Engineering Technology, Associate of Science - Electronics
Program Overview
The Associate of Science in Engineering Technology - Electronics equips students with technical competency, safe work practices, and a blend of theoretical and practical skills for supporting engineering processes in industries like manufacturing, medical, and aerospace. Graduates are prepared for careers as Electronics Technicians, Quality Control Inspectors, and Test Engineers, with opportunities in various sectors including healthcare, telecommunications, and government agencies.
Program Outline
Degree Overview:
Overview
The Associate of Science degree in Engineering Technology - Electronics prepares students for employment in various industries, including manufacturing, medical, electronics, and aerospace. The program equips individuals with a solid foundation in technical competency, safe work practices, and a combination of theoretical knowledge and practical laboratory skills necessary for supporting engineering processes, production, testing, and quality control.
Objectives
Upon completing the Engineering Technology - Electronics program, graduates will be able to:
- Troubleshoot electronic circuits and identify faults
- Calibrate tools and demonstrate proficiency with measurement and instrumentation
- Adhere to OSHA standards
- Recognize the importance of ethics and quality in the workplace
- Demonstrate proficiency with measurement and instrumentation
Program Description
The Engineering Technology - Electronics program consists of a comprehensive curriculum that covers various aspects of electronics, including digital techniques, basic CAD, circuit analysis, microprocessors, safety, linear techniques, programmable logic controllers, quality assurance, and processes and materials. Additionally, students complete general education coursework in natural sciences, mathematics, humanities, and speech.
Outline:
Course Schedule
The Engineering Technology - Electronics program consists of 60 credit hours of coursework, typically completed over two years of full-time study. The program includes:
- Core Courses (36 credit hours)
- General Education Courses (24 credit hours)
Assessment:
Assessment Methods
The Engineering Technology - Electronics program utilizes various assessment methods to evaluate student learning, including:
- Exams
- Quizzes
- Projects
- Lab reports
- Presentations
- Class participation
Teaching:
Teaching Methods
The Engineering Technology - Electronics program employs various teaching methods to cater to different learning styles and ensure effective knowledge transfer. These methods may include:
- Lectures
- Demonstrations
- Group discussions
- Hands-on lab activities
- Projects
- Simulations
Faculty
The program is taught by a team of highly qualified and experienced faculty members with expertise in their respective fields. Faculty members are actively engaged in research, industry collaborations, and professional development to stay abreast of the latest advancements and ensure the curriculum remains relevant to industry demands.
Careers:
Career Paths
Graduates of the Engineering Technology - Electronics program can pursue various career paths in the electronics industry. Potential job roles may include:
- Electronics Technician
- Field Service Technician
- Quality Control Inspector
- Test Engineer
- Design Engineer
Opportunities
Graduates are well-positioned to secure employment opportunities in various sectors, including manufacturing, healthcare, telecommunications, aerospace, and government agencies. The program prepares students to enter the workforce as entry-level technicians or continue their education by pursuing a bachelor's degree in a related field.