Bachelor of Science in
Electronics Engineering
Bachelor of Science in Electronics Engineering (BSECE) is the science dealing with the development and application of devices and systems involving the flow fo electrons or other carriers of electric charge, in a vacuum, gaseous media, in plasma, in semiconductor, in solid-state and/or in similar devices, including, but not limited to, applications involving optical, electromagnetic and other energy forms when transduced or converted into electro signals
Program Educational Objectives
The graduates of Electronics Engineering program shall:
OBJECTIVES | GRADUATE ATTRIBUTES |
---|---|
1 Be effective in Engineering design and the practical application of engineering theory in accordance with high standards of ethics; | Competent and equipped with research-based knowledge |
2 Be effective in communication skills and exhibits teamwork; | Collaborative and with leadership skills |
3 Be successfully employed or accepted into graduate programs and serve their communities, whether locally, nationally, or globally; and | Life-long learner |
4 Be successful designer, manager, planner, and or entrepreneur in the practice of civil engineering profession serving local international or global communities. | Ethical, critical thinker, problem solver, creative, and innovative |
- Program Outcomes
- Apply knowledge of mathematics and science to solve complex engineering problems;
- Design and conduct experiments, as well as to analyze and interpret data;
- Design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability, in accordance with standards;
- Function on multidisciplinary teams;
- Identify, formulate, and solve complex engineering problems;
- Apply professional and ethical responsibility;
- Communicate effectively;
- Identify the impact of engineering solutions in a global economic, environmental, and societal context;
- Use techniques, skills, and modern engineering tools necessary for engineering practice;
- Apply knowledge of engineering and management principles as a member and leader in a team, to manage projects and in multidisciplinary environments; and
- Apply knowledge of electronics engineering in at least one specialized field of electronics engineering practice.
- Curriculum
1st Year • 1st Semester
Course Name Units Chemistry for Engineers (lab) 1 Chemistry for Engineers (lec) 3 Computer Fundamentals and Prog 1 1 Engineering Drawing and Plans 1 English Enhancement Course 3 The University and I 2 Mathematics in the Modern World 3 Algebra and Trigonometry 2 Analytic Geometry w Solid Mensuration 2 Naval Res Officer Trng Course 1 3 National Service Training Program 1 3 Physical Activities Toward Health and Fitness 1 2 Science, Technology and Society 3 1st Year • 2nd Semester
Course Name Units Purposive Communication 3 Computer Fundamentals and Prog 2 1 Engineering Economy 3 The Family 2 Calculus 1 (Differential Calculus) 3 Engineering Data Analysis Engineering Data Analysis 3 Naval Res Officer Trng Course 2 3 National Service Training Program 2 3 Physical Activities Toward Health and Fitness 2 2 Physics for Engineers (lab) 1 Physics for Engineers (Calculus-Based) 3 Understanding the Self 3 2nd Year • 1st Semester
Course Name Units Computer Aided Drafting 1 Electrical Circuits 1 (lab) 1 Electrical Circuits 1 (lec) 3 Electronics 1 Electrical Devices & Circuits 1 (lab) 1 Electronics 1 Electrical Devices & Circuits 1 (lec) 3 Calculus 2 (Integral Calculus) 3 Physical Activities Toward Health and Fitness 3 2 Physics 2 (lab) 1 Physics 2 (lec) 3 Environmental Science and Engineering 3 Readings in Philippine History 3 2nd Year • 2nd Semester
Course Name Units Communications 1 Principles of Comm Sys (lab) 1 Communications 1 Principles of Comm Sys (lec) 3 Electrical Circuits 2 (lab) 1 Electrical Circuits 2 (lec) 3 Electronics 2 Electronic Circuit Anal & Design (lab) 1 Electronics 2 Electronic Circuit Anal & Design (lec) 3 Art Appreciation 3 Differential Equations 3 Physical Activities Toward Health and Fitness 4 2 The Contemporary World 3 3rd Year • 1st Semester
Course Name Units Techniques (lab) 1 Techniques (lec) 3 Signal Spectra, Signal Processing (lab) 1 Signal Spectra, Signal Processing (lec) 3 Electronics 3 Electronic Sys & Des (lab) 1 Electronics 3 Electronic Sys & Des (lec) 3 Panitikang Filipino 3 Advanced Engineering Mathematics (lab) 1 Advanced Engineering Mathematics (lab) 3 Engineering Management 2 Rizal's Life, Works and Writings 3 3rd Year • 1st Semester
Course Name Units Digital Electronics 1-Logic Circuits & Switching Theory (lab) 1 Digital Electronics 1-Logic Circuits & Switching Theory (lec) 3 Antenna System (lab) 1 Antenna System (lec) 3 Communications 4-Data Comm (lab) 1 Communications 4-Data Comm (lec) 3 Feedback & Control System (lab) 1 Feedback & Control System (lec) 3 Retorika 3 Ethics 3 Technopreneurship 3 3rd Year • Summer
Course Name Units OJT (On-Job-Training) Practicum 1 OJT (On-Job-Training) lec 2 Signals, Spectra, Signal Processing lab. 1 4th Year • 1st Semester
Course Name Units Academic Writing 3 Computer System Architecture (lab) 1 Computer System Architecture (lab) 3 Review Communications Engineering 2 ECE Design Project 1 (lab) 1 Methods of Research 3 Electromagnetics 4 Review Electronics Engineering 2 Review Mathematics 2 4th Year • 2nd Semester
Course Name Units Digital Electronics 2 - Microprocessor - Microcontroller (lab) 1 Digital Electronics 2 - Microprocessor - Microcontroller (lec) 3 Correlations Course 3 ECE Design Project 2 (lab) 1 Safety 3 Materials Science & Engg 3 Languages (lec) 3 infoDisclaimerThe curriculum is subject to modification without prior notice. For precise and current listings, kindly coordinate with our registrar department.
- Estimated Fees
Particular Amount Estimated Total Fees per semester (including tuition and other fees) ₱40,227.00 infoDisclaimerThe particulars and corresponding amounts are subject to modification without prior notice. For precise and current listings, kindly coordinate with our treasury and assessment department.
- Career Opportunities
Entry Level:
- Electronics Engineer: Assist in the design, development, and testing of electronic systems. Work on the implementation of circuitry and components.
- Field Service Engineer: Provide on-site support for electronic systems and equipment. Troubleshoot and repair electronic devices.
- Test Engineer: Assist in developing and implementing testing procedures for electronic components. Evaluate the performance and reliability of electronic systems.
- Hardware Design Engineer: Assist in the design and development of electronic hardware. Work on schematic design, layout, and prototyping.
- Embedded Systems Engineer: Work on designing and programming embedded systems. Develop software for microcontrollers and other embedded devices.
Mid-Level:
- Senior Electronics Engineer: Lead the design and development of complex electronic systems. Mentor junior engineers and oversee project teams.
- RF (Radio Frequency) Engineer: Design and optimize radio frequency systems and communication devices. Work on projects related to wireless communication.
- Product Development Engineer: Lead the development of new electronic products. Collaborate with cross-functional teams on product lifecycles.
- Systems Integration Engineer: Integrate electronic systems and ensure compatibility. Coordinate with various engineering teams on system integration projects.
- Hardware Test Manager: Manage the testing process for electronic hardware. Develop and implement test plans and procedures.
Senior Level:
- Director of Electronics Engineering: Oversee the electronics engineering department. Shape the strategic direction of electronic engineering efforts.
- Principal Hardware Engineer: Lead the design and development of critical electronic hardware. Provide technical expertise and guidance to engineering teams.
- Chief Engineer (Electronics): Serve as the top technical executive overseeing electronics engineering. Provide leadership in technical decision-making.
- Senior RF Design Engineer: Lead the design and optimization of complex RF systems. Contribute to the development of cutting-edge communication technologies.
- Technology Development Manager: Manage the development of new technologies in the electronics field. Collaborate with research and development teams.
Managerial/Executive Level:
- Chief Technology Officer (CTO - Electronics): Serve as the top technology executive in charge of electronics. Shape the technological direction of the organization.
- Director of Research and Development (R&D - Electronics): Oversee the R&D department, guiding innovation efforts. Shape the organization's technological advancements.
- VP of Electronics Engineering: Serve as the vice president overseeing electronics engineering. Contribute to business planning and technology advancements.
- CEO/President of Electronics Company: Serve as the top executive in charge of an electronics company. Set corporate strategy, lead business development, and ensure company success.
- Chief Innovation Officer (CIO - Electronics): Oversee innovation initiatives within the electronics domain. Drive strategic innovation and technological advancements.
Keywords
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