Best Online Electronics Engineering Programs
An online electronic engineering degree is a program offered by various universities and colleges through online platforms. It provides students with the opportunity to earn a bachelor's degree in electronic engineering remotely, typically over a duration of four years.
The National Center for Education Statistics (NCES) reports that the average undergraduate tuition and fees at a four-year institution were $16,647 in the 2019-20 school year, totaling about $66,590 for the entire degree. Additional costs such as room, board, transportation, and lost wages are not included. While some schools offer lower tuition for online students, this is not always the case.
According to Payscale, individuals with a bachelor's in electronics engineering technology earned an average base salary of $85,000 per year as of December 2021. Common job titles include electrical engineer, senior electrical engineer, controls engineer, manufacturing engineer, and automation engineer. The U.S. Bureau of Labor Statistics (BLS) reported a median salary of $103,390 for electrical and electronics engineers in 2020, with a projected 7% job growth from 2020 to 2030.
Top Programs
Online Electronics Engineering Programs cover essential principles and practices in electronic engineering, including circuit design, digital systems, signal processing, and electromagnetics. Students learn through a combination of online lectures, interactive coursework, virtual labs, and hands-on projects.
key Components
Key components of an online electronic engineering degree program may include:
Core courses in mathematics, physics, and engineering fundamentals.
Specialized courses in electronic circuit design, microelectronics, and digital signal processing.
Hands-on laboratory exercises using simulation software and virtual hardware.
Capstone projects or design projects to apply theoretical knowledge to real-world engineering challenges.
Opportunities for internships or co-op experiences to gain practical industry experience.
Preparation for professional certification exams or licensure requirements.
Courses You Will Take
In an online bachelor's in electronics engineering program, you can expect to take a variety of courses covering foundational principles, advanced concepts, and practical applications in the field of electronics engineering. Here are some common courses you may encounter:
Mathematics for Engineers: This course covers advanced mathematical concepts relevant to engineering, such as calculus, linear algebra, differential equations, and probability theory.
Physics for Engineers: An introductory physics course tailored to engineering students, covering topics such as mechanics, electromagnetism, waves, and optics.
Introduction to Electronics: An overview of basic electronic components, circuits, and systems, including diodes, transistors, amplifiers, and digital logic circuits.
Circuit Analysis: A comprehensive study of electrical circuits, including DC circuits, AC circuits, circuit theorems, and transient analysis.
Digital Systems Design: This course focuses on the design and implementation of digital systems using logic gates, flip-flops, registers, counters, and programmable logic devices.
Signals and Systems: An exploration of continuous and discrete-time signals, linear systems, Fourier analysis, and signal processing techniques.
Electromagnetics: A study of electromagnetic theory, including Maxwell's equations, electromagnetic waves, transmission lines, antennas, and electromagnetic compatibility.
Microelectronics: An in-depth examination of semiconductor devices, integrated circuits, fabrication processes, and electronic device modeling.
Electronic Communication Systems: A survey of analog and digital communication systems, modulation techniques, transmission media, and networking protocols.
Control Systems: An introduction to feedback control theory, system modeling, stability analysis, and controller design techniques.
Senior Design Project: A culminating project where students apply their knowledge and skills to design, implement, and present a practical engineering solution to a real-world problem.
Career Outlook
The career outlook for individuals with a degree in electronics engineering is generally positive, with a variety of opportunities available in diverse industries. Here are some key points regarding the career outlook for electronics engineers:
Job Growth: According to the U.S. Bureau of Labor Statistics (BLS), employment of electrical and electronics engineers is projected to grow by 7% from 2020 to 2030, which is faster than the average for all occupations. This growth is driven by increasing demand for innovative electronic devices and systems across various industries.
Industry Demand: Electronics engineers are sought after in industries such as telecommunications, aerospace, automotive, healthcare, consumer electronics, and renewable energy. They play a crucial role in designing, developing, and maintaining electronic devices, systems, and infrastructure.
Emerging Technologies: Advancements in areas such as artificial intelligence, Internet of Things (IoT), robotics, autonomous vehicles, and renewable energy present new opportunities for electronics engineers to contribute to cutting-edge technologies and innovations.
Specialization Opportunities: Electronics engineering offers opportunities for specialization in areas such as microelectronics, telecommunications, embedded systems, power electronics, control systems, and signal processing. Specialized knowledge and skills can enhance career prospects and earning potential.
Global Market Demand: Electronics engineering skills are in demand worldwide, offering opportunities for employment in both domestic and international markets. Globalization and the expansion of technology-driven industries contribute to the global demand for electronics engineers.
