Best Electrical Engineering Technology Degree Programs of 2022

Learn more about the top Electrical Engineering Technology programs, what to expect, job prospects, and how to choose the program that’s right for you.

Electrical engineering technology is the study of the design, development, and implementation of electrical systems. Electrical engineering technology degrees can prepare students for a variety of careers in the electrical engineering field, including electrical engineer, electronics engineer, and computer engineer.

Electrical engineering technology degrees offer a broad overview of the electrical engineering field, covering topics such as circuit design, digital electronics, and power systems. Students in electrical engineering technology degree programs learn about the different aspects of electrical engineering, and how to apply those concepts to real-world problems.

How to Choose the Right Electrical Engineering Technology Program

When it comes to choosing the right electrical engineering technology program, there are a few key factors that prospective students need to keep in mind. The first is accreditation. Any reputable program will be accredited by ABET, which is the gold standard in accreditation for engineering programs.

Next, students need to consider the curriculum. A good electrical engineering technology program will offer a mix of classroom instruction and hands-on learning opportunities. Students should also make sure that the program they choose offers courses that align with their career goals.

Finally, cost is always a consideration when choosing a college degree program. Students should research tuition rates, financial aid opportunities, and scholarships before making a decision. By considering all of these factors, prospective students can find the right electrical engineering technology program for their needs.

Best Bachelor’s in Electrical Engineering Technology Programs

The best programs for Electrical Engineering Technology ranking is based on key statistics and student reviews using data from the U.S. Department of Education. Some of the metrics influencing how the rankings are determined include graduation rate, average salary for graduates, accreditation, retention rate, and cost.

Rank 1
Pennsylvania State University
University Park, PA

The Bachelor of Science in Electrical Engineering Technology from Pennsylvania State University provides students with a well-rounded education in electrical and electronic design principles, and offers concentrations in areas such as computer engineering technology, control and robotic systems design, electronic circuit design, communication systems design, and power systems design. The program includes extensive laboratory experience.

Rank 2
Western Carolina University
Cullowhee, NC

The Bachelor of Science in Engineering Technology from Western Carolina University is a great choice for students who want to enter a career in engineering. The program is accredited by the Engineering Technology Accreditation Commission of ABET and provides students with the technical skills and knowledge needed to succeed in their chosen career. The curriculum is designed to build on a background in applied sciences and mathematics, and there is a strong emphasis on the integration of theory and applications. Students in this program will complete a two-semester senior capstone project for industrial sponsors under the guidance of faculty members and mentors.

Rank 3
Oklahoma State University
Stillwater, OK

The Bachelor of Science in Electrical Engineering Technology at Oklahoma State University is a laboratory-oriented program that provides students with a strong foundation in applied electrical engineering. The program emphasizes the use of current application information and practices for specific technical problems. Courses are taught by EET faculty who have extensive industrial experience.

Rank 4
Indianapolis, IN

The Bachelor of Science in Electrical Engineering Technology at IUPUI is a four-year program that prepares students for careers in industries such as power distribution and design, industrial automation, manufacturing, energy and power, robotics, and more. The program focuses on energy and automation, which are areas of growth.

Rank 5
University of North Carolina at Charlotte
Charlotte, NC

The Bachelor of Science in Electrical Engineering Technology (ELET) program at UNC Charlotte prepares graduates of the Associate in Applied Science (AAS) degree program for careers across a broad spectrum of technologies. The ELET program includes coursework in linear circuits, digital logic and systems, microprocessors and embedded systems, electronic circuits and systems, control systems, and power systems.

The program culminates in a two-semester capstone project, in which students demonstrate their understanding of electrical technologies and their ability to plan, execute, and report on a project. The ELET program is accredited by the Accreditation Board for Engineering and Technology (ABET).

Rank 6
Southern Illinois University-Carbondale
Carbondale, IL

The Bachelor of Science in Electrical Engineering Technology from Southern Illinois University-Carbondale provides students with the knowledge and skills necessary to pursue a wide variety of career options. The curriculum is flexible, allowing students to complete the degree in two to three years on a part-time basis. The degree includes 56 semester hours of Electrical Engineering Technology courses covering subjects such as electric circuits, electronics, control systems and microcontrollers, and telecommunications. There is also a capstone design project.

Rank 7
SUNY College of Technology at Canton
Canton, NY

The Bachelor of Technology in Electrical Engineering Technology degree from SUNY College of Technology at Canton is a four-year program that prepares students for careers in electrical and electronic engineering technology. The program provides students with experience in electronics, electrical power, industrial controls, digital/microprocessors, telecommunications, and a capstone project. Students also have the opportunity to study abroad at Vaal University of Technology in South Africa.

Rank 8
Bluefield State College
Bluefield, WV

The Bachelor of Science in Electrical Engineering Technology degree from Bluefield State College is a four-year program that prepares students for careers in electrical engineering. The program covers the design and operational characteristics of electrical circuits, electrical machinery, and electronics equipment. Students will also study subjects such as electrical drafting, computers, electrical power systems operation and control, and communications.

Rank 9
Farmingdale State College
Farmingdale, NY

The Bachelor of Science in Electrical Engineering Technology from Farmingdale State College is a 126-credit program that is designed to meet the needs of those with an associate degree in EET or a related discipline, as well as to address the industry need for graduates with current and sound skills in electrical engineering technology. The program has a solid foundation in mathematics and physics, provides a variety of electives in the arts, sciences, and humanities, and is focused on applying current engineering technology methods to the solution of technical problems. The program is accredited by the Engineering Technology Accreditation Commission of ABET.

Rank 10
Youngstown State University
Youngstown, OH

The Bachelor of Science in Electrical Engineering Technology from Youngstown State University is a degree that prepares students for success in a wide range of fields in technology and design. The program focuses on both classroom and lab experiences, with coursework that covers using engineering methods and computer knowledge to find solutions to problems. Many juniors and seniors in the program take advantage of co-op programs with local companies, and flexible course scheduling allows students to work full or part time while completing the degree. There is also the option to pursue a Master of Science in Engineering for this major.

What to Expect From a Bachelor’s in Electrical Engineering Technology Program

Students in a Bachelor of Science in Electrical Engineering Technology program learn how to apply the principles of electrical engineering to the design, development, testing, and maintenance of electrical equipment and systems. The curriculum emphasizes the application of theory to real-world problems and includes coursework in mathematics, physics, and computer science.

Most programs require students to complete an internship or cooperative education experience to gain practical experience in the field. Graduates of the program are prepared for careers in a variety of industries, including manufacturing, automotive, aerospace, and telecommunications.

Common Electrical Engineering Technology Courses

The curriculum for an electrical engineering technology degree program typically features a mix of technical and liberal arts courses. The former provide students with the necessary skills and knowledge to enter the workforce, while the latter help them develop into well-rounded, critical thinkers. The courses below are representative of those offered in most electrical engineering technology programs.

EM Waves & Transmission Lines

This course covers the nature and behavior of electromagnetic (EM) waves, and the characteristics and behavior of transmission lines. Topics include a review of vector analysis, Maxwell’s equations, the wave equation, Poynting’s theorem, reflection and refraction, polarization, skin depth, dielectric and magnetic materials, and transmission lines. Upon completion, students should be able to analyze and design simple circuits containing transmission lines.


This course covers the basic theory of electronic devices and circuits. Topics include electron theory, semiconductor physics, diodes, bipolar junction transistors, field-effect transistors, amplifiers, operational amplifiers, digital electronics, and an introduction to microprocessors. Emphasis is placed on analysis and design of basic electronic circuits. Upon completion, students should be able to apply basic electronic theory to the analysis and design of electronic circuits.

Power Systems Analysis

This course covers the analysis of power systems, including the development of mathematical models for power system components, the use of these models to perform system analysis, and the interpretation of the results of these analyses. Topics include power system components and their models, power flow analysis, short-circuit analysis, and stability analysis. Upon completion, students should be able to develop mathematical models of power system components, use these models to perform power flow, short-circuit, and stability analyses, and interpret the results of these analyses.

Programmable Logic Controllers

This course covers the use of programmable logic controllers (PLCs) in an industrial environment. Topics include PLC hardware, software, and programming; input/output devices; and troubleshooting. Emphasis is placed on developing ladder logic programs to solve industrial automation problems. Upon completion, students should be able to develop ladder logic programs to solve simple industrial automation problems.

Technical Writing

This course covers the process of writing technical reports, proposals, and manuals. Topics include audience analysis, document design, effective use of visuals, and proper grammar and punctuation. Upon completion, students should be able to produce various types of technical documents using proper format, layout, and style.

Career Options for Electrical Engineering Technology Graduates

Graduates of electrical engineering technology programs work in a variety of industries, including electrical engineering, manufacturing, and construction. They may also work in fields such as telecommunications, automotive engineering, and aerospace engineering.

Electrical Engineer

Electrical engineers are responsible for designing, developing, testing, and supervising the manufacture of electrical equipment, such as generators, motors, and radar and navigation systems. They may also work on projects related to communications, power, lighting, and control systems. Electrical engineers typically have a bachelor’s degree in electrical engineering.

Systems Control Engineer

Systems control engineers work on the design, implementation, and maintenance of systems that control physical or chemical processes. They might work on HVAC systems in buildings, the control systems for manufacturing assembly lines, or the safety systems in nuclear power plants. In all cases, they must design systems that meet the specific needs of their clients while also adhering to safety standards and regulations. Systems control engineers typically have a bachelor’s degree in engineering, and many also have a master’s degree or PhD.

Telecommunications Engineer

Telecommunications engineers design and oversee the installation of communications systems, such as telephone networks, fiber-optic cable systems, and wireless networks. They also test these systems to ensure they are working properly and troubleshoot any issues that arise. In addition to their technical skills, telecommunications engineers must be able to effectively communicate with other members of their team, as well as with customers or clients.

Maintenance Technician

Maintenance technicians are responsible for keeping buildings and grounds in good repair. They may work in a variety of settings, including office buildings, factories, apartments, and hospitals. Maintenance technicians typically have a high school diploma or equivalent, and many have completed some postsecondary education or have received on-the-job training. The job can be physically demanding, and technicians often work on a variety of tasks each day. They may be responsible for painting, carpentry, plumbing, electrical work, and more.

Automation Engineer

Automation engineers are responsible for developing and maintaining the systems that keep machines running smoothly and efficiently. This can involve anything from developing new algorithms to fine-tuning existing ones, to designing and building new hardware. Automation engineers often work in manufacturing or other industrial settings, but can also be found in office environments, where they might work on automating tasks like data entry or report generation.

Insights From an Electrical Engineering Technology Graduate

Kiera Warren is an Electrical Engineer at Siemens. She has a bachelor’s degree in electrical engineering technology from Southern Polytechnic State University. Kiera has over 10 years of experience in the electrical engineering field.

ClimbtheLadder: What were the biggest takeaway(s) you got from your Electrical Engineering Technology program that you may not have gotten otherwise?

Kiera Warren: The biggest takeaway from my electrical engineering technology program was the ability to design and build electrical systems. This was a skill that I was able to use in my career and has helped me to be successful.

ClimbtheLadder: What type of person is successful and thrives in an Electrical Engineering Technology career?

Kiera Warren: A person who is successful in an electrical engineering technology career is someone who is able to adapt to change. The field of electrical engineering is constantly changing, and new technologies are always being developed. You need to be able to learn new things quickly and be able to apply them to your work.

You also need to be able to work well in a team. Electrical engineering is a very collaborative field, and you will often be working on projects with other engineers. It is important that you are able to communicate well and work together to solve problems.

ClimbtheLadder: What misconception(s) do people have about an Electrical Engineering Technology degree, and what would you tell them?

Kiera Warren: I think the biggest misconception about an electrical engineering technology degree is that it’s not as good as an electrical engineering degree. I would tell people that an electrical engineering technology degree is just as good as an electrical engineering degree, if not better.

The reason I say this is because an electrical engineering technology degree is more focused on practical applications, while an electrical engineering degree is more focused on theory. I think that practical experience is more important than theory, so I would say that an electrical engineering technology degree is the better choice.


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