Program Information
A.S. Degree - Code 201300 - Catalog 2020/2021
Anindya Paul, Chair, 386-506-4155, Anindya.Paul@daytonastate.edu
Tammy Fritz, Senior Staff Assistant, 386-506-4154, Tammy.Fritz@daytonastate.edu
Program Mission, Description, and Outcomes
Mission:
The program prepares individuals to assemble, install, operate, maintain, troubleshoot and repair electronic equipment used in industry. In addition, it also includes content related to the design, theory, and analysis of electronic systems and applications along with general electronics background. This program incorporates innovative teaching methods, uses the latest technology, thus encouraging student success.
Description:
The program provides a solid foundation in the installation, maintenance, and repair of computer systems, computer networks, robotics and simulation technology. The program provides a general electronics background and prepares students to pass the A+ Certification Examination. Selection of advanced electives allows students to specialize in networking, simulator technician or robotics options. After completion, students may seek career jobs or transition into baccalaureate programs.
Students transferring into DSC’s BSET, EET concentration should take the following classes to maximize their articulation transfer to the BS program: STA2023, MAC1140, and EGN2045 as Electives.
Students transferring into DSC’s BSIT should take the following classes to maximize their articulation transfer to the BS program: CTS2321, MAC1140, MAC1114, and MAC2311C as Electives.
Outcomes:
Graduates of the program will be able to:
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Apply knowledge of mathematics, basic science, and engineering technology to solve problems encompassing the fundamental areas of computer engineering technology.
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Apply knowledge of one or more disciplines to the application, installation, operation, and/or maintenance of computer systems.
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Conduct and create experiments to acquire needed data and to analyze and interpret the data to solve engineering technology problems.
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Comply and function as a member of a diverse multidisciplinary team in the solution of engineering problems.
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Demonstrate proficiency in communicating ideas and information orally and in writing.
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Relate the need for, and an ability to learn and apply new concepts as required in the continually evolving and rapidly changing practice of computer engineering technology.
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Comprehend ethical responsibility and professional integrity issues as related to computer engineering technology.
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Comprehend contemporary technological and societal issues and the impact of computer engineering technology on society in both a local and global context.
Financial Aid
This program is eligible for federal financial aid and state Bright Futures Scholarship Program.
Financing Options: All students are encouraged to apply for federal and state student financial assistance by completing their FAFSA at http://www.fafsa.gov. For more information on grants, loads and work programs available see the Office of Financial Aid webpage at http://www.daytonastate.edu/finaid. Students are also encouraged to apply for one of the may Daytona State College Foundation scholarships offered each semester. For more information see: http://daytonastate.edu/scholarships.
Approximate Additional Costs
Lab Fees: $240 - $268
Textbook Estimate: Consult college bookstore for approximate costs of textbooks.
Other costs: A scientific calculator, computer repair tool kit (approx. $20), and soldering kit (approx. $20).
General Education Courses
General Education Core - 18 Credits
Communication Core (9 credits)
ENC1101 | Introduction to Composition | 3 |
ENC1102 | Writing with Research | 3 |
SPC2608 | Oral Communications/Research/Presentation Skills | 3 |
Mathematics Core (3 credits)
Natural Sciences Core (3 credits)
Choose One Course
AST1002 | Astronomy | 3 |
PHY1020 | Energy and its Environmental Effects | 3 |
CHM1020 | Chemistry in Society | 3 |
BSC1005 | Survey of Biological Sciences (For Non-Science Majors) | 3 |
PHY1053C | General Physics I and Lab | 4 |
EVR2001 | Introduction to Environmental Science | 3 |
Humanities Core (3 credits)
Choose One Course
Note: Prior to enrollment in college-level English or math courses, some students may be advised to complete college preparatory/developmental course work. See an Academic Advisor to determine developmental course requirements.
Program Specific Courses
CET1112C | Digital Fundamentals and Lab | 4 |
CET1600 | Network Plus | 3 |
CET2123C | Microcomputer and Basic Digital Communications and Lab | 4 |
CET2154 | A+ Computer Repair | 4 |
CET2949 | Cooperative Education Experience in Computer Engineering Technology | 1 |
COP1000 | Principles of Computer Programming | 3 |
EET1011C | Introduction to Electrical Circuits and Lab | 3 |
EET1021C | Advanced Electrical Circuits and Lab | 3 |
EET1141C | Analog Devices and Circuits and Lab | 4 |
EET1607C | Electronics Assembly and Cabling and Lab | 3 |
EGS1000 | Professional Performance for Technicians | 3 |
| | |
COP2360 | C# Programming | 3 |
| OR | |
COP2800 | Computer Programming Java | 3 |
Computer Engineering Technology Electives (12 hrs)
| Elective | 3 |
| Elective | 3 |
| Elective | 3 |
| Elective | 3 |
Electives (Choose 12 hours from the list)
CAP1801 | Simulation Fundamentals | 3 |
CAP2023 | Introduction to Game Programming | 3 |
CTS2308 | Installing and Configuring Windows Workstation OS | 3 |
CET2660 | Fundamentals of Cybersecurity Analysis | 3 |
CET2850 | Wireless and Mobile Security | 3 |
MAC1114 | College Trigonometry | 3 |
CGS2100 | Microcomputer Applications | 3 |
CTS2353 | Networking with Windows Server | 3 |
CTS2358 | Identity with Windows Server | 3 |
CIS2350 | Principles of Information Assurance | 3 |
ETM2315C | Hydraulic and Pneumatic Power and Control and Lab | 3 |
EET2142C | Analog Circuits and Basic Analog Communications and Lab | 4 |
CTS2321 | Linux Fundamentals | 3 |
EGN2045 | Engineering and Technology Calculus I | 4 |
MAC2311C | Calculus I and Lab | 4 |
MAC1140 | Pre-Calculus Algebra | 3 |
STA2023 | Elementary Statistics | 3 |
EET2142C, CTS2321: Students choosing a combination of three (3) and/or four (4) credit hour courses in their electives should add the remaining hours in coop education (CET 2949). Please see the chairperson if you have any questions.
Sample Program of Study
Year 1
1st Semester
| Mathematics Core | 3 |
CET2154 | A+ Computer Repair | 4 |
EET1607C | Electronics Assembly and Cabling and Lab | 3 |
CET1112C | Digital Fundamentals and Lab | 4 |
Students seeking to transfer to Bachelor's program are recommended to complete MAC1105 to satisfy their Mathematics core requirement.
2nd Semester
EET1011C | Introduction to Electrical Circuits and Lab | 3 |
COP1000 | Principles of Computer Programming | 3 |
ENC1101 | Introduction to Composition | 3 |
CET1600 | Network Plus | 3 |
EGS1000 | Professional Performance for Technicians | 3 |
Summer Semester
| Humanities Core | 3 |
| Social Sciences Core | 3 |
Year 2
1st Semester
EET1021C | Advanced Electrical Circuits and Lab | 3 |
| | |
COP2360 | C# Programming | 3 |
| OR | |
COP2800 | Computer Programming Java | 3 |
| | |
EET1141C | Analog Devices and Circuits and Lab | 4 |
ENC1102 | Writing with Research | 3 |
| Elective | 3 |
2nd Semester
CET2123C | Microcomputer and Basic Digital Communications and Lab | 4 |
CET2949 | Cooperative Education Experience in Computer Engineering Technology | 1 |
| Elective | 3 |
| Elective | 3 |
| Elective | 3 |
SPC2608 | Oral Communications/Research/Presentation Skills | 3 |
Total Credit Hours: 68