Program Objective
The Electronic Engineering Technology program prepares graduates as entry-level technicians. Students will become proficient in the theoretical and practical applications associated with electronic devices, instrumentation controls, and systems.
Career Opportunities
Graduates work as technicians and sales representatives in the field of electronic instrumentation and computer repair. Typical employers in the electronic career are machine, tool, and instrumentation manufacturers; electronic service companies; communication industries; electronic media; and electronic sales.
Program Learning Goals
Goal 1: Graduates will be able to troubleshoot electronic circuits and systems using theoretical principles and measured values to resolve operational issues.
Student Learning Outcomes – Students will:
- Demonstrate competence with circuit identification
- Demonstrate competence in using various pieces of test equipment to gather information about a circuit or systems operation
- Employ corrective actions to make repair to systems under test
Goal 2: Graduates will demonstrate the ability to communicate with a customer, team member or supervisor in a professional manner to determine the nature of a problem or to explain repairs.
Student Learning Outcomes – Students will:
- Explain the defect found in circuits or systems and the solution to rectify the problem
- Produce written reports outlining work performed
Goal 3: Graduates will be able to use hand tools and test equipment in a safe manner.
Student Learning Outcomes – Students will:
- Demonstrate the safe use of a multimeter while making measurements in live circuits
- Demonstrate the safe use of oscilloscopes and other lab equipment to make measurements or apply signals
2025-2026 Program Scope
| Program Requirements | Total: 48 | ||
| Course Code | Course Title | Credits | |
| CIT-183 | Network Architectures, Principles, and Protocols | 2 | |
| CIT-184 | Network Architectures, Principles, and Protocols Lab | 1 | |
| EET-101 | Introduction to Electronic Equipment | 1 | |
| EET-165 | Digital Electronics | 2 | |
| EET-166 | Digital Electronics Lab | 2 | |
| EET-167 | Introduction to Semiconductors | 2 | |
| EET-168 | Introduction to Semiconductors Lab | 1 | |
| EET-169 | Integrated Circuits and Thyristors | 2 | |
| EET-170 | Integrated Circuits and Thyristors Lab | 1 | |
| EET-261 | Communication Electronics | 2 | |
| EET-262 | Communication Electronics Lab | 1 | |
| EET-265/266 | Applied Electronics Principles and Applications/Lab | 4 | |
| OR INT-299D | OR Internship (200 hours) | ||
| MAT-201 | College Algebra II and Trigonometry | 3 | |
| MEC-103 | Project Management | 2 | |
| MEC-155 | Additive Manufacturing | 1 | |
| MEC-156 | Additive Manufacturing Lab | 2 | |
| MEC-157 | Sensors and Systems in Automation | 2 | |
| MEC-158 | Sensors and Systems in Automation Lab | 1 | |
| MEC-243 | Automation and Robotics I | 2 | |
| MEC-244 | Automation and Robotics I Lab | 2 | |
| MEC-245 | Programmable Logic Controllers I | 2 | |
| MEC-246 | Programmable Logic Controllers I Lab | 2 | |
| MEC-253 | Automation and Robotics II | 2 | |
| MEC-254 | Automation and Robotics II Lab | 2 | |
| MEC-255 | Programmable Logic Controllers II | 2 | |
| MEC-256 | Programmable Logic Controllers II Lab | 2 | |
| Core Career | Total: 21 | |
| Course Code | Course Title | Credits |
| ART-127 (ART) | Computer Aided Design | 3 |
| COM-112 (COM) | Public Speaking | 3 |
| Elective (HUM) | Humanities Elective | 3 |
| MAT-101 (MAT) | College Algebra I and Trigonometry | 3 |
| EET-161 (SCI) | DC Electricity and Instrumentation | 2 |
| EET-162 (SCI) | DC Electricity and Instrumentation Lab | 1 |
| BUS-101 (SOC) | Introduction to Business | 3 |
| EET-163 (TECH) | Alternating Current and Passive Devices | 2 |
| EET-164 (TECH) | Alternating Current and Passive Devices Lab | 1 |
| Graduation Requirement | Total: 1 | ||
| SSS-101 | First Year Experience | 1 | |
| EET Program Total | 70 |
2025-2026 Program Sequence
| Term 1 (Fall) | Credits: 16 | |
| ART-127 | Computer Aided Design | 3 |
| EET-101 | Introduction to Electronic Equipment | 1 |
| EET-161 | DC Electricity and Instrumentation | 2 |
| EET-162 | DC Electricity and Instrumentation Lab | 1 |
| EET-163 | Alternating Current and Passive Devices | 2 |
| EET-164 | Alternating Current and Passive Devices Lab | 1 |
| MAT-101 | College Algebra I and Trigonometry | 3 |
| MEC-103 | Project Management | 2 |
| SSS-101 | First Year Experience | 1 |
| Term 2 (Spring) | Credits: 19 | |
| EET-165 | Digital Electronics | 2 |
| EET-166 | Digital Electronics Lab | 2 |
| EET-167 | Introduction to Semiconductors | 2 |
| EET-168 | Introduction to Semiconductors Lab | 1 |
| EET-169 | Integrated Circuits and Thyristors | 2 |
| EET-170 | Integrated Circuits and Thyristors Lab | 1 |
| HUM Elective | Humanities Elective | 3 |
| MAT-201 | College Algebra II and Trigonometry | 3 |
| MEC-157 | Sensors and Systems in Automation | 2 |
| MEC-158 | Sensors and Systems in Automation Lab | 1 |
| Term 3 (Fall) | Credits: 17 | |
| BUS-101 | Introduction to Business | 3 |
| COM-112 | Public Speaking | 3 |
| EET-261 | Communication Electronics | 2 |
| EET-262 | Communication Electronics Lab | 1 |
| MEC-243 | Automation and Robotics I | 2 |
| MEC-244 | Automation and Robotics I Lab | 2 |
| MEC-245 | Programmable Logic Controllers I | 2 |
| MEC-246 | Programmable Logic Controllers I Lab | 2 |
| Term 4 (Spring) | Credits: 18 | |
| CIT-183 | Network Architectures, Principles, and Protocols | 2 |
| CIT-184 | Network Architectures, Principles, and Protocols Lab | 1 |
| EET-265/266 | Applied Electronics Principles and Applications/Lab | 4 |
| OR INT-299D | OR Internship | |
| MEC-155 | Additive Manufacturing | 1 |
| MEC-156 | Additive Manufacturing Lab | 2 |
| MEC-253 | Automation and Robotics II | 2 |
| MEC-254 | Automation and Robotics II Lab | 2 |
| MEC-255 | Programmable Logic Controllers II | 2 |
| MEC-256 | Programmable Logic Controllers II Lab | 2 |