BSc Electrical and Electronics Engineering

4 Years On Campus Bachelors Program

University of Sharjah

Program Overview

The Bachelor of Science in Electrical and Electronics Engineering at the University of Sharjah builds a strong foundation in both electrical and electronic engineering principles while integrating design, analysis, and practical implementation across core areas like circuits, signal processing, control systems, power engineering, and communications. This degree suits talented students who are eager to tackle real‑world engineering challenges, equipping them with the depth and versatility needed for careers in power systems, automation, communications, and advanced electronic technologies.

Curriculum Structure:

Year 1:
In the first year, students lay essential groundwork in engineering fundamentals with subjects like Mathematics for Engineers, Introduction to Electrical and Electronics Engineering, Circuit Analysis I and its Laboratory, and Signals and Systems. These courses introduce students to analytical thinking, electrical theory, and hands‑on exploration of basic system behavior — key skills for more advanced engineering work.

Year 2:
During the second year, learners deepen their understanding with courses such as Circuit Analysis II with Laboratory, Fundamentals of Electronic Circuits and Lab, Electromechanical Systems and Lab, and Random Signal Analysis. Students begin to see how electrical and electronic components interact in systems, enhancing their problem‑solving and system modeling abilities.

Year 3:
In the third year, the curriculum advances into core technical areas like Field Analysis, Feedback Control Systems and Lab, Telecommunication Systems I and Lab, and Electronic Circuits and Laboratory. Here, students apply theory to complex system design and analysis, exploring electromagnetic fields, control strategies, communications, and modern electronic device behavior.

Year 4:
The final year broadens both depth and specialization, with advanced courses such as Digital Signal Processing, Power Electronics, Wireless Communication, and a Senior Design Project sequence. Students also choose technical electives that reflect their interests, culminating in capstone work that demonstrates their ability to engineer integrated solutions to real‑world problems.

Focus Areas:
Circuit analysis and design, digital and analog electronics, signal processing and communications, control systems, electromagnetics, electromechanical systems, power engineering, and embedded systems.

Learning Outcomes:
Graduates will be able to identify and solve complex engineering problems using scientific and mathematical principles, design electrical and electronic systems that address technical and societal needs, communicate effectively, work collaboratively in multidisciplinary teams, uphold ethical professional standards, and pursue lifelong learning to adapt to evolving technologies.

Professional Alignment (Accreditation):
The Bachelor of Science in Electrical and Electronics Engineering at the University of Sharjah is accredited by the Engineering Accreditation Commission (EAC) of ABET and by the UAE Ministry of Higher Education and Scientific Research, ensuring the program meets international engineering education standards and supports graduates’ readiness for global professional practice.

Reputation (Employability Rankings):
The University of Sharjah’s Department of Electrical Engineering is ranked highly among UAE institutions and globally, reflecting strong academic quality, faculty expertise, and student outcomes that help graduates stand out to employers in sectors such as power systems, automation, communications, and electronics.

Experiential Learning (Research, Projects, Internships etc.)

The Bachelor of Science in Electrical and Electronics Engineering at the University of Sharjah offers a practical learning environment that goes beyond traditional lectures, equipping students with the skills and confidence needed to excel in modern engineering careers. The program integrates a wide range of laboratory‑based courses, where students build, test, and analyze electrical and electronic systems as part of their core studies. Through teamwork, design projects, and senior capstone work, students learn to solve real engineering problems, design functional systems, and communicate technical ideas effectively. The department also promotes engagement with professional societies and applied research, fostering both technical competence and industry readiness. This comprehensive hands‑on focus ensures students develop practical capabilities that align with employer expectations and technological advancements.

Key Experiential Learning Experiences

Laboratory‑Centric Curriculum: A substantial portion of core courses includes laboratory components where students perform experiments in circuit analysis, electronic circuits, electromechanical systems, control systems, signal processing, and communications, enabling direct application of theoretical knowledge to physical systems.
Capstone Senior Design Projects: In the final academic year, students work in small teams on multi‑semester capstone projects that require them to plan, design, implement, and evaluate engineering systems, strengthening problem‑solving, project management, and presentation skills.
Simulation and Engineering Software Tools: Practical training incorporates the use of modern simulation platforms and analytical tools that prepare students for industry‑standard design and modeling workflows, enhancing their ability to prototype and optimize complex systems.
Team Projects and Collaboration: Throughout the degree, students engage in group‑based assignments and collaborative challenges that hone communication, teamwork, and leadership competencies critical in multidisciplinary engineering environments.
Professional Society Involvement: The department encourages participation in student chapters of professional organizations such as IEEE and robotics clubs, giving students opportunities to attend workshops, technical talks, and networking events that broaden their exposure to current industry practices and innovations.
Applied Technical Learning in Communications and Control: Specialized lab sessions in areas such as feedback and control systems, telecommunication systems, and programmable logic controllers allow students to gain hands‑on experience with real hardware and instrumentation.
Senior Seminar and Technical Presentations: Advanced courses include seminar components where students research contemporary topics, present findings, and refine oral communication skills essential for professional engineering contexts.

Progression & Future Opportunities

Graduates of the Bachelor of Science in Electrical and Electronics Engineering at the University of Sharjah are equipped to launch careers as Electrical & Electronics Engineer, Power Systems Analyst, Control & Automation Engineer, and Communications Systems Designer: this program builds strong technical foundations across circuits, power systems, signal processing, and communications, preparing students for diverse roles in high‑growth engineering sectors. Students benefit from globally recognized accreditation, personalized career resources, and strong academic preparation that positions them competitively in both regional and international job markets.

• University career support: The university’s Career & Professional Development team offers tailored career resources, guidance on job applications, and support for interviews and professional skills to help students transition successfully from study to employment.
• Internships & practical experience: The curriculum includes practical coursework and laboratory experiences that teach students to design, analyse, and implement electrical and electronic systems, giving hands‑on exposure that employers value.
• Accreditation & global recognition: The program is accredited by both the UAE Ministry of Higher Education and Scientific Research and by the globally respected Accreditation Board for Engineering and Technology (ABET), enhancing graduates’ credentials and mobility in global engineering markets.
• University–industry engagement: Students benefit from involvement in professional student clubs and organisations such as IEEE and robotics groups, which build connections with engineering communities and industry resources beyond the classroom.
• Graduate outcomes: Alumni are prepared to work across industries including power generation and distribution, communications, automation, and instrumentation, with strong problem‑solving and technical design skills developed through the program’s comprehensive coursework and capstone projects.

Further Academic Progression:
After completing the Bachelor of Science in Electrical and Electronics Engineering, students may choose to pursue advanced study such as a Master of Science or PhD in Electrical and Electronics Engineering or related specialisations to deepen technical expertise and qualify for research, academic, or senior engineering roles. Graduate study can take place at the University of Sharjah or at reputable international institutions, supporting pathways into advanced technological innovation and leadership positions.