A Doctorate in Electrical Engineering program is ideal for those who are interested in developing systems and signal processing and handling underlying device and circuit technology. This post-graduate degree is typically offered in various formats, namely purely online, hybrid, and on-campus. The program exposes students to an interdisciplinary environment of combined technologies in terms of an effective curriculum that includes a dynamic combination of seminars, laboratory research work, and traditional coursework.
Electrical Engineering involves circuits and power systems and the design of effective power networks, where signal processing can be applied to energy distribution. The combination of circuits, algorithms or formulas, systems, and devices along with the application of micro and power systems, provide electrical engineering majors an edge among graduates of other subfields of engineering. Electrical Engineering cultivates an essential skill set that is relevant to today’s technology. This specific field of discipline covers a broad research spectrum which includes circuit design, signal processing, and electromagnetism.
A Ph.D. in Electrical Engineering is considered an academic doctoral degree ideal for full-time students who are specifically interested in an academic, laboratory or industrial development and research career in a discipline within the field of electrical engineering. D.E.E. students may specialize in graphics and interactive media, computing algorithms and applications, signals and signal systems. Though there are certain entry-level jobs available that don’t require a doctorate in this field, those who want to gain more competence in this industry and those who wish to pursue a career in research or the academe will gain more benefits upon earning a Ph.D. Through five to six years of intensive coursework and laboratory study on computational and electrical hardware and systems, students may obtain the necessary skills to be capable and competent for specific jobs in this field of study.
What are the requirements to obtain a Ph.D. in Electrical Engineering?
Prospective D.E.E. students need to meet specific requirements for admission. They must have earned a bachelor’s degree from a reputable university or college. They should also pass a written qualifying examination taken before the second academic year of the program, as well as an actual preliminary research examination within two years after passing the written examination or at least one year before dissertation completion. A doctoral dissertation describing the outcomes of the original and creative research in specializations under the fields of electrical engineering is also required. Some universities and colleges also need students to pass a final oral examination as part of the dissertation defense or take a graduate seminar every semester. There are other academic institutions even that need a residency requirement for a Ph.D. in Electrical Engineering.
How long can a Ph.D. in Electrical Engineering be completed?
Electrical Engineering as a degree generally covers numerous topics and fields from computer engineering to architecture related to electrical engineering. As the academic pinnacle of the discipline, the D.E.E. program is typified by broad research, hands-on technological work, final exams, and dissertation projects. This program comes with many concentrations and minor alternatives.
This Ph.D. degree takes about five to six years to be completed, for students who enter the program from a bachelor’s degree. As for those who came from a master’s degree, it may take four years for the degree to be completed. The average timeline for a D.E.E. program is as follows:
- 1st Year: Course work and written examination for qualification
- 2nd Year: Course work, preliminary research, research advisory committee selection
- 3rd Year: Course work and preliminary research examination
- 4th Year: Research
- 5th Year: Research, completion of the dissertation and final oral examination
What are the possible career opportunities for a Ph.D. in Electrical Engineering graduate?
To help train more electrical engineering students to become more skilled and competent, there are numerous alternative professional courses to do once a student graduates in an electrical engineering course. D.E.E. graduates emerge as specialists in power circuits with enhanced organizational and analytical skills for recording, analysis, and interpretation of engineering data. They are also qualified to contribute to industries related to chemical, power generation, materials and metals, oil and gas, defense, telecommunications, railway, electronics, automotive, marine, pharmaceuticals, construction, and utilities.
Some of the most popular electrical engineering- related careers are Electrical Engineer, Network Engineer, Electrical Systems Analyst, Electronic Equipment Designer, Electricians, Electromechanical Engineering Technologists, Electrical Power-line Installers, Postsecondary Electrical Engineering Teachers, Computer Network Architects, and Machine Learning Engineers.
What are the salaries for each job related to a Ph.D. in Electrical Engineering?
The U.S. Department of Labor has considered electrical engineering careers to rise by only 5% between 2012 and 2022, but numerous states expect otherwise. The disparity among states in terms of career growth is apparent, with Colorado having a projected increase of 25.6% and Maine’s statistics dropping by about 3.5%.
In considering future careers, the job’s earning potential is significant. Generally speaking, individuals who are skilled in engineering and other related fields earn more than the national average. D.E.E. graduates are sought after, usually win much higher, and likely to be promoted to senior positions.
A common work position is that of an Electrical Engineering Manager, who is responsible for monitoring the workflow and tasks of other electrical engineers. They also have a bird’s eye view of current as well as future work opportunities. Their annual median salary is $130,620.
An Electrical Engineering Technicians handles the assembly and testing of prototypes, resolution of problem-solving design issues, and drafting plans for future products in the market. They make an average of $59,820 yearly.
Electrical Repairers are responsible for the disassembly and reassembly of electronics for the completion of diagnostic tests, give cost estimates for fixing items, repair, and replacement of problematic pieces, and communication of their findings. Their wage averages $71,400 annually.