Electronic Engineering Courses
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Electrical engineering is a high-demand field with plenty of opportunities for skilled workers to find gainful employment. For students and professionals interested in pursuing a career in this industry, taking an online electrical engineering course is a great way to develop the foundational skills and knowledge you need to get started. To help you find the best courses available, we researched and reviewed the 10 best electrical engineering online courses.
Our list is based on a selection of basic and advanced criteria that are conducive to student success. We reviewed around 30 online courses based on these factors and narrowed our list down to the top 10 to help you find the electrical engineering courses that are most likely to set you on the right path in your career.
Time to complete. Shorter course lengths allow students to quickly develop the skills they need to take the next steps toward their new careers. With few exceptions, the courses on our list can be completed within a few days or weeks.
Prerequisites required. Course requirements make it difficult for beginners to get their foot in the door and start their new career paths. To ensure the options on our list can accommodate as many people as possible, we looked for courses that do not require any prerequisites or those that have requirements that are relatively easy to meet.
Flexible schedule. Many online course participants are working professionals or university students, making it important for courses to offer schedule flexibility. The courses on this list can be taken on a self-paced basis and offer flexible deadlines for coursework.
Certificate of completion. While not a requirement, we placed extra value on courses that offer certificates of completion as they can be a great way to boost your resume and impress potential employers.
We also reviewed courses based on several advanced criteria specific to electrical engineering. These factors help ensure that students learn in-demand industry skills and technologies and develop the soft skills they need to find long-term employment.
Introduction to Electronics by Georgia Tech is our top overall pick due to its beginner-friendly structure and comprehensive curriculum, which covers important topics like diodes, transistors, and op-amps. By the end of the course, students will have a great understanding of basic electronics and circuit design. Students will learn through pre-recorded lectures and quizzes totaling approximately 46 hours. The course can be audited for free, but to receive a certificate and access graded assignments, students will need to unlock the full course for $49. Students can take thecourse on a self-paced basis and take advantage of its flexible deadlines to complete the work on their own time.
MOS Transistors by Columbia University provides a focused curriculum dedicated to helping engineers learn how MOS transistors work and how to model them. This information is essential for device modelers, circuit designers, and microelectronics engineers, making it ideal for engineering students and professional engineers who need to establish these fundamentals to advance their careers. While the course does not have any prerequisites, it is not suitable for beginners as it contains difficult assignments for which students will likely need a background in electrical engineering. The course is available for free, including all lectures and assignments, but it does not offer a certificate of completion.
Who should take this course This course is designed for working electrical engineers, engineering students, and researchers who need to learn how to use ETAP to design and simulate power systems.
Alison is a free online learning platform that has 20 million learners, 3.5 million graduates, and 3,000 courses. This particular course is a great option for those who want to take a break from mundane lectures and video lessons in favor of interactive learning through the utilization of 2D and 3D models and animations. The course uses these interactive models to help students learn exactly how each part of an electrical transformer works. Students will learn important concepts, including how Buchholz relays, silica gel breathers, and tap changers work. Upon completion, students can purchase a digital or physical certificate for $26 or $33, respectively, to verify their newfound skills.
Knowing how to interpret electrical drawings is a key skill that many of the courses on this list gloss over. This course by Alison aims to help students and electrical engineers learn this important skill and covers other important topics like scale drawings, power plans, electrical details, and diagrams. The course is accredited by Continuing Professional Development (CPD) UK, and after finishing the course, students can purchase a certification from Alison to verify their competency on the subject. By the end of the course, students will be able to read wiring and cable connections for proper electrical installation and maintenance.
With that in mind, common job titles in this field include electrical engineer, electronics technician, controls engineer, and electrical design engineer. The Bureau of Labor Statistics lists the average salary for electrical engineers as $103,390 per year.
Yes, there are several free online electrical engineering courses available online. Some of the free courses in our list include Introduction to Electronics by Georgia Tech, Electricity and Magnetism: Electrostatics by MIT, and Introduction to the Electrical Trade by Alison.
Electrical engineering course lengths vary significantly depending on the provider and subject matter. The majority of the courses on our list can be completed in about four hours, while some may take several weeks to complete when taken on a part-time, self-paced basis.
Yes, many reputable online universities offer electrical engineering programs. This includes Florida International University, Clemson University, Arizona State University, and the University of North Dakota.
Electrical engineers design, develop and test electrical equipment and systems. This means their work ranges from managing the largest power grids to designing the smallest electrical components in your cell phone. A few examples include creating algorithms to better process digital signals, working on antennas, designing circuits systems, developing transistors and more. As the world becomes increasingly digital and electronic, electrical engineers are needed in a variety of fields including:
The admission standards for majors in the Ira A. Fulton Schools of Engineering are higher than minimum university standards. International students may have an additional English language proficiency criterion. Foreign nationals must meet the same admission requirements shown above with the possible additional requirement of a minimum TOEFL score. If the university requires a TOEFL score from the applicant, then admission to engineering requires a minimum TOEFL score of 550 (paper-based), 213 (computer-based), 79 on iBT (internet-based) or a minimum IELTS score of 6.5.
As much of engineering is problem-solving and solution-designing, you should be prepared to be set practical and theoretical challenges. One day you may be sitting at a computer with a calculator, running simulations, and emulating real-life scenarios. The next day, you might be in the lab with your soldering iron and circuits at the ready.
Most electrical and engineering courses will last three years, and result in a BSc or BEng. If your university offers you a placement year in industry, your degree may last four years, as it may if you decide to pursue a MSc or MEng.
The electrical engineering program, accredited by the Engineering Accreditation Commission of ABET, , spans the disciplines of electronics, computers, circuits, electromagnetic fields, power systems, controls, communications, signal processing, and solid state materials and devices. The degree requires a minimum of 131 credit hours which include 33 credit hours associated with the UNLV's General Education Core. Graduates of the program will receive a Bachelor of Science in Engineering with Major in Electrical Engineering.
A Bachelor of Science degree in electrical engineering specifically prepares graduates for a career in the electrical engineering field. Electrical engineers are responsible for the creation of electric power, electronic circuits, computers, electromagnetic and optical systems, solid state electronic materials, electronic communication systems, signal processing systems, control systems, and biomedical devices. In power engineering, electrical engineers solve problems associated with the generation, transmission and distribution of electricity as well as the design of related devices. Electrical Engineers that work as electronic engineers are responsible for the design and test of electronic circuits in electronic products such as radios, cell phones, computers and medical equipment. Electrical engineers in solid state electronics design the manufacturing processes that fabricate micro and nano-devices such as the components used in sensors or integrated circuits. In computer engineering, electrical engineers apply principles from electrical engineering and computer science to the design and analysis of all hardware and software for a computer system. Electrical engineers in electromagnetism design products based on electromagnetic properties which include antennas, high frequency electronics and optical systems lasers and fiber optics. Electronic communication engineers design systems such as radios, televisions, and cell phones, that require the transmission and reception of information across a channel such as a coax cable, optical fiber or free space. Signal processing engineers develop mathematical algorithms for systems that process and interpret signal information which includes speech recognition systems, noise canceling headphones and GPS systems. Electrical engineers that design automatic control systems such flight controllers, automobile cruise controllers, and robotics use mathematics to model dynamic systems and then use these models to design controllers that control these systems to behave in a desired manner. A Bachelor of Science degree in electrical engineering can also help graduates find work in other careers such as patent law. 59ce067264