Undergraduate Catalog

Bachelor of Science in Electrical Engineering Requirements

The BSc in Electrical Engineering program offers students a quality education that provides them with the knowledge, techniques and skills that will be needed by the next generation of highly qualified engineers. The program has well-designed core courses to ensure that students gain hands-on and problem-based learning experiences. The program also gives students the opportunity to select technical electives from a large pool of courses in order to specialize in certain areas.

Electrical systems are at the heart of the new industrial revolution and they affect nearly every aspect of our modern daily lives. These systems require professional engineers for their design, development, commissioning and service. The demand for such engineers is growing in the UAE because of the new and growing electrical and electronics industries.

Program Educational Objectives

  • Graduates would meet the expectations of Employers and the Society for timely and relevant technical knowledge and competencies, for careers and potential leadership related to their fields.
  • Graduates would be able to pursue advanced studies or professional growth through continuous learning and adaptation to technological advancement and the changing needs of their professions.

Student Learning Outcomes

Students graduating with a BSc in Electrical Engineering degree will attain the following:

(1) An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
(2) 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.
(3) An ability to communicate effectively with a range of audiences.
(4) 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.
(5) 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.
(6) An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
(7) An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

Program Facilities

The Electrical Engineering Program laboratories include:

  • Analog Electronics Laboratory
  • Computer Simulation Laboratory
  • Digital & Embedded Systems Laboratory
  • Electric Circuits Laboratory
  • Electric Machines Laboratory
  • Feedback Control Laboratory
  • High Voltage Laboratory
  • Industrial Automation Laboratory
  • Microcontrollers Laboratory
  • Measurements and Instrumentation Laboratory
  • Power Systems Laboratory
  • Projects Laboratory
  • Renewable Energy Laboratory
  • Communication Systems Laboratory

Professional Chapters

IEEE Student Chapter

The Institute of Electrical and Electronics Engineers (IEEE) is the world’s largest professional association for the advancing of technology. The IEEE student chapter aims to prepare students to face challenges of the outside world and equip them with all the sufficient knowledge of their own field as well as being distinguished by their awareness of other fields’ progress and their ability to communicate with others.

IEEE and its members encourage a global community through IEEE's highly cited publications, conferences, technology standards, and professional and educational activities.

The IEEE student section vision is a continuous, successful and productive student branch that holds new and innovative activities in both the scientific and social environments. Its mission is to be the definite article that merges all disciplines and activities into one big integrated multidisciplinary team of innovation and productivity.

The goals of the IEEE student chapter can be summarized as:

  • Explain the importance of networking and resources through technical societies.
  • Invite several qualified speakers to the campus from various backgrounds to share their experience and knowledge.
  • Coordinate with the other student chapters of to conduct workshops, activities and conferences.

Degree Requirements

To be recommended for graduation with a BSc in Electrical Engineering, students must successfully complete the courses in the specified categories as set out below. The categories cover the University General Education Requirements (GER, 45 credits), the College of Engineering Requirements (CER, 21 credits), as well as Electrical Engineering Core (49 credits), and Technical Electives requirements (15 credits). The normal length of the program is 130 credits.

Additional Math/Sciences Requirements (16 credits)

To satisfy the College of Engineering Requirements, the BSc in Electrical Engineering requires the following Math courses in addition to the Math/Sciences required in GER: CHEM 115, PHYS 121, MATH 111, and MATH 112.

MATH 204Linear Algebra

3

MATH 206Differential Equations

3

MATH 232Engineering Mathematics

3

MATH 243Probability and Statistical Inference

3

PHYS 122University Physics II

4

Electrical Engineering Core Requirements (49 credits)

ECCE 210Digital Logic Design

4

ECCE 221Electric Circuits I

4

ECCE 222Electric Circuits II

3

ECCE 302Signals and Systems

3

ECCE 312Electronic Circuits & Devices

4

ECCE 316Microprocessor Systems

4

ECCE 320Applied Electromagnetics

3

ECCE 322Electrical Machines

4

ECCE 323Feedback Control Systems

4

ECCE 360Communication Systems

4

ECCE 402Digital Signal Processing

3

ECCE 421Power System Analysis

3

ECCE 497Senior Design Project I

3

ECCE 498Senior Design Project II

3

Electrical Engineering Technical Electives (15 credits)

Students are required to take a total of 15 credits (five courses) from an approved technical electives list. Technical electives may be at 300-level or 400-level and at most three credits may be undergraduate research. Students can choose any course from the approved list to satisfy both their technical elective requirements as long as it is not a core requirement course in their program. Additional courses may be approved by the department as technical electives.

ECCE 422High Voltage Engineering

3

ECCE 423Power Electronics

3

ECCE 424Electrical Power Distribution Systems

3

ECCE 425Power System Stability and Control

3

ECCE 426Electric Drives and Renewable Resources

3

ECCE 427Power System Protection and Relays

3

ECCE 406Instrumentation and Measurements

3

ECCE 420Industrial Automation

3

ECCE 428Modern Control Systems

3

ECCE 429Digital Control Systems

3

ECCE 362Digital Communications I

3

ECCE 460Wireless Communications

3

ECCE 461Advanced Digital Communications

3

ECCE 462Communication Systems Design and Prototyping

3

ECCE 463Information and Coding Theory

3

ECCE 470Antennas and Propagation

3

ECCE 472Optical Communications and Networks

3

ECCE 481Wireless Sensor Networks and Internet of Things

3

ECCE 484Satellite and Space Communications

3

ECCE 326Introduction to Semiconductor Devices

4

ECCE 404Microwave Circuits and Devices

3

ECCE 408Digital Systems Design

3

ECCE 410VLSI Systems Design

3

ECCE 411Analog Integrated Circuits Design

3

ECCE 450Embedded Systems

3

 

ECCE 377Undergraduate Research

3

Or

ECCE 477Undergraduate Research

3