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Undergraduate Program in Electrical Engineering

School of Electrical Engineering and Informatics

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Undergraduate Program in Electrical Engineering

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Undergraduate Program in Electrical Engineering

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Undergraduate Program in Electrical Engineering
Undergraduate Program in Electrical Engineering

Electrical Engineering is one of the most significant engineering fields that drives the evolution of human life in recent centuries. This is expected to continue into the future. Electrical engineering enables technology that opens a new chapter in human life.

Electrical engineers are the necessary transforming agents. By providing best engineering practice in every aspect, such as in maintenance and operation; inventing new products and innovations; conducting the state-of-the-art research in the field of science, and so on. The demand for electrical engineering engineers is one of the highest in the engineering field.

The electrical engineering study program at STEI ITB is supported by 53 members of the academic community who are respected in the fields of research and education. They are involved in a wide range of research activities covering areas such as control and systems, biomedical engineering, communications, computer design, graphic and image processing, computer systems and networks, digital signal processing, electronics, electrical power, information networks, smart systems, parallel distribution processes. , electrotechnical materials, microwave engineering, and VLSI integrated circuit design.

Curriculum Description
Educational Objectives
Learning Outcomes
Career Prospect
Enrollment and Graduate Data

Electrical Engineering is one of the most significant engineering fields that drives the evolution of human life in recent centuries. This is expected to continue into the future. Electrical engineering enables technology that opens a new chapter in human life.

Electrical engineers are the necessary transforming agents. By providing best engineering practice in every aspect, such as in maintenance and operation; inventing new products and innovations; conducting the state-of-the-art research in the field of science, and so on. The demand for electrical engineering engineers is one of the highest in the engineering field.

The electrical engineering study program at STEI ITB is supported by 53 members of the academic community who are respected in the fields of research and education. They are involved in a wide range of research activities covering areas such as control and systems, biomedical engineering, communications, computer design, graphic and image processing, computer systems and networks, digital signal processing, electronics, electrical power, information networks, smart systems, parallel distribution processes. , electrotechnical materials, microwave engineering, and VLSI integrated circuit design.

  1. Our graduates will have successful careers in their profession in Electrical Engineering or
    related fields.
  2. Our graduates will successfully pursue graduate study or engage in professional development.
  3. Our graduates will demonstrate leadership and play active roles in the improvement of their community especially industry, government or education sectors.
  • An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  • An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
  • An ability to communicate effectively with a range of audiences
  • An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
  • An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
  • An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
  • An ability to acquire and apply new knowledge as needed, using appropriate learning strategies
  • An Ability to learn advance knowledge in engineering field
A degree in electrical engineering can qualify you for a career in almost any line of industry. Almost everyone uses electrical and electronic equipment systems, so the industry needs professionals to build, repair, and improve the performance of these devices. Electrical engineers work in various important industrial sectors, such as: Telecommunications, Energy and Electric Power, Computers, Semiconductors, Aerospace, Bio Engineering, Manufacturing, Services, Education and Research, Transportation, and Automotive.
 
Some of the jobs below represent only a small part of the available positions:
  1. Research experts working in laboratories, conducting tests and discoveries. This job requires a high level of creativity, as well as patience. Whether inventing an opto-electronic device or as simple as designing an electric bottle opener, research experts are responsible for the discovery stage of the technology behind every new electronic product.
  2. When new technology is discovered, it must be applied. Engineering designers use computer simulations and models to turn innovations such as wireless technology into the tiny parts that make up the cell phone. The engineering designer must visualize how the inside of the future product will look, while finding several possible scenarios for the application of the new technology.
  3. Project engineers supervise many technicians specializing in the construction of new technology product prototypes. Project engineers must have a natural ability to lead, as well as high proficiency in a variety of electrical engineering disciplines.
  4. Test engineers design programs to check the functionality of electronic devices and to troubleshoot those devices when an error occurs. They keep the technology in good working order, and understand which elements to test and in what order. Successful test engineers retain a keen sense of intuition despite working long hours.