Nabeel Yousef, Chair, 386-506-4123, Nabeel.Yousef@daytonastate.edu
Alireza Rahrooh, Program Coordinator, 386-506-4106, Alireza.Rahrooh@daytonastate.edu
Donna Miller, Administrative Assistant, 386-506-4138, Donna.Miller@daytonastate.edu
Program Overview
Mission:
The Bachelor of Science in Engineering Technology — Electrical Engineering Technology Concentration prepares students for employment in electrical and electronics engineering technology through applied instruction, laboratory experience, and an industry-aligned curriculum.
Description:
This concentration prepares graduates for technical positions in electrical, digital, computer, and microprocessor systems. The program provides a foundation in circuit analysis, electronics, digital systems, power systems, programmable logic controllers, microprocessors, and control systems.
2+2 Degree Completion Pathway: Students enter the program with an associate degree or transferable lower-division coursework and complete 60 upper-division credits to earn the Bachelor of Science degree.
Educational Objectives - Within several years of graduation, graduates are expected to:
- Apply engineering technology principles, effective communication, and teamwork to the design, implementation, operation, and maintenance of technical systems.
- Use mathematical, scientific, and engineering technology concepts to analyze technical problems, develop practical solutions, and adapt to emerging technologies.
- Demonstrate ethical behavior, professionalism, and responsible engagement within their organizations and local and global communities.
- Engage in lifelong learning through continuous professional development, technical growth, leadership, quality improvement, and organizational excellence.
Program Competencies: - The program prepares graduates to demonstrate competence in the following curricular areas:
- Apply circuit analysis and design, computer programming, associated software, analog and digital electronics, microcomputers, automation controls, power systems, and engineering standards to the building, testing, operation, and maintenance of electrical and electronic systems.
- Apply natural sciences and mathematics at or above the level of algebra and trigonometry to the building, testing, operation, and maintenance of electrical and electronic systems.
- Analyze, design, and implement one or more of the following: control systems, instrumentation systems, communications systems, computer systems, or power systems.
- Apply project management techniques to electrical and electronic systems.
- Use differential and integral calculus to characterize the performance of electrical and electronic systems.
Outcomes:
Graduates of the program will be able to:
- Apply knowledge, techniques, skills, mathematics, science, engineering principles, and modern engineering technology tools to solve broadly defined engineering problems.
- Design systems, components, or processes that meet specified requirements for broadly defined engineering technology problems.
- Communicate effectively using written, oral, and graphical methods in technical and nontechnical environments while identifying and applying appropriate technical literature.
- Conduct standard tests, measurements, and experiments, and analyze and interpret data to improve systems and processes.
- Function effectively as both a member and a leader of multidisciplinary technical teams.
Admission and Degree Requirements
Admission:
- Submit a Bachelor of Science in Engineering Technology application.
- Meet one of the following educational requirements:
- Hold a conferred Associate of Arts (A.A.), Associate of Science (A.S.), or Associate of Applied Science (A.A.S.) degree from a regionally accredited institution.
- Complete at least 60 transferable college-level credits from a regionally accredited institution, including a minimum of 15 credits of General Education coursework.
- Complete General Education, technical, and prerequisite coursework with a grade of "C" or better.
- Successfully complete ENC1101 and MAC1105, or higher-level equivalents, with a grade of "C" or better.
- Earn a minimum cumulative grade point average of 2.5. Applicants with a cumulative GPA between 2.0 and 2.49 may be considered for conditional admission with approval of the Department Chair.
- Submit official transcripts from all previously attended institutions. International transcripts must be evaluated by a member of the National Association of Credential Evaluation Services (NACES).
Completion:
- Complete the following required coursework and approved options:
- Digital and Discrete Mathematics:
- Physics:
- Mathematics Prerequisite:
- Mathematics:
- Statistics:
- Electrical Engineering Technology concentration coursework:
- Complete senior design courses ETI4448 and ETG4950C at Daytona State College.
- Complete 48 credits of approved upper-division technical coursework, 44 credits of approved lower-division technical coursework, and 36 credits of General Education for a minimum of 128 total credits.
- Demonstrate foreign language competency by completing two years of the same foreign language in high school or two semesters of the same college-level foreign language.
- Satisfy bachelor's degree communication requirements, including ENC1101, ENC1102, and SPC2608, and the Civic Literacy Competency requirement.
- Earn a grade of "C" or better in all program-specific and prerequisite coursework.
Financial Aid
This program is eligible for federal financial aid and the Florida Bright Futures Scholarship Program, subject to applicable eligibility requirements.
Financing Options: Complete the FAFSA at
studentaid.gov/h/apply-for-aid/fafsa.
For information on grants, loans, and work-study opportunities, visit the Office of Financial Aid at
daytonastate.edu/financial-aid/.
Students are also encouraged to apply for Daytona State College Foundation scholarships. Additional information is available at
daytonastate.edu/scholarships/.
Career and Labor Market Information
Graduates are prepared for technical positions in electrical engineering technology, electronics, control systems, automation, testing, systems integration, and related engineering technology fields.
| Related Career Opportunities |
Control Systems Engineer, Electrical Design Engineer, Electrical Testing Engineer, Microprocessor Systems Architect, Controls Specialist, Systems Engineer, Electronics Engineer, Electrical Engineering Technologist |
| Career Areas |
Electrical engineering technology, electronics, automation, power systems, control systems, microprocessor systems, testing, manufacturing, utilities, aerospace, and defense industries |
| Career Resources |
U.S. Bureau of Labor Statistics |
O*NET Online |
CareerOneStop
|
Note: It is never too early to prepare for your career. Log in to the Daytona State Career Services Student Job Board to create your account, submit your resume for review, search for employment opportunities, and practice your interviewing skills through Big Interview. For assistance, contact Career Services to connect with a Career Advisor.
Program Credit Requirements
| General Education |
36.00 |
| Lower Level Technical Electives |
44.00 |
| BSET Core Program of Study |
18.00 |
| BSET- Electrical Engineering Technology Concentration |
30.00 |
| TOTAL |
128.00 |
BSET Core Program of Study Courses
| GEB3213 | Business Writing | 3.00 |
| EGN3311 | Statics | 3.00 |
| EGN3321 | Dynamics | 3.00 |
| EGN3613 | Engineering Economics Analysis | 3.00 |
| ETG4950C | Project Management and Senior Design II and Lab | 3.00 |
| ETI4448 | Project Management and Senior Design I | 3.00 |
| Total Credit Hours: | 18 |
Electrical Engineering Technology Concentration Courses
| CET3198 | Digital Systems | 2.00 |
| CET3198L | Digital Systems Lab | 1.00 |
| EET3716 | Network Analysis | 3.00 |
| EET4158 | Linear Integrated Circuits | 3.00 |
| EET4158L | Linear Integrated Circuits Lab | 1.00 |
| EET4732 | Feedback Control Systems | 3.00 |
| EET4732L | Feedback Control Systems Lab | 1.00 |
| ETS3543C | Programmable Logic Applications and Device and Lab | 3.00 |
| ETI3116 | Engineering Quality Assurance | 3.00 |
| ETP4240 | Power Systems | 3.00 |
| ETP4240L | Power Systems Lab | 1.00 |
| EGN3046 | Engineering and Technology Calculus II | 3.00 |
| Program Elective | 3.00 |
| Total Credit Hours: | 30 |
Program Elective Course
Must Select One (3 credits):
| ETI4186 | AppliedReliability | 3.00 |
| ETI4205 | Applied Logistics | 3.00 |
| ETI4640 | Operations Management | 3.00 |
| ETI4704 | Occupational Safety | 3.00 |
| CEN4010 | Software Engineering | 3.00 |
| CDA4101 | Computer Organization and Design | 3.00 |
| COP4610 | Operating Systems | 3.00 |
| COP4708 | Applied Database I | 3.00 |
| ETM4331 | Applied Fluid Mechanics | 3.00 |
| ETM4220 | Energy Systems | 3.00 |
| EGN3343 | Thermodynamics | 3.00 |
| ETG3907 | Directed Study in Industrial Systems | 3.00 |
| Approved Technical Elective | 3 |
If MAP2302C has been successfully completed instead of EGN3046, another 3 credit course should be selected from this list.
Sample Program of Study
Year 1
1st Semester
2nd Semester
| EGN3046 | Engineering and Technology Calculus II | 3.00 |
| ETI3116 | Engineering Quality Assurance | 3.00 |
| EGN3613 | Engineering Economics Analysis | 3.00 |
| ETS3543C | Programmable Logic Applications and Device and Lab | 3.00 |
| General Education or Lower Level Elective | 3 |
| Total Credit Hours: | 15 |
Summer Semester
| General Education or Lower Level Elective | 3 |
| Upper Level Elective | 4 |
| Total Credit Hours: | 7 |
Year 2
1st Semester
2nd Semester
| EGN3321 | Dynamics | 3.00 |
| ETG4950C | Project Management and Senior Design II and Lab | 3.00 |
| EET4158 | Linear Integrated Circuits | 3.00 |
| EET4158L | Linear Integrated Circuits Lab | 1.00 |
| EET4732 | Feedback Control Systems | 3.00 |
| EET4732L | Feedback Control Systems Lab | 1.00 |
| Total Credit Hours: | 14 |
Students are strongly encouraged to seek advisement prior to enrolling in courses.
Note: Sequence of courses may vary. Check catalog course descriptions for requisite requirements.
Total Credit Hours: 68