成人禁区

Skip to Main Content

About Electrical Engineering

Electrical Engineering is essential to modern society, driving innovation in fields of robotics, autonomous systems, health care, consumer electronics, and artificial intelligence. Electrical Engineering has applications in almost all industries, such as communication, consumer, energy, infrastructure, health care, manufacturing, military, robotics, and transportation. Hence, students can find jobs in this vast array of industries.

What is Electrical Engineering?

Electrical engineering is a branch of engineering that deals with the study, design, and application of systems and devices that use electricity, electronics, and electromagnetism. It encompasses a wide range of subfields and technologies, focusing on generating, transmitting, controlling, and using electrical energy and signals.

Key Aspects of Electrical Engineering

  1. Power Systems Engineering:
    • Design and management of large-scale electrical power systems.
    • Generation, transmission, and distribution of electricity.
    • Renewable energy systems, such as solar and wind power.
  2. Electronics:
    • Design and development of electronic circuits, devices, and systems.
    • Applications include consumer electronics, medical devices, and communication systems.
  3. Control Systems:
    • Development of systems that control machinery and processes.
    • Applications in robotics, automotive systems, and industrial automation.
  4. Communication Systems:
    • Design of technologies for transmitting data, such as radio, television, fiber optics, and wireless networks.
    • Includes telecommunications and satellite systems.
  5. Signal Processing:
    • Analysis and manipulation of signals (e.g., audio, video, or sensor data).
    • Applications in medical imaging, speech recognition, and multimedia systems.
  6. Microelectronics:
    • Design of small-scale electronic components like microchips and integrated circuits.
    • Used in computing, smartphones, and embedded systems.
  7. Electromagnetics:
    • Study of electromagnetic fields and their interaction with materials and devices.
    • Applications include antennas, radar, and wireless communication.
  8. Instrumentation and Measurement:
    • Development of devices and systems for measuring physical quantities (e.g., temperature, pressure, voltage).
    • Used in scientific research and industrial processes.

Applications of Electrical Engineering

  • Renewable energy and sustainability.
  • Telecommunications and networking.
  • Automotive industry (electric and autonomous vehicles).
  • Aerospace and defense systems.
  • Healthcare technologies (e.g., imaging and diagnostic devices).
  • Consumer electronics and smart devices.

Skills Required

  • Strong foundation in mathematics and physics.
  • Problem-solving and analytical thinking.
  • Proficiency in programming and software tools (e.g., MATLAB, Simulink).
  • Knowledge of electrical standards and safety protocols.

Electrical engineering plays a vital role in modern technology and innovation, driving advancements in nearly every sector of society.

Program Educational Objectives

The Electrical Engineering Program has two options: Electrical and Electronics Option and Bioelectrical Engineering Option. Our program integrates the Liberal Studies Core and emphasizes holistic student development in accordance with the mission of 成人禁区 University. The program educational objectives, which leads to a Bachelor of Science degree in Electrical Engineering, are to produce graduates who:

  • Demonstrate professional ethics and personal values in daily and professional life that exercise informed literary and aesthetic judgments by leveraging diverse cultures and societies
  • Demonstrate teamwork and leadership qualities and/or attainment of leadership roles in a global work environment
  • Demonstrate technical competency in applying comprehensive engineering knowledge for their successful career in rapidly changing professional environment
  • Demonstrate passion for life-long learning through engaging in the rapidly changing and emerging areas of technology, and/or continued professional development

To achieve these objectives, the ECE Programs maintain a modern curriculum, well-qualified faculty, a strong advising system, and the state-of-the-art laboratories. 

Program Information

Undergraduate Program

The undergraduate Electrical Engineering program is designed to guide the student to achieve technical competency and effective communication and leadership skills on projects, multi-disciplinary teams and society. The aim is to assure a sound preparation for adaptation in exciting and rapidly-changing areas of technology and the passion for lifelong learning. A part of this preparation is learning how to respond to ethical and public issues, including safety and social and environmental concerns.

Graduate Program

The graduate programs and curriculum in ECE are designed to provide advanced studies for the graduate engineer who wishes to continue preparation for effective participation in the professions of electrical, software and systems engineering. The program also provides continuing education in advanced subjects for the working engineer who acknowledges the need to stay abreast of the rapidly changing technological world. Emphasis is placed on the development of the engineer’s capacity for independent study and continued professional growth.