Semester 2
Semester 3
Semester 4
| ELC 228 | Microcontroller Applications | 4 |
Elective
| Social Science Elective | 3 |
Elective
| Social Science Elective | 3 |
| ELC 243 | Programmable Logic Controllers | 4 |
| ELC 236 | Analog Electronics III | 4 |
Approved Electives
Select two (2) social science electives.
To complete program requirements, you must pass the above courses and earn at least 70 credits. The number of courses and credits required for graduation may be more depending on your need for developmental education courses and the elective choices you make (if electives are a part of the program). Some programs also have college-level courses that you must take if you do not score at a certain level on the College Placement Test. If this applies to your program, the courses are listed at the top of the sequence sheet before the first semester of the course list.
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