Last Updated on May 31, 2022
Electrical engineering is a field within engineering that mainly tackles the research and application of electricity, electromagnetism and electronics. Products that we use everyday require the expertise of electrical engineers, and a Master in Electrical Engineering program will teach students the skills necessary for a successful and fulfilling career in private companies, government organizations, or even as an entrepreneur.
The best electrical engineering schools offer undergraduate and graduate degrees that provide students with a solid background in math, science, and electrical engineering. Graduates of the best electrical engineering programs are in high demand in a wide range of industries such as electronics, aerospace, electrical power generation, telecommunications, manufacturing, and robotics.
Right here on infolearners, you are privy to a litany of relevant information on best electrical engineering schools in the world, best specialization in electrical engineering, masters in electrical engineering requirements, electronics engineering specialization and so much more. Take out time to visit our catalog for more information on similar topics.
What is Electrical Engineering?
Electrical engineers use math and science to design and develop equipment like navigational systems, electric motors, communication systems and other electrical products. Their designs allow us to do important things like talk on our cell phones and fly across the ocean on safe planes.
Electrical engineering is the design thinking, building and maintenance of already existing electrical devices, structures, equipment, machineries and systems. It also involves the research in discovering new trends and sources of electricity with the unique behavior of the electrical field around every other material.
Electrical engineers own the task of producing new electrical and electronic devices that are certified and capable to efficiently do the work they were created to do. They are involved in research and production of less energy-consuming electrical devices and products to help conserve energy and increase efficiency.
As engineering is all about technology, it is good to note that electrical engineering is a branch off engineering that deals majorly with the technology of electricity. Without electricity, technology wouldn’t have grown as far as it has.
What do Electrical Engineers Do?
As an electrical engineer, you can be in the business of creating new electrical devices, designing new electrical systems and prototypes or maintaining already built electrical devices or systems.
An electrical engineer can also major in the field of electrical research, discovering new sources of electricity, conversion mechanism of electrical power, deep study into the field of electricity to discover more novel properties of electricity and charged electrical fields.
How difficult is electrical engineering?
Electrical engineering is not a difficult course or career. It is interesting, result-oriented and features a lot of research and practice. It may seem difficult from the onset because of the numerous practical sessions but as you progress and get used to the systems and protocols, you will begin to appreciate the course.
This list of best electrical engineering schools featured here is created to help you discover the top schools in the world to have the full experience of electrical engineering. These schools will certainly make the experience of electrical engineering less difficult and more fulfilling.
Are electrical engineers in demand?
With the speed of technological development in the world today, there is no doubt electrical engineers are very much in demand. From the microchips in some of the electronic devices we use down to big heavy machineries in farms and industries, the services of electrical engineers are much in demand.
Where Do Electrical Engineers Works?
As an electrical engineer, you can work in vast electrical and pure engineering, production and several other industries and establishments around the world like the marine industries, automotive industries, aerospace industries, construction industries, power generation industries, oil and gas industries, telecommunication industries, construction industries and so on.
If you find yourself in the marine industry as an electrical engineer, you can work onboard as part of the electrical team on the ship to ensure that the ship is electrically in good condition all the time or is attended to should any electrical fault surface. You could as well work at the seaport to help in maintaining the electrical systems there or building new ones to serve specific purposes.
If you find yourself in any other industry as an electrical engineer, your job description may be somehow related as it would always be connected to fixing electrical systems, doing research on the electrical field, and building new functional electrical system.
Which country is best for electrical engineering study?
France, the United States, Germany, the united kingdom, Canada, Australia are among the top picks for the best places to obtain an electrical engineering degree.
Practically, every good country should have at least a single university that is at least an average place to study electrical engineering when compared to world standards.
In all, if you want to get the best out of your career in electrical engineering, it is recommended that you find the very best schools in your area for electrical engineering. There are several schools all over the world good enough for a career in electrical engineering aside the ones listed here. To that effect, we’ve put up this article on the top 15 of these electrical engineering universities in the world that are considered as best.
If you can’t make it to any of these universities, you should find one of the schools in your area that is good in electrical engineering and enroll. If you are in Canada, you can take a look at our article on the best engineering schools in Canada with scholarships and decide if you could make your choice from there.
If you are in the united states, you can take a look at some of the available medium-sized engineering universities that also offer electrical engineering programs and degrees.
Best specialization in Electrical Engineering
At the intersection between healthcare and technology rests electrical engineering with a biomedical focus. Electrical engineers who specialize in biomedical technology are responsible for developing the technology needed for efficient, accurate, and effective healthcare, including instrumentation technology, diagnostic technology, bio-instrumentation and informatics, biometric data and readout system, signal & image analysis, computing devices, display devices, and more.
University of Illinois
Many electrical engineering programs offer a biomedical specialization at the bachelor’s, master’s, and doctoral levels, much like the University of Illinois. There are several sub-specializations within this track, so the courses that electrical engineering students take throughout their education vary but include a core set of electrical and computer engineering courses followed by subspecialty courses.
The university offers several programs such as an MEng in bioengineering (available online as well as on-campus), an MS in bioengineering, and a Ph.D. in bioengineering.
The MEng program comprises 32 credits including courses in biological measurement, innovation & introduction to financial decision making, managing business operations, and seminars in bioinstrumentation. The MS program includes courses such as computational bioengineering, analytical methods in bioengineering, bioengineering professionalism, and biomedical computed imaging systems, among others.
For admission to the MEng program, students will require at least a bachelor’s degree in science, engineering, or related discipline, a minimum grade point average of 3.0, and proof of English language proficiency for international students.
- Location: Urbana, IL
- Accreditation: Higher Learning Commission
- Expected Time to Completion: 24 months
- Estimated Tuition: Residents ($18,998); Nonresidents ($36,150); Online students ($1110 per credit)
While there are no official certifications in biomedical engineering, those hoping to practice independently or be a principal engineer in research can become professional engineers (PEs) by taking the National Council of Examiners for Engineering (NCEES) PE exam in electrical and computer engineering.
Careers for electrical engineers with a biomedical focus include those in research and development, analysis, field service engineering, validation engineering, and consulting.
Electrical engineers who specialize in communications are responsible for determining how to transfer data at high speeds. Electrical engineers with a specialty in communications can work with wired and wireless telephone systems, satellite systems, email, internet, and broadband technology, and more.
Electrical engineering students hoping to specialize in communications can find a variety of programs available at all academic levels, both on-campus and online. Some programs offer communications as a specialization or concentration of an electrical engineering degree, while others offer telecommunications as a part of the degree title (e.g., Drexel University).
Drexel University offers a master of science in electrical and telecommunications engineering degree program preparing students to contribute to advances in this rapidly changing field of telecommunications.
Admission requirements include a four-year bachelor’s degree in a STEM or related field from an accredited institution in the US or an equivalent international institution, a minimum cumulative GPA of 3.0, a completed graduate admission application, official transcripts, a 500 words essay, a current resume, two letters of recommendation, and TOEFL, IELTS, or PTE scores for international applicants.
Generally, students earning a master’s level degree in telecommunications engineering take core courses in electrical engineering and electrical computer engineering, and then complete elective coursework focused specifically on communications engineering. Comprising 45 credits, the program includes coursework in fundamentals of communications engineering, physical foundations of telecommunications networks, physical principles of electrical engineering, principles of data analysis, and research in telecommunications.
- Location: Philadelphia, PA
- Accreditation: Middle States Commission on Higher Education
- Expected Time to Completion: 24 months
- Estimated Tuition: $1,342 per credit
In addition to becoming a PE in electrical engineering, telecommunications engineers can find a wide variety of telecommunications certifications available. Some certifications are based on specific companies or technologies, while others are general telecommunications engineering certifications. Examples of telecommunications engineering certifications can be found on the following websites:
- Telecommunications Certification Organization (T.C.O.)
- International Association for Radio, Telecommunications, and Electromagnetics (iNARTE)
- Society of Telecommunications Engineers (SCTE)
- Building Industry Consulting Service International (BICSI)
Telecommunications engineers can find careers working with telecommunication service providers, communications software developers, governmental agencies, public center agencies, equipment manufacturers, infrastructure manufacturers, and transportation organizations.
COMPUTATIONS, DATA & INFORMATICS
A highly multidisciplinary specialty of electrical engineering, those pursuing work in computations, data, and informatics work to use the power of computers to collect and analyze large amounts of data and information in an attempt to understand real-life phenomena and engineer their solutions. Electrical engineers with a focus on computations, data, and informatics work with advanced-level computers to create algorithms, modeling software, and more.
Those hoping to pursue higher education in computations, data, and informatics can find bachelor’s, master’s, doctoral, and post-graduate certificate programs available. Some programs have a specific focus on computations, data, or informatics, while others provide an educational blend of all three.
Some universities also offer a degree in electrical engineering with a choice to focus on these disciplines as a subspecialty, while others (e.g., City College of New York) offer degrees where electrical and data, computational, and informatics are in the title of the degree.
City College of New York
City College of New York’s master’s degree in data science and engineering provides students with a strong foundation in core engineering and data science skills, which allows them to apply, analyze, visualize, and process computational statistics and machine learning to problems in science, engineering, and other related disciplines.
The major admission requirements include a bachelor’s degree in mathematics, science, or engineering from an accredited institution of higher education with a minimum GPA of 3.0, two letters of recommendation, and TOEFL or IELTS test scores for students who have earned their baccalaureate degrees from non-English-speaking countries. GRE scores are optional.
The program is made up of 30 credits. Examples of coursework include an introduction to data science, applied statistics, applied machine learning & data mining, big data & scalable computation, computer graphics, advanced algorithms, image processing, and introduction to robotics.
- Location: New York, NY
- Accreditation: Middle States Commission on Higher Education
- Expected Time to Completion: 18 to 24 months
- Estimated Tuition: $945 per credit
Because computations, data, and informatics make up such a multidisciplinary field, electrical engineers with one of these specialties can pursue a range of professional certifications. Examples of certifications can be found at the Data Science Council of America (DASCA), the Institute for Operations Research and the Management Sciences (INFORMS), and IBM.
Those pursuing a career in electrical engineering with a focus in computations, data, and informatics can work in virtually any industry that uses big data to make decisions, including healthcare, space, transportation, logistics, government, and more.
ENERGY & POWER
Electrical engineers who specialize in energy and power are responsible for determining how to make power and energy systems efficient, effective, and environmentally responsible. Concerned with the generation, transmission, and distribution of electric power, energy and power engineers can work with devices, processes, and analysis and the design of systems, technologies, and infrastructure.
Similar to other electrical engineering disciplines, power & energy tracks can be found at the graduate and undergraduate levels. Programs are offered online, on-campus, or as a hybrid. Some programs offer power and energy as a subspecialty of an electrical engineering degree, while other institutions offer energy-specific titles like the master of science in energy systems (e.g., Wallace H. Coulter School of Engineering at Clarkson University).
Wallace H. Coulter School of Engineering at Clarkson University offers a master of science degree in energy systems enabling students to integrate electrical or mechanical energy-related courses, electrical and mechanical fundamental discipline courses, and non-technical courses regarding the impact of economic, regulatory, and environmental issues on energy. The faculty of the program includes accomplished researchers, industry practitioners, and educators.
To get accepted into the program, applicants must have a bachelor of science degree in engineering, physics, or equivalent field, a completed online application form, a current resume, a statement of purpose, two letters of recommendation, official transcripts, and an English proficiency test for international applicants.
The program requires a total of eleven courses. Sample some of the coursework: fuel cell science and hydrogen engineering, photovoltaic engineering, linear control systems, turbine engineering, wind energy engineering, solar energy engineering, synchronous electrical generators, and nuclear engineering, among others.
- Location: Schenectady, NY
- Accreditation: Middle States Commission on Higher Education
- Expected Time to Completion: Full-time (18 to 24 months); Part-time (30 to 36 months)
- Estimated Tuition: $1,488 per credit
While a certification is not required to work as an energy and power engineer, there are many certifications available for those wishing to establish professional competence, and connect to a network of highly skilled energy and power professionals.
The Association of Energy Engineers provides a large list of energy-related certifications available to power and energy engineers. Careers for energy and power engineers can be found in any field concerned with power systems, including storage, renewables, transportation, conservation, and more.
NANOENGINEERING & MICROENGINEERING
Nanoengineers and micro-engineers work to create power solutions at the size of 0.1 to 100 nanometers. Studying and applying knowledge of phenomena, processes, and materials at the nanoscale involves learning both inside and outside the standard electrical engineering canon. With disciplinary overlap with physics, chemistry, materials science, and biology, electrical engineers who focus on nano- or micro-technology can apply their knowledge to almost any industry.
Programs in electrical engineering with a nanotechnology focus exist at all levels of higher education, though nanotechnology at the bachelor’s level is still limited. Degrees in electrical engineering with a concentration in nanotechnology are available in on-campus, hybrid, and online formats. Some programs offer a broad concentration in nanotechnology, while other programs offer a specific realm of nanotechnology. University of Pennsylvania’s School of Engineering and Applied Science has an MS in electrical engineering focusing on physical devices & nanosystems.
University of Pennsylvania
University of Pennsylvania’s M.S.E. program in electrical engineering provides students with the theoretical foundation and the interdisciplinary skills required for dealing with the new ideas and applications that are the hallmarks of modern electro science.
The program’s focus on physical devices & nanosystems requires successful completion of 10-course units. The curriculum includes courses such as electromagnetic & optical theory, nanoscale science & engineering, nanofabrication & nano-characterization, principles & practice of microfabrication technology, photovoltaic systems engineering, and quantum engineering.
Applicants for this program must have obtained a bachelor’s degree from an accredited school or university. Application requirements include a current resume, a compelled application, a personal statement, two official letters of recommendation, one transcript from each university or college attended, and TOEFL or IELTS scores for international students. GRE scores are optional.
- Location: Philadelphia, PA
- Accreditation: Middle States Commission on Higher Education
- Expected Time to Completion: 12 to 24 months
- Estimated Tuition: $7,884 per course-unit
Because of the novelty of the field, there is no specific PE exam for nanotechnology yet. Due to the broad range of applications, those hoping to work as a PE can take a PE exam in the engineering field most closely related to the field in which the engineer is working. Those pursuing nanotechnology can find themselves in various careers, including application engineering, research and development, product marketing, sales, and program management.
SYSTEMS & CONTROL ENGINEERING
Electrical engineers who concentrate on systems and control, design complex systems that have both human and non-human inputs to ensure that they work predictably and efficiently. Another multidisciplinary engineering specialization, systems and control engineers are generalists who can work from a big-picture perspective to bring together the work output of differentiated engineers.
Electrical engineers who pursue systems and control can work anywhere where there are large, complex systems to be analyzed and optimized including biological systems, industrial systems, environmental systems, transportation systems, computer systems, and more.
Students can pursue concentrations in systems and control at all levels of higher education both online and on-campus. While some programs offer systems and control as a specialization of electrical engineering, other programs (e.g., Case Western Reserve University) offer a degree specifically in systems and control engineering.
Case Western Reserve University
Case Western Reserve University offers an online master of science in systems & control engineering preparing students for rewarding careers in multiple engineering fields. The program features multidisciplinary research and coursework in design, control, and systems analysis. Blending research with practical applications, this user-friendly online program enables students to connect with professors and classmates instantly.
For admission to the program, students require a bachelor’s degree, transcripts, a current resume, two letters of recommendation, and proof of English proficiency for international applicants.
The program’s structure requires students to complete 30 credits featuring coursework in leadership and interpersonal skills, digital signal processing, engineering economics & financial analysis, introduction to linear systems, digital control systems, advanced engineering analysis, and convex optimization for engineering.
- Location: Cleveland, OH
- Accreditation: Higher Learning Commission
- Expected Time to Completion: 18 months
- Estimated Tuition: $39,000
For those hoping to attain status as a PE, there is an NCEES PE exam specifically in control systems engineering. Those hoping to increase credibility, expand their networks, or become more competitive in the job market can seek certification in systems and control engineering from the International Council on Systems Engineering (INCOSE). Control engineers can find careers in a vast array of industries including energy and power, utilities, manufacturing, healthcare, information tech, and transportation, among others.
Best Specialization In MS Electrical Engineering
Electronics engineers develop, test, and manufacture electrical equipment. They may work with computers, communications, or other electrical components. Earning a master’s degree in the field prepares students for advanced positions and may lead to managerial roles.
Median Annual Salary: $97,970*
Electrical Engineering Technician
These technicians build, repair, and calibrate electrical systems. They may build prototypes or test specific components of machinery. While this position requires only an associate degree, individuals with a master’s may supervise or train technicians.
Median Annual Salary: $63,660*
Computer Hardware Engineer
Computer hardware engineers specialize in the design and development of computer components and systems, including processors, circuit boards, and routers. This position typically requires a bachelor’s degree, but a graduate degree qualifies professionals for specialized or managerial positions.
Median Annual Salary: $115,120*
Network and Computer Systems Administrator
This administrative position requires a bachelor’s in electrical engineering or computer engineering. A master’s degree in electrical engineering can qualify professionals for specialized positions with higher salaries. Network administrators install and monitor computer systems, networks, and hardware and software to ensure system security and performance.
Median Annual Salary: $81,100*
Competitive candidates for this position often hold a bachelor’s in mechanical engineering and a master’s degree in electrical engineering. Mechanical engineers help design and manufacture mechanisms that require electrical components. They may create batteries, power generators, or electric cars.
Median Annual Salary: $85,880*
Best Electrical Engineering Schools
Many of the best electrical engineering schools also offer online degree options for students who want to earn their bachelor’s or master’s degree. Online programs are especially useful for working professionals who need to brush up on their skills or for those who have time constraints that make attending class difficult.
- Stanford University
- Harvard University
- Columbia University
- University of Michigan
- Duke University
- University of Illinois (UIUC)
- Princeton University
- Carnegie Mellon University
- Georgia Institute of Technology
- California Institute of Technology
- Purdue University
- University of Maryland
- University of Florida
- Northwestern University
- Colorado School of Mines.
Stanford University is a non-profit private research university located in Stanford, California. Founded in 1885 by Leland and Jane Stanford in memory of their only child, Leland Stanford Jr. who died of typhoid fever at age 15. In terms of studying electrical engineering program, Stanford cannot be easily beaten.
The department of electrical engineering of Stanford University was established in 1894, 9yrs after the university itself was established, making it one of the oldest electrical engineering departments in the world.
Stanford offers 3 different degree programs in electrical engineering, the most popular of which is the Master’s Degree program.
Stanford offers a Bachelor of Science with a major in Electrical Engineering with the opportunity to research and experiment projects. Student can choose one from the three core discipline to focus on:
- Hardware and Software System.
- Information System and Science.
- Physical Technology and Science.
If you are interested in something more advanced in electrical engineering, you will not find any difficulty in making Stanford University your choice
It is clear that Harvard is one of the best electrical engineering colleges in the world. It is a non-profit private university located in Cambridge, Massachusetts. It was established in 1636 and was ranked 2nd in the 2020 edition of the best colleges and national universities.
Harvard is known worldwide for excellence in academics, which makes her one of the most prestigious universities in the world. Harvard Comprised of 13 schools and institutes and is home to a top School of Engineering and Applied Sciences which produces pioneering work in Electrical Engineering discipline.
Electrical Engineering programs features;
Studying in Harvard Collage as an undergraduate student exposes you to a wide range of research areas from devices to systems.
As one of the best electrical engineering schools in the world, students at Harvard are taught to focus on building systems that sense, analyze and interact with the world. These students go beyond the mere connection of wires, they design sensors, analysis, computation and control systems; and also do major works in information processing. This far beyond what you can get in some other random electrical engineering universities around the world.
Fundamental knowledge of mathematics and science in general is a prerequisite as the practices of electrical engineers at Harvard are based on these.
The department of electrical engineering of Harvard University reports officially that electrical engineers at the university pursue works on diamond nanofabrication; quantum devices; integrated circuits for cellular biotechnology; millimeter-scale robots; hardware for machine learning; the optimization of smart power grids and other networked systems; disentangling brain signals and mapping brain circuits; distilling information from large stochastic datasets; and the fundamental limits of private information sharing.
These skills are highly in demand these days and all have high pay too. An Electrical engineer who is specialized in any of these skills or a combination two and above is a hot cake In the field. This is one of the reasons why we’ve listed Harvard as one of the best places to study electrical engineering in the world today.
In Harvard, all Electrical Engineering students specialize in electronic circuits and devices which give them the opportunity to explore other multiple areas such as;
- Control system
- Signal and system theory.
The research areas at the EE department at Harvard are majorly in Circuits & VLSI, Computer Engineering & Architecture, Robotics & Control and Signal Processing. The university offers both a B.A. and a B.sc in Electrical Engineering.
University of Michigan
The University of Michigan is a very large public research university in Ann Arbor, USA. As one of Michigan’s oldest universities, the school offers one of the best electrical engineering programs in the world. Founded in 1817 in Detroit, the university is a founding member of the elite Association of American Universities.
At the University of Michigan, electrical engineering comes along with computer engineering under the Electrical and Computer Engineering (ECE) department of the University. This department being one of the most respected not just in Michigan but the world at large has its focus on smart electronics, energy and power, information, communication, automation and robotics. These are parts of electrical engineering that you may not hear of in some EE schools around the world.
Electrical engineering and computer engineering come as separate majors under this department. The two majors according to the department are constantly ranked between 7th – 5th best in the US and the world by USNews and World Report.
Below is what the ECE department has to ay about these majors
A major in electrical engineering gives a broad overview of specialties including information technology, circuits, wireless communications, robotics, power and energy, optics, nanotechnology, computer hardware, control, electromagnetics and more. It is a lab-intensive major especially in the upper classes, so if you like hands-on activities, you’ll enjoy this major.
A major in computer engineering focuses more deeply on computer hardware and software, and embedded systems. There are still plenty of hands-on projects, as most everything these days is controlled in some way with a computer.
If you are admitted into this department in anhy of the majors, you will join other students to drive innovation by revolutionizing technologies to improve health, environment, sustainability, security, energy, robotics, big data, and more. This will put you on the frontline, researching, solving and addressing the current problems of the world today.
The youtube video below by the University of Michigan department of electrical and computer engineering gives a sneak peak of what you are to expect here.
This university is a large private research university located in the City of Durham, North Carolina USA. It was founded by Methodists and Quakers in the present-day town of Trinity in 1838.
Duke is one of the best university to study electrical engineering in the world. The Electrical Engineering degree program at Duke is surrounded by other disciplines such as;
- Digital Systems
- Signal Processing
- Control Systems
As one of the best universities for electrical engineering in the world, it’s faculty of electrical engineering was ranked as the 5th faculty in research and productivity in electrical engineering in the US. The university was also ranked as the 7th best university in the US for electrical engineering by College Factual.
Duke University was also ranked in the list of US colleges that pay off the most for engineering students by CNBC.
These recognitions and awards go to tell how good duke university is and these counts on why they made this list of the best electrical engineering schools worldwide.
Also, the Duke Electrical Engineering department has one of the most flexible Electrical engineering programs that is available.
University of Illinois (UIUC)
University of Illinois at Urbana – Champaign is a public university that was established in 1867 in Chicago.
The university ranked 48 in the 2020 edition of Best Colleges and National Universities. The University is fairly large in terms of student population.
As one of the best universities for electrical engineering in the world, the University of Illinois encourages students to complete at least two internships(usually paid) before the end of their program to enhance their practical knowledge of the course and build their career profile too. The university publishes available jobs and internships for students on their online internship and job board.
The university also runs a REUs (Research experiences for undergraduates) program where undergraduate students are given opportunities to complete career-building research projects over the summer. Students are being paid during this program well enough to cover their living expenses and several other costs throughout the time they spend on any REU programs.
The Electrical Engineering Department in the school offers courses in subfields including;
- Fields and Waves
- Analog Signal Processing, and
- Digital Systems Laboratory.
In the University all Electrical Engineering Students have access to the Senior Design Project Lab which gives them quality experience in the field of electrical engineering.
Princeton University is a moderately sized non-profit private research university located in the suburb Princeton, New Jersey. Founded in 1746 in Elizabeth as the College of New Jersey The institution moved to Newark in 1747, then to the current site nine years later. It was renamed Princeton University in 1896.
As one of the best electrical engineering universities globally, Princeton University help students gain mastery in electrical engineering by not only teaching and training them on electricity and electronics but also exposing them to several other fields like computer science, materials science, energy, physics, biology, neuroscience, economics, management, public policy and many other fields.
The University offers graduate and undergraduate programs in electrical engineering, duly accredited by the ABET Engineering Accreditation Commission.
Every semester, there’s an “open house” program organized by the department for undergraduate students which gives these students the best chance to demonstrate their projects and speak one-on-one with professors and electrical engineering majors to get experience and hands-on guide on what electrical engineering is all about.
Princeton University’s School of Engineering offers a Bachelor of Science in Electrical Engineering. Courses include:
- Statistical Signal Processing.
- Solar Energy Conversion.
- Optical Electronics
Carnegie Mellon University (CMU)
A private technology base research university located in Pittsburgh, Pennsylvania. Founded in 1900 by Andrew Carnegie as the Carnegie Technical Schools. The college of engineering at CMU ranks 5th nationally (US News and World Report).
The university is renowned for its award-winning faculties known for working with student to solve major scientific and technological societal problem through interdisciplinary approach.
Carnegie Mellon Department of Electrical Engineering offers highly flexible Bachelors Degree programs which provide strong foundation in ECE essential skills giving space for their student to dive into their own area of interest. Student can choose one out of the following five concentration area
- Device Sciences and Nanofabrication
- Signal and System
- Hardware System
Carnegie Mellon University is listed among the best electrical engineering schools in the world for several positive reasons. Their EE department is the largest in the college of engineering of the school and has led for years in research and education.
The university requires GRE General Test from all applicants and also requires TOEFL test score of not less than 84 in a single sitting from international students.
Georgia Institute of Technology
Here is another good electrical engineering university to look out for. Georgia Institute of Technology is a public research university located in Atlanta, Georgia. Establish on the 13th October 1885.
The school offers one of the best electrical engineering programs in the US and the world at large. Ranked as the 4th best school for undergraduate electrical engineering and the 6th best for graduate electrical engineering programs in the US.
Georgia offers a lot of research opportunities to students including ECE’s Undergraduate Research Opportunities Program (UROP).
Electrical Engineering Program Features.
The Georgia Tech’s School of Electrical and Computer Engineering (ECE) refers to their students and faculty as “the tinkerers, creators, and magic makers that make it happen.” which is imaginative to the prospective of student that want to partake in their innovative B.Sc. in Electrical Engineering program.
Research opportunities include:
- Opportunity Research Scholars Program
- The Vertically Integrated Projects Program ECE’s
- Undergraduate Research Opportunities Program (UROP)
Also in Georgia Tech’s, the B.Sc. in Electrical Engineering offers great opportunities for students to engage in innovative projects.
The California Institute of Technology (Caltech)
The California Institute of Technology (Caltech) is another private research university in Pasadena, California. It was established as a preparatory and vocational school by Amos G. Throop in 1891.
Caltech which is a member of the Association of American Universities is also one of the best electrical engineering schools in the world. Caltech ranks No.12 in the 2020 edition of Best Colleges and National Universities.
In Caltech, there is a balance in classroom lectures, laboratory and design experience for student
Their Department of Electrical Engineering offers a Bachelor of Science program in subfields which includes;
- Electromagnetic Engineering
- Signals, Systems, and Transforms.
- Analog Electronics Project Lab.
Purdue University adding to the number of best electrical engineering schools in the world is a public research university in West Lafayette, Indiana. The university was founded in 1869.
Purdue University stands tall with a mission statement to “serve and lead the state of Indiana, the nation, and the world-wide profession of electrical and computer engineering, by educating the next generation of engineers, by discovery that advances fundamental knowledge and its applications, and by innovation and engagement that address global challenges of societal impact”. The electrical engineering program of Purdue is currently ranked as the 9th best.
The Department of Electrical and Computer Engineering at Purdue University offers Bachelor of Science with strong background in physics and mathematics. Students are well prepared for a career in Electrical Engineering field.
Their core courses include:
- Linear Circuit Analysis.
- Electronic Measurement and Techniques.
- Electronic Circuit Analysis and Design
University of Maryland (UMD)
Here is another fairly large public university in terms of student population. The University of Maryland is a public research university located in the suburb College Park, Maryland. Founded in 1856. The university is ranked the 22nd top national university (2018 US News and World Reports).
The Department of Electrical and Computer Engineering in A. James Clark School of Engineering UMD creates innovative technology solutions in a wide range of areas from handheld communications to solar panels; from cardiac pacemakers to autonomous robots; from wireless networks to bio-engineered sensors that detect dangerous pathogens.
With a mission to provide excellent education in Electrical and Computer Engineering to undergraduate and graduate students, the University of Maryland trains students to be professional engineers, conducting innovative, interdisciplinary researches.
University of Florida – Gainesville
The University of Florida is a public research university in Gainesville, Florida with a fairly large student population. It is a senior member of the State University System of Florida Establish 1853.
University of Florida offers many Bachelors of Science in Electrical engineering with specialty from Electronic Devices and Circuits Electromagnetics, Power and Photonics Computers Communications and Systems & Controls. The department offers two majors, one in Computer engineering and the other in Electrical engineering.
The Departments of Electrical Engineering has extensive laboratory facilities and varied research programs that assist in both experimental and theoretical approaches to electrical and computer engineering.
The ECE department has a basic research focus on Cybersecurity, Biomedical Engineering, Software, Automotive & Aerospace, Internet of Things (IoT) and Smart Power.
This University is a private research university in Evanston, Illinois. It was founded in 1851 by nine men whose goal was to establish a university that would serve the Northwest Territory. The university is the top-ranked private university in the area.
The Department of Electrical Engineering and Computer Science is the largest in the Northwestern McCormick School of Engineering.
The department offers Bachelor of Science in Electrical Engineering which is fundamental in electrical engineering and also Masters of science in electrical engineering and Ph.D. in Electrical engineering.
The Electrical and computer science department program is flexible as it allows students to pursue their field of interest either in electrical engineering or computer engineering.
Colorado School of Mines
Colorado school of mines is another public research institution rated among the best public universities to study electrical engineering in the world. Located in Golden, Colorado, United States, the school was originally established in 1874 to serve the mining industries.
From 2016 to 2019 QS world Ranking the university ranked top institution in the world for Mineral and Mining Engineering. It is focused on science and engineering, where students and faculty together address the great challenges facing society today- especially those related to Earth, and Environmental Engineering.
At Colorado School of mines, the electrical engineering program provides cutting-edge educational training, research experience and project-based learning, with specialties in antenna and wireless communications, information and systems sciences and energy systems and power electronics as well as numerous opportunities to work in interdisciplinary fields.
At the Faculty, students at all levels starting from undergraduate have the opportunity to carry out researches with the faculty’s support. The faculty on its own has strong ties with several local and international industrial partners to make it even easier for their students to access paid internships with these industries, build their career profile and create opportunities for themselves with big industries in the electrical field.