PhD Electrical Engineering PHD Program By National University of Sciences & Technology (NUST) Islamabad |Top Universities
Subject Ranking

# 151-200QS Subject Rankings

Tuitionfee

3,050 USDTuition Fee/year

Main Subject Area

Engineering - Electrical and ElectronicMain Subject Area

Program overview

Main Subject

Engineering - Electrical and Electronic

Degree

PhD

Study Level

PHD

Study Mode

On Campus

Electrical engineering is a dynamic and multifaceted field that encompasses the study, design, and application of systems and devices that utilize electricity. This discipline lies at the heart of modern technology, driving innovation across a wide range of industries, including telecommunications, power generation, electronics, and automation.

A PhD program in electrical engineering typically begins with a strong foundation in mathematics, physics, and basic engineering principles. Students delve into topics such as circuit analysis, digital and analog electronics, electromagnetics, and signal processing. These fundamental courses provide the groundwork for more advanced studies in specialized areas.

As students progress through their coursework, they have the opportunity to explore diverse topics within electrical engineering through elective courses and hands-on projects. These may include power systems, control systems, communication networks, semiconductor devices, renewable energy systems, and robotics. Practical laboratory experiences complement theoretical learning, allowing students to apply their knowledge to real-world problems and gain valuable skills in experimentation and problem-solving.

In addition to technical expertise, electrical engineering programs emphasize the development of essential skills such as critical thinking, teamwork, and communication. Students often engage in collaborative projects and presentations, preparing them for the interdisciplinary nature of modern engineering practice.

Internships, co-op programs, and research opportunities further enrich the educational experience, providing students with valuable industry exposure and networking opportunities. These experiences bridge the gap between academia and the professional world, helping students develop practical skills and explore potential career paths.

Ethical considerations and societal impact are also integral components of electrical engineering education. Students examine the ethical implications of their work, considering factors such as environmental sustainability, safety, and equity. They explore how technology can be leveraged to address global challenges and improve the quality of life for people around the world.

Starting 3rd semester, students often commence PhD thesis that integrate their knowledge and skills to solve real-world engineering and research problems. These thesis’s require students to apply their technical expertise, creativity, and project management abilities to design and implement innovative solutions.

Upon graduation, students are well-equipped for diverse career opportunities in industry, government, academia, R&D and entrepreneurship. They may work in fields such as power systems engineering, telecommunications, semiconductor manufacturing, control systems design, renewable energy development, or research and development.

Overall, PhD in electrical engineering program provides students with a comprehensive education and research skills that prepares them to tackle complex challenges, drive innovation, and make meaningful contributions to society in an increasingly interconnected world.

Program overview

Main Subject

Engineering - Electrical and Electronic

Degree

PhD

Study Level

PHD

Study Mode

On Campus

Electrical engineering is a dynamic and multifaceted field that encompasses the study, design, and application of systems and devices that utilize electricity. This discipline lies at the heart of modern technology, driving innovation across a wide range of industries, including telecommunications, power generation, electronics, and automation.

A PhD program in electrical engineering typically begins with a strong foundation in mathematics, physics, and basic engineering principles. Students delve into topics such as circuit analysis, digital and analog electronics, electromagnetics, and signal processing. These fundamental courses provide the groundwork for more advanced studies in specialized areas.

As students progress through their coursework, they have the opportunity to explore diverse topics within electrical engineering through elective courses and hands-on projects. These may include power systems, control systems, communication networks, semiconductor devices, renewable energy systems, and robotics. Practical laboratory experiences complement theoretical learning, allowing students to apply their knowledge to real-world problems and gain valuable skills in experimentation and problem-solving.

In addition to technical expertise, electrical engineering programs emphasize the development of essential skills such as critical thinking, teamwork, and communication. Students often engage in collaborative projects and presentations, preparing them for the interdisciplinary nature of modern engineering practice.

Internships, co-op programs, and research opportunities further enrich the educational experience, providing students with valuable industry exposure and networking opportunities. These experiences bridge the gap between academia and the professional world, helping students develop practical skills and explore potential career paths.

Ethical considerations and societal impact are also integral components of electrical engineering education. Students examine the ethical implications of their work, considering factors such as environmental sustainability, safety, and equity. They explore how technology can be leveraged to address global challenges and improve the quality of life for people around the world.

Starting 3rd semester, students often commence PhD thesis that integrate their knowledge and skills to solve real-world engineering and research problems. These thesis’s require students to apply their technical expertise, creativity, and project management abilities to design and implement innovative solutions.

Upon graduation, students are well-equipped for diverse career opportunities in industry, government, academia, R&D and entrepreneurship. They may work in fields such as power systems engineering, telecommunications, semiconductor manufacturing, control systems design, renewable energy development, or research and development.

Overall, PhD in electrical engineering program provides students with a comprehensive education and research skills that prepares them to tackle complex challenges, drive innovation, and make meaningful contributions to society in an increasingly interconnected world.

Tuition fee and scholarships

Domestic Students

101,780
101,780

International Students

3,050
-

One of the important factors when considering a master's degree is the cost of study. Luckily, there are many options available to help students fund their master's programme. Download your copy of the Scholarship Guide to find out which scholarships from around the world could be available to you, and how to apply for them.

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More programs from the university

Disciplines offered include Engineering; IT & Computing,  Medical Sciences,   Business & Management Sciences,  Architecture & Industrial Design, Law Studies,  Social Sciences & Humanities,  Natural Sciences, and Biotechnology. All Engineering programmes at NUST are accredited under the Washington Accord, the Medicine program is accredited by WFME, and the Business School is undergoing AACSB accreditation. 

The university consistently ranks among the best globally, with several subjects in the top 200 in various university rankings. The quality of education is evidenced by the employer satisfaction survey putting NUST in top 100 universities of the world. NUST provides an ideal environment for international students seeking quality education, cross-cultural interactions, and a pathway to successful futures. 

Being entrepreneurial in character, NUST is home to a Technology Incubation Centre, Intellectual Property Office, Technology Transfers office, University-based Think Tank, and the National Science & Technology Park (NSTP), which knits together tenants (high-tech SMEs, start-ups, R&D centers, innovation hubs of large national and multinational businesses) to fuel innovation and churn out new technologies and new products for local and international markets.

NUST is a new-age university defining new frontiers in teaching and research. The programs are distinctive for their high-quality research orientation. Notwithstanding the significance of undergraduate courses, there is an ever-growing emphasis on postgraduate studies and research output. Creativity, innovation, and entrepreneurship are embedded as core values in all scholastic activities. 

By aligning the R&D with the UN SDGs, NUST has become one of the very few completely SDGs-engaged universities in the region. By focusing on the needs of industry and society, NUST graduates provide indigenous solutions with discernible socioeconomic impact. NUST has more than 400 labs across its campuses, with 34 key labs.

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