Education

Best Electronics Degree Programs of 2022

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

Electronics degrees are interdisciplinary programs that combine the study of electrical engineering and computer science. Electronics degrees can prepare students for a variety of careers in the electronics industry, including electronics engineering, computer engineering, and software engineering.

Electronics degrees offer a broad overview of the electronics field, covering topics such as electronic circuits, digital systems, and computer architecture. Students in electronics degree programs learn about the different aspects of designing and creating electronic devices, and how to use those devices to solve problems.

How to Choose the Right Electronics Program

When it comes to choosing an electronics degree program, there are a few things prospective students need to keep in mind. The first is cost. Electronics programs can be expensive, so students need to research tuition rates, fees, and other associated costs. Second, students need to consider the program’s curriculum. Is the program focused on theory or practical applications? Third, students need to consider the length of the program. Some programs can be completed in as little as two years, while others may take four years or more. Fourth, students need to check the accreditation status of the program. Finally, students need to consider the location of the program. Some programs may be offered online, while others may be offered at a physical campus.

Choosing the right electronics degree program depends on the student’s individual needs and interests. By considering the factors above, students can find the program that best fits their goals and budget.

Best Bachelor’s in Electronics Programs

The best programs for Electronics 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
Oregon Institute of Technology
Klamath Falls, OR

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.

Rank 2
University of Massachusetts-Lowell
Lowell, MA

The Bachelor of Science in Electronic Engineering Technology from University of Massachusetts-Lowell is a flexible program that focuses on the application of electronics principles and critical thinking to the solution of practical problems. Students learn to use math and computers to solve circuit problems, they learn about equipment testing, and they learn how to apply the technologies they learn and the fundamentals of electronics to address real-world problems. The program also prepares highly motivated students who are interested in continuing their studies to pursue an advanced degree in Electrical Engineering at UMass Lowell.

Rank 3
Bowling Green State University
Bowling Green, OH

The Bachelor of Science in Electronics degree from Bowling Green State University is a comprehensive program that prepares students for careers in the field of electronics and computer engineering technology. The program is accredited by the Engineering Technology Accreditation Commission of ABET and provides students with a solid foundation in the principles of electronics and computer engineering.

Rank 4
Norfolk State University
Norfolk, VA

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.

Rank 5
Pennsylvania College of Technology
Williamsport, PA

The Bachelor of Science in Electronics & Computer Engineering Technology degree from Pennsylvania College of Technology is a four-year program that prepares students for careers in the electronics and computer engineering field. The program provides students with a solid foundation in electronics and computer engineering principles, as well as the opportunity to specialize in a particular area of interest. Courses in the program cover topics such as digital electronics, microprocessors, software tools, networking, and linear integrated circuits.

Rank 6
ECPI University
Virginia Beach, VA

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.

Rank 7
Indiana State University
Terre Haute, IN

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.

Rank 8
Eastern New Mexico University
Portales, NM

The Bachelor of Science in Electronics Engineering Technology Composite from Eastern New Mexico University provides students with knowledge and experience in electronics technology and applications in computer systems design, research and development, and manufacturing and testing. The curriculum for the program is designed to be completed online, with recorded and live lectures available to students at their convenience. In addition to online coursework, the program also offers advising and tutoring services to help students successfully complete their studies.

Rank 9
University of Akron
Akron, OH

The Bachelor of Science in Electrical and Electronic Engineering Technology from University of Akron is a four-year program that prepares students for careers in the electrical and electronic engineering technology field. The program provides students with a firm foundation in the areas of applied mathematics, electric circuits, machinery, control and instrumentation circuits, and engineering technology principles. The program also includes a laboratory component where students can gain hands-on experience with the material they are learning. In addition, the program offers the opportunity to participate in a cooperative education program to gain real-world experience in the field.

Rank 10
Capitol Technology University
Laurel, MD

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.

What to Expect From a Bachelor’s in Electronics Program

Students in a bachelor’s in electronics program learn about the design, development, and maintenance of electronic equipment. The coursework emphasizes the physics and mathematics behind electronics, as well as the design of circuits and electronic devices. Students also learn about the testing and troubleshooting of electronic equipment.

Most programs require students to complete a capstone project in order to graduate. This project gives students the opportunity to apply the knowledge and skills they have acquired throughout the program.

In addition to coursework, students in a bachelor’s in electronics program often have the opportunity to participate in internships and co-ops. These experiences provide students with the opportunity to gain hands-on experience working with electronic equipment.

Prospective students should possess strong math and science skills, as well as the ability to work with complex equipment. They should also be able to work independently and be detail-oriented.

Common Electronics Courses

The courses you’ll take for an electronics degree will depend on the program and school you attend. However, many programs offer classes similar to the ones below.

Semiconductor Devices

This course covers the physics of semiconductor devices and their applications in electronic circuits. Topics include crystal structure and properties of semiconductors, carrier transport, p-n junctions, MOS capacitors, MOSFETs, bipolar junction transistors, and optoelectronic devices. Upon completion, students should be able to explain the operation of semiconductor devices and apply them in the analysis and design of electronic circuits.

Electromagnetics

This course covers the study of electromagnetic fields and their interactions with matter. Topics include electric and magnetic fields, Maxwell’s equations, electromagnetic waves, reflection and refraction, antennas, and transmission lines. Upon completion, students should be able to apply the laws of electromagnetism to solve problems and design systems.

Integrated Circuit Design

This course covers the design of integrated circuits, including MOSFETs, CMOS, and BiCMOS circuits. Topics include MOS device physics, MOSFET amplifier design, CMOS logic circuits, BiCMOS circuits, and VLSI design. Emphasis is placed on the use of computer-aided design tools for the analysis and design of integrated circuits. Upon completion, students should be able to design and simulate MOSFET, CMOS, and BiCMOS circuits using computer-aided design tools.

Electronics Materials

This course covers the properties, selection, and applications of electronic materials used in the manufacture of electronic devices and circuits. Topics include metals, alloys, ceramics, semiconductors, dielectrics, and magnetic materials. Emphasis is placed on the relationship between the structure and properties of materials and their suitability for specific electronic applications. Upon completion, students should be able to apply principles of materials science to the selection of materials for electronic applications.

Electronics Fabrication Processes

This course covers the methods used to fabricate electronic devices and assemblies. Topics include printed circuit board (PCB) design, etching, drilling, surface mount and through-hole assembly, and lead-free soldering. Emphasis is placed on the use of the proper tools and equipment, safety, and industry standards. Upon completion, students should be able to fabricate a PCB, assemble surface mount and through-hole components, and solder leads onto a PCB.

Career Options for Electronics Graduates

Graduates of electronics programs work in a variety of industries, including manufacturing, automotive, aerospace, and telecommunications. They may also work in fields such as research and development, quality assurance, and product development.

Electronics Engineer

Electronics engineers develop and design electronic components, systems, and equipment. They often specialize in a particular area, such as communications, medical devices, defense systems, or GPS technology. Their work might involve supervising the manufacturing process, conducting research and development, or managing projects. Electronics engineers typically have a bachelor’s degree in engineering and might also be certified by a professional engineering organization.

Computer Hardware Engineer

Computer hardware engineers research, design, develop, and test computer systems and components such as processors, data storage devices, and networking equipment. They also develop and oversee the manufacturing and installation of computer hardware. Computer hardware engineers typically have a bachelor’s degree in computer science or engineering and strong computer skills.

Robotics Engineer

Robotics engineers design robots and robotic systems and figure out how to get them to work together. They work in a variety of industries, including manufacturing, healthcare, consumer electronics, automotive, and the military. Robotics engineers typically have a bachelor’s degree in engineering, but some jobs may require a master’s degree or higher. The job can involve a lot of travel to meet with clients or attend conferences.

Embedded Systems Engineer

Embedded systems engineers design, develop, and test software and hardware for devices that are part of a larger system, such as a cell phone, an airplane, or a hospital machine. They work with both hardware and software and must be able to understand how the two systems interact. In some cases, embedded systems engineers work on devices that are not yet on the market and must be able to anticipate future needs.

Computer Systems Analyst

Computer systems analysts play a vital role in designing, developing, and maintaining an organization’s computer systems. They assess an organization’s current computer systems and procedures and make recommendations for improvements, upgrades, and new systems. They also develop detailed plans and specifications for new systems and oversee the installation and testing of those systems. Computer systems analysts typically have a bachelor’s degree in computer science or a related field.

Insights From an Electronics Graduate

Lance Pittman is a Senior Engineer at Raytheon. He has a bachelor’s degree in electronics from the University of Arizona. Lance has over 20 years of experience in engineering and management.

ClimbtheLadder: How did you make the most of your Electronics degree program so that it prepared you for post-graduation jobs?

Lance Pittman: I took a variety of courses that gave me a well-rounded understanding of electronics. I also did internships during the summers so that I could get real-world experience. I would recommend that students try to get internships in the field that they are interested in so that they can gain experience and network with people in the industry.

ClimbtheLadder: What should students interested in Electronics be good at?

Lance Pittman: Students interested in electronics should be good at problem solving, critical thinking, and math. They should also be able to work well in a team environment.

ClimbtheLadder: What was the most challenging course you took? What advice would you give to students who are about to start this course?

Lance Pittman: The most challenging course I took was electronic circuit analysis. My advice would be to start by reviewing the basics of Ohm’s law and Kirchhoff’s laws. These laws will help you understand the behavior of circuits. Next, practice solving problems. There are many websites that have practice problems. Finally, don’t be afraid to ask for help. The TA’s and professor are there to help you succeed.

Previous

Best Bioengineering Degree Programs of 2022

Back to Education
Next

Best Animation Degree Programs of 2022