Bachelor of Science in Electrical Engineering

Bachelor of Science in

Electrical Engineering

The Bachelor of Science in Electrical Engineering (BSEE) conceptualize, develop, design and application of safety, health, ethical, economic, and sustainable generation, transmission, distribution and utilization of electrical energy for the benefit of society and the environment through the knowledge of mathematics, physical, sciences, information technology and other allied sciences, gained by study, research and practice.

Program Educational Objectives

The graduates of Electrical Engineering program shall:

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; andLife-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;
    • Understanding of professional and ethical responsibility;
    • Can communicate effectively;
    • Broad education necessary to understand the impact of engineering solutions in a global economic, environmental, and societal context;
    • Recognition the need for, and an ability to engage in life-long learning;
    • Articulate and discuss the latest developments in the field of electrical engineering;
    • Apply techniques, skills, and modern engineering tools necessary for engineering practice; and
    • Demonstrate knowledge and understanding of engineering and management principles as a member and leader in a team, to manage projects and in multidisciplinary environments.
  • Curriculum

    1st Year • 1st Semester

    Course NameUnits
    Chemistry for Engineering (lab)1
    Chemistry for Engineering (lec)3
    Computer Fundamentals and Prog 11
    Engineering Drawing and Plans1
    English Enhancement Course3
    The University and I2
    Mathematics in the Modern World3
    Algebra and Trigonometry2
    Analytic Geometry w/ Solid Mensuration2
    Naval Res Officer Trng Course 13
    National Service Training Program 13
    Physical Activities Toward Health and Fitness 12
    Science, Technology and Society3

    1st Year • 2nd Semester

    Course NameUnits
    Purposive Communication3
    Computer Fundaentals and Prog 21
    Engineering Economy3
    The Family2
    Calculus 1 (Differential Calsulus)3
    Engineering Data Analysis3
    Naval Res Officer Trng Course 23
    National Service Training Program 23
    Phyiscal Activities Toward Health and Fitness 22
    Physics for Engineers (lab)1
    Physics for Engineers (Calculus-Based)3
    Understanding the Self3

    2nd Year • 1st Semester

    Course NameUnits
    Computer Aided Drafting1
    Electrical Circuits 1 (lab)1
    Electrical Circuits 1 (lec)3
    Fluid Mechanics2
    Calculus 2 (Integral Calsulus)3
    Engineering Mechanics3
    Physical Activities Toward Health and Fitness 32
    Basic Thermodynamics2
    Environmental Science and Engineering3
    Readings in Philippine History3

    2nd Year • 2nd Semester

    Course NameUnits
    Electrical Machines 12
    Electrical Circuits 2 (lab)1
    Electrical Circuits 2 (lec)3
    Electronics Circuits: Devices and Anal. (lab)1
    Electronics Circuits: Devices and Anal. (lec)3
    Art Appreciation3
    Differential Equations3
    Mechanics of Deformable Bodies3
    Physical Activities Toward Health and Fitness 42
    The Contemporary World3

    3rd Year • 1st Semester

    Course NameUnits
    Logic Circuits & Switching Theory2
    Feedback Control Systems2
    Electrical Machines 2 (lab)1
    Electrical Machines 2 (lec)3
    Electrical Standards & Practices1
    Fundamentals of Electronic Comm3
    Industrial Electronics (lab)1
    Industrial Electronics (lec)3
    Panitikang Filipino3
    Advanced Engineering Mathematics (lec)3
    Rizal's Life, Works and Writings3

    3rd Year • 2nd Semester

    Course NameUnits
    Microprocessors System2
    Electrical Apparatus & Devices (lab)1
    Electrical Apparatus & Devices (lec)2
    Electrical Systems & Illum Engg Des (lab)2
    Electrical Systems & Illum Engg Des (lec)3
    Numerical Methods & Analysis (lab)1
    Numerical Methods & Analysis (lec)2

    3rd Year • Summer

    Course NameUnits
    OJT (On-The-Training) lec1
    OJT (On-The-Training) Practicum1

    4th Year • 1st Semester

    Course NameUnits
    Academic Writing3
    Power Systems Analysis (lab)1
    Power Systems Analysis (lec)3
    Review Engg Science & Allied Subjects2
    Review Professional Electical Engg2
    Instrumentation & Control (lab)1
    Instrumentation & Control (lec)2
    EE Project/ Methods of Research1
    Distribution System & Substation Des (lab)1
    Distribution System & Substation Des (lec)2
    Review Mathematics2

    4th Year • 2nd Semester

    Course NameUnits
    Fundamentals f Powerplant Engg-Des1
    Correlation Course3
    EE Laws, Codes and Professional Ethics2
    High Rise Building Design3
    Substation Design3
    Materials Science & Engg (lec)2
    Management of Engineering Projects2
    Basic Occupational Safety & Healthy3
    EE Laws Design Project/Research Project1
    The 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)₱39,009.00
    The 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:

    • Electrical Engineer (Design): Assist in designing and developing electrical systems and components. Work on schematic design, PCB layout, and initial prototypes.
    • Test Engineer: Conduct testing and validation of electrical components and systems. Collaborate with design engineers to ensure product quality.
    • Field Service Engineer: Provide on-site support for the installation and maintenance of electrical systems. Troubleshoot and resolve technical issues.
    • Control Systems Engineer: Assist in designing and implementing control systems for machinery and processes. Collaborate with multidisciplinary teams on automation projects.
    • Electronics Technician: Assist in the assembly, maintenance, and repair of electronic systems. Troubleshoot and diagnose issues in electronic devices.


    • Electrical Project Manager: Manage electrical engineering projects from initiation to completion. Coordinate with clients, vendors, and project teams.
    • Power Systems Engineer: Design and analyze power distribution systems. Work on projects related to electrical grids and energy systems.
    • Senior Hardware Engineer: Lead the design and development of complex electronic hardware. Mentor junior engineers and contribute to product development.
    • Automation Engineer: Design and implement automation solutions for manufacturing processes. Optimize control systems for efficiency and reliability.
    • RF (Radio Frequency) Engineer: Design and optimize radio frequency systems and communication devices. Work on projects related to wireless communication.

    Senior Level:

    • Principal Electrical Engineer: Lead and oversee the design and development of advanced electrical systems. Provide technical leadership and guide engineering teams.
    • Director of Electrical Engineering: Oversee the electrical engineering department. Shape the department's strategic direction and project portfolio.
    • Chief Engineer: Serve as the top technical executive in charge of engineering functions. Provide leadership in technical decision-making.
    • Senior Power Systems Consultant: Provide expert consultation on power systems and energy projects. Work with clients on optimizing electrical infrastructure.
    • Research and Development Manager: Lead R&D initiatives for new electrical technologies. Manage research teams and contribute to innovation.

    Managerial/Executive Level:

    • Chief Technology Officer (CTO): Serve as the top technology executive, shaping the company's technological direction. Oversee research, development, and technology strategies.
    • Chief Electrical Engineer: Lead the electrical engineering department at an executive level. Shape the overall direction of electrical engineering efforts.
    • Vice President of Engineering: Oversee the engineering department, providing leadership and strategic direction. Contribute to business planning and product development.
    • CEO/President of Technology Company: Serve as the top executive in charge of a technology company. Set corporate strategy, lead business development, and ensure company success.
    • Director of Research and Development (R&D): Oversee the R&D department, guiding innovation efforts. Shape the organization's technological advancements.


Manuel S. Enverga University Foundation - Lucena City Lucena

College of Engineering CENG


Electrical Engineering