Engineering Technology, Associate in Science
Previous Degree Required: HS Diploma
Eligible for Financial Aid: Yes
Delivery Method(s): On-Campus, Hybrid
Location(s): Cocoa, Palm Bay
Additional Limited Access Application Process Required: No
Program Testing Requirements: Assessment in Reading, Writing, and Math
Academic Community: STEM Science, Technology, Engineering, and Mathematics
Program Code: ETAS
Classification of Instructional Programs (CIP) Code: 15.0000
Florida Department of Education CIP Code: 1615000001
The Engineering Technology A.S. degree program has the following associated College Credit Certificates (CCCs):
- Applied Technology Specialist CCC
- Composite Fabrication and Testing CCC
- CNC Machinist Fabricator CCC
- Engineering Technology Support Specialist CCC
- Mechatronics
And this related Robotics and Simulation Technician CCC
The Engineering Technology A.S. degree prepares students for a variety of positions in Brevard County's high-tech manufacturing sector. Students learn how to apply practical engineering principles to electrical, mechanical, or robotic systems, offering a clear path to a range of in demand/high skill positions. Classroom theory is balanced with practical laboratory instruction to develop skills required to assemble, calibrate, operate, troubleshoot and repair components and systems. The program focuses on broad, transferable skills and stresses an understanding and demonstration of engineering technology and industrial applications. EFSC Engineering Technology AS degree offers three Specializations in addition to College Credit Certificates that can be completed individually or while pursuing the AS degree. Graduates of the program are eligible to enroll in EFSC's Bachelor of Applied Science in Organizational Management or Computer Information Technology.
Visit the program page for more details and how to apply.
Due to safety concerns, it is highly recommended that applicants to this program are able to meet the following:
- Students should be able to lift 50+ pounds.
- Students should be able to distinguish standard wire colors.
Program Requirements
Code | Title | Credit Hours |
---|---|---|
General Education Courses | ||
ENC 1101 | Composition 1 | 3 |
MAC 1105 | College Algebra | 3 |
Humanities Core Requirement | 3 | |
Natural Science Core Requirement | 3 | |
Social/Behavioral Science/Core-Civic Literacy Requirement | 3 | |
Major Courses | ||
EET 1084 | Introduction to Electronics | 3 |
ETDC 2364 | SolidWorks Fundamentals | 3 |
ETI 1420 | Manufacturing Processes and Materials | 3 |
ETI 1701 | Industrial Safety | 3 |
ETI 2110 | Introduction to Quality Assurance | 3 |
ETIC 2001 | Applied Manufacturing Mechanics | 3 |
Specialization | ||
Select one specialization from below: | 27 | |
Total Credit Hours | 60 |
Technical Electives
Courses in the specializations above may be used as technical electives as long as they are not being used to fulfill the specialization requirement. Students may take any technical elective they choose.
Code | Title | Credit Hours |
---|---|---|
CETC 1123 | Microprocessor Fundamentals | 4 |
EET 2621 | Soldering Inspections and Processes | 3 |
EETC 1611 | Standard Testing and Certification | 2 |
EETC 1612 | Cabling and Wire Harness Assembly | 3 |
EETC 2724 | Schematic Capture and Modeling | 3 |
ENC 2210 | Technical Writing | 3 |
ETD 2941 | Internship | 3 |
ETIC 2464 | Advanced Composites | 3 |
ETP 1400 | Distributed Electric Power Generation and Storage | 3 |
ETP 1401 | Alternative/Renewable Energy Technologies | 3 |
ETP 1420 | Solar Thermal Technologies | 3 |
ETPC 2410 | Photovoltaic Technology | 3 |
ETSC 1603 | Fundamentals of Robotics and Simulation | 3 |
PMTC 1203 | Introduction to Machining | 3 |
PMTC 2213 | Advanced Machining 1 | 3 |
PMTC 2214 | Advanced Machining 2 | 3 |
Learning Outcomes: Engineering Technology A.S.
- Demonstrate knowledge of basic laws of electronics.
- Supports Core Ability: Think Critically and Solve Problems
- Demonstrate industrial safety, health, and environmental requirements.
- Supports Core Ability: Process Information
- Demonstrate methods of quality assurance in manufacturing.
- Supports Core Ability: Process Information
- Demonstrate modern industrial processes and materials.
- Supports Core Ability: Process Information
- Demonstrate proficiency using tools, instruments and testing devices.
- Supports Core Ability: Think Critically and Solve Problems