Doctor of Philosophy (Ph.D.) in Electrical Engineering PHD Program By Michigan Technological University |Top Universities

Doctor of Philosophy (Ph.D.) in Electrical Engineering

Subject Ranking

# 451-500QS Subject Rankings

Main Subject Area

Engineering - Electrical and ElectronicMain Subject Area

Program overview

Main Subject

Engineering - Electrical and Electronic

Study Level

PHD

Michigan Tech offers program concentrations in energy systems, information systems, and solid-state electronics. Energy systems emphasize power systems, with renewable energy and power electronics as other major areas of interest. Examples include protection, operation, and control of power systems; theory and use of commercial packages for fault, power flow, and transient studies; and power-system components— including transformers, rotating machines, and circuit breakers. Information systems research is concerned with the transmission, measurement, processing, analysis, and interpretation of information-bearing signals. Areas include signal processing, image processing, computer communications, and wireless and digital communications.Solid-state electronics research spans electromagnetic wave interactions with materials, micro- and Nano scale electronic materials and devices, and the quantum behavior of solids. This research thrust explores applications coupling electromagnetic behavior, photonics, electronics, VLSI design, quantum electronic physics, and sensing devices that interact with the external world in complex, integrated microsystems. Current Michigan Tech undergraduate students can earn a MS degree with just a single year of study beyond the BS through the Accelerated Master's Program. The Department of Electrical and Computer Engineering also offers degree programs in computer engineering.

Program overview

Main Subject

Engineering - Electrical and Electronic

Study Level

PHD

Michigan Tech offers program concentrations in energy systems, information systems, and solid-state electronics. Energy systems emphasize power systems, with renewable energy and power electronics as other major areas of interest. Examples include protection, operation, and control of power systems; theory and use of commercial packages for fault, power flow, and transient studies; and power-system components— including transformers, rotating machines, and circuit breakers. Information systems research is concerned with the transmission, measurement, processing, analysis, and interpretation of information-bearing signals. Areas include signal processing, image processing, computer communications, and wireless and digital communications.Solid-state electronics research spans electromagnetic wave interactions with materials, micro- and Nano scale electronic materials and devices, and the quantum behavior of solids. This research thrust explores applications coupling electromagnetic behavior, photonics, electronics, VLSI design, quantum electronic physics, and sensing devices that interact with the external world in complex, integrated microsystems. Current Michigan Tech undergraduate students can earn a MS degree with just a single year of study beyond the BS through the Accelerated Master's Program. The Department of Electrical and Computer Engineering also offers degree programs in computer engineering.

Admission requirements

6+

Tuition fee and scholarships

One of the important factors when considering a master's degree is the cost of study. Luckily, there are many options available to help students fund their master's programme. Download your copy of the Scholarship Guide to find out which scholarships from around the world could be available to you, and how to apply for them.

In this guide you will find:
opportunities

Where to look for scholarship opportunities

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How to apply to scholarships relevant to you

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A list of available scholarships around the world

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A scholarship application checklist

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More programs from the university

As an undergraduate student at Michigan Tech, it’s simple: if you want to do research, you can. Real research—the kind that creates solutions for industry, gets patented (sometimes with your name on it!), or addresses the problems of our modern world. Last year, our undergraduates spent 126,000 hours working on paid research.We’re ranked among the top twenty universities in the US in the proportion of research that’s sponsored by industry. And nearly 25 percent of our invention disclosures include the names of students as inventors. Students also get published in scientific journals, present at national conferences, and interact with scientists and entrepreneurs from around the world.

Graduate programs at Michigan Tech have rigorous academic requirements set by the Graduate School. The links on this page detail these requirements, procedures to complete a graduate degree, and forms required to track your progress. Graduate programs may have additional requirements for students.

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