Best Electronics Engineering Technology Degree Programs of 2022
Learn more about the top Electronics Engineering Technology programs, what to expect, job prospects, and how to choose the program that’s right for you.
Learn more about the top Electronics Engineering Technology programs, what to expect, job prospects, and how to choose the program that’s right for you.
Electronics engineering technology is the study of the design, development, and implementation of electronic systems. Electronics engineering technologists work in a variety of settings, including manufacturing, telecommunications, and automotive industries.
Electronics engineering technology degrees offer a broad overview of electronics, covering topics such as digital electronics, microprocessors, and telecommunications. Students in electronics engineering technology degree programs learn about the different aspects of designing and developing electronic systems. They also learn about the testing and troubleshooting of electronic systems.
When choosing an electronics engineering technology program, there are many factors to consider. The most important factor is whether the program is accredited by ABET. Other important factors include the cost of tuition, the length of the program, the location of the school, and the school’s reputation.
The cost of tuition is an important factor to consider when choosing a program. Some programs are more expensive than others, and some schools offer scholarships and financial aid. The length of the program is also an important factor to consider. Some programs can be completed in as little as two years, while others may take four years or more. The location of the school is also an important factor to consider. Some programs are offered online, while others are offered at physical locations. The school’s reputation is also an important factor to consider. Some programs are more highly regarded than others, and some programs have better job placement rates.
The best programs for Electronics 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.
The Bachelor of Science in Electronics Engineering Technology (BSEET) program from Oregon Institute of Technology is designed to prepare graduates for engineering and technology positions in the electronics industry. The program is flexible to accommodate working professionals, with evening and online classes available. The curriculum is focused on providing students with the knowledge and skills necessary for immediate employment and continued advancement in the field of electronics.
The Bachelor of Science in Electronics Engineering Technology from Pittsburg State University is accredited by the Engineering Technology Accreditation Commission of ABET and prepares students for careers in the electronics industry. The program has a strong focus on practical applications and problem solving, and students will learn how to design and test systems, components, and processes. The program also emphasizes teamwork and communication skills, and graduates will be prepared to work effectively as members and leaders of technical teams.
The Bachelor of Science in Electronics Engineering Technology online degree program from the University of the Virgin Islands is designed to be completed in 38 months and provides students with the fundamentals and advanced skills in circuit theory and design, analog electronics, signal processing and microprocessor fundamentals. The program is 100% online and is accredited by the Accreditation Board for Engineering and Technology (ABET).
The Bachelor of Science in Electronics Engineering Technology from Central Washington University is a four-year program that provides students with specialized sequences from different disciplines within the electrical/electronics engineering field. The program is accredited by the Engineering Technology Accreditation Commission (ETAC) of ABET and prepares graduates for careers in the field or for further education. Students in the program will learn to apply knowledge, skills, and modern tools of mathematics, science, engineering, and technology to solve broadly-defined engineering problems and to design systems, components, or processes meeting specified needs.
The Bachelor of Science in Electronics Engineering Technology from Norfolk State University is designed to provide students with the technical-management competencies needed for professional careers in science, technology, education and management. The program emphasizes knowledge of electronics theory, principles, and software tools for problem solving in designing, building, simulating, troubleshooting, and decision-making for digital logic and analog circuits.
The Bachelor of Science in Electrical and Electronics Engineering Technology from Virginia State University provides students with the technical skills and knowledge necessary for a career in electronics. The program emphasizes laboratory and problem-solving skills, and students will become familiar with all aspects of electronics, including microprocessor-based systems, digital and analog communications, digital and analog control, electrical power, and microwave systems.
The Bachelor of Science in Electronics Engineering Technology degree from ECPI University is a skills-based degree with hands on labs, simulations, and faculty with industry experience. The program is designed to produce graduates who fulfill the needs of today’s employers. The curriculum provides graduates with the education and experience needed for employment in a variety of industries including: telecommunications, computer, homeland security, aerospace, automation and manufacturing, and education.
The Bachelor of Science in Electronics Engineering Technology from Indiana State University is a flexible program that helps students gain a solid foundation in the principles of electronics engineering technology. The program is designed to be completed in four years and includes coursework in basic technical areas, foundational studies, management, mathematics and computer science, and specialized technology.
The Bachelor of Science in Electronics Engineering Technology degree from Capitol Technology University is designed to prepare students for a wide range of practical electronics technology jobs. The curriculum covers topics such as circuit design and stimulation, network analysis and synthesis, transmission lines, and micro-system design. Students can also take additional electives to specialize in areas such as communications, computer design, control theory, micro-controllers, and telecommunications.
The Bachelor of Science in Electrical and Computer Engineering Technology from Miami Dade College offers students practical, hands-on experience in engineering-related project management, teamwork and technical writing. This degree is designed to facilitate a seamless credit transfer for students who have an Associate in Science (A.S.) in Electronics Engineering Technology, or Computer Engineering Technology.
Students in a bachelor’s degree program in electronics engineering technology learn about the design, development, testing and maintenance of electronic equipment. The curriculum emphasizes the application of engineering principles to the solution of technical problems. Students take courses in mathematics, physics and chemistry, as well as electronics-related topics such as circuit analysis, digital electronics and microprocessors. Many programs also include a capstone project in which students apply their knowledge to a real-world problem.
Most electronics engineering technology programs are accredited by the Engineering Technology Accreditation Commission of ABET. To be eligible for accreditation, a program must meet certain standards, including a minimum number of credit hours in electronics courses, a certain percentage of courses taught by full-time faculty and a certain number of laboratory hours.
In addition to the core curriculum, many programs offer concentration options, such as telecommunications, computer engineering technology or electrical power systems. Students may also be able to choose a general track if they want more flexibility in their course selection.
Prospective students should have strong math skills and be interested in working with electronic equipment. They should also be able to work independently and be detail-oriented.
The courses you’ll take while working towards your degree in electronics engineering technology will depend on the program and school you attend. However, many programs include the following courses in their curriculum.
This course covers the design, analysis, and implementation of digital systems. Topics include number systems, logic gates, Boolean algebra, minimization techniques, Karnaugh maps, flip-flops, registers, counters, memories, data conversion, and an introduction to computer architecture. Emphasis is placed on the design of combinational and sequential logic circuits. Upon completion, students should be able to design, implement, and test digital logic circuits using a variety of hardware and software tools.
This course covers the identification and control of workplace hazards, including ergonomics, slips/trips/falls, electrical safety, machine guarding, personal protective equipment, and hazardous materials. Emphasis is placed on the role of the safety professional in developing and implementing an effective safety program. Upon completion, students should be able to develop and implement an effective safety program that meets local, state, and federal regulations.
This course covers the methods, tools, and materials used in the electronics industry for the manufacture, assembly, and testing of electronic products and systems. Topics include safety, workmanship standards, inspection, documentation, process planning, assembly, soldering, wiring, cabling, and packaging. Upon completion, students should be able to apply proper workmanship standards, document assembly processes, and use the appropriate tools and materials to assemble and test electronic products and systems.
This course covers the installation, maintenance, and troubleshooting of low-voltage industrial electrical wiring and equipment. Topics include safety, hand and power tools, conduit and raceway systems, basic electrical theory, single- and three-phase circuits, motor controls, and programmable logic controllers. Upon completion, students should be able to apply safety rules and regulations, use hand and power tools, install and terminate various types of conduit, identify and correct various types of electrical circuit and wiring problems, and install and maintain various types of low-voltage industrial electrical equipment.
This course covers the analysis and design of feedback control systems. Topics include mathematical models of physical systems, transfer functions, block diagrams, stability, Nyquist and Bode plots, root locus, and frequency response. PID controllers are introduced along with design methods using phase and gain margins. Upon completion, students should be able to analyze and design feedback control systems.
Graduates of electronics engineering technology programs work in a variety of industries, including manufacturing, telecommunications, and aerospace. They may also work in fields such as research and development, quality assurance, and product development.
Broadcast technicians are responsible for the technical aspects of a television or radio broadcast. They set up and operate equipment, such as cameras, audio mixers, and lighting rigs, and make sure the quality of the broadcast meets the standards set by the station or network. Broadcast technicians typically work in a studio or control room, but they may also travel to remote locations to set up equipment for live broadcasts.
Computer support specialists provide technical assistance to computer users. They answer questions or resolve computer problems for clients in person, via telephone or from a remote location. They may also offer training to new computer users. Support specialists typically work in an office environment during regular business hours, but some may be required to work evenings or weekends to meet the needs of clients. Some computer support specialists may work from home.
Electronics technicians work with all kinds of electronic equipment, including but not limited to: radios, TVs, stereos, industrial machinery, computers, and more. They might install, maintain, and repair this equipment, or they might work in manufacturing and help create it. Electronics technicians typically have an Associate’s degree in electronics technology, although some jobs may only require a high school diploma or equivalent.
Electronics engineers design, develop, and test electronic components, products, and systems for commercial, industrial, medical, military, and scientific applications. They work with a variety of electronic devices, including microprocessors, circuit boards, sensors, and routers. Electronics engineers typically have a bachelor’s degree in electronics engineering, although some positions may require a master’s degree or higher.
Quality control engineers work to ensure that a company’s products meet or exceed customer expectations. They develop and oversee quality control systems, create testing procedures, inspect products, and manage teams of quality control technicians. Quality control engineers typically work in manufacturing or other industrial settings, but they can also be found in other industries, such as food and beverage, healthcare, and software development.
Kymani Glenn is a Field Service Engineer at Jabil. He has a bachelor’s degree in electronics engineering technology from the Rochester Institute of Technology. Kymani has over 7 years of experience in the electronics engineering field.
ClimbtheLadder: What were the biggest takeaway(s) you got from your Electronics Engineering Technology program that you may not have gotten otherwise?
Kymani Glenn: The biggest takeaway from my program was the ability to work with a team. In the real world, you will almost never work on a project alone. It is important to be able to communicate your ideas to others and be able to take criticism.
Another big takeaway was learning how to use industry standard software. In my program, we used Altium Designer, which is a PCB design software that is used by many companies. Learning how to use this software gave me a leg up when applying for jobs.
ClimbtheLadder: What are the most rewarding aspects of your career? What are the most challenging aspects of your career?
Kymani Glenn: The most rewarding aspect of my career is being able to see the direct impact of my work on the company’s bottom line. I work in field service, so when I’m able to fix a machine or solve a problem quickly, it saves the company time and money.
The most challenging aspect of my career is staying up-to-date on the latest technology. In the electronics engineering field, there are always new products and new ways of doing things. It can be difficult to keep up with everything, but it’s important to stay current so that you can be the most effective at your job.
ClimbtheLadder: Was there anything about your Electronics Engineering Technology program that you didn’t expect or anticipate?
Kymani Glenn: I expected the program to be very challenging, and it was. I was not expecting it to be as much work as it was. I was also not expecting to have to take so many math and science courses.