Masters in Electrical Engineering

Earning a Master's in Electrical Engineering degree has never been more convenient and accessible. Expand your knowledge and job opportunities while still being able to work through an online Master's in Electrical Engineering program. We've hand selected some Master's in Electrical Engineering and related programs below.

ME in Microelectronic Eng.	Rochester Institute of Technology — Rochester Institute of Technology's Master of Engineering degree in microelectronics manufacturing engineering program features courses that examine a broad background in traditional engineering as well as specialized training in the semiconductor industry. Electrical engineers learn to create products that meet geometric, electrical and processing parameters.
MS in Electrical Eng.	DeVry University — DeVry University's online MS in Electrical Engineering program helps practicing electrical engineers gain further experience to advance their career. Courses teach the analysis, design and implementation of solutions to engineering problems. Graduates are found throughout the electrical engineering field.
MS in Electrical Eng.	Drexel University — Drexel University's MS in Electrical Engineering features specialties in Electrophysics, Robotics, Power Engineering, and Image Processing in addition to a general MSE. These online courses allow for electrical engineers to receive the education necessary to advance their careers.

MS Software Eng.	University of Liverpool — The 2.5 year MS in Software Engineering program at the University of Liverpool features courses that explore computer structures, software engineering, systems analysis and design, all with a global perspective of the latest global technologies. Electrical engineers can use their own experiences to add to their skill set.
MS/IS: Software Eng.	Strayer University — Students at the Strayer University MS in Information Systems program take courses that document technical, managerial, and policy issues in computer systems. Concentrations include Computer Security Management, Network Management, and Software Engineering Management, allowing electrical engineers many options to explore.
MS in Systems Eng. MS/CS: Software Eng.	Colorado Technical University — The MS in Systems Engineering and MS/CS in Software Engineering programs at Colorado Technical University feature documentation and analysis of computer system designs. Electrical engineers learn skills in budgeting and project management, to further their careers.
MBA in Eng. Tech. Mgmt	Northcentral University — The MBA in Management of Engineering & Technology at Northcentral provides electrical engineers a concentration in Management that places the focus on productivity, systemic quality control, and using technology to improve productivity. Courses include Emerging Technologies and Strategic Leadership and Industrial Management.
Master of Civil Eng.	Norwich University — Norwich University's online Master of Civil Engineering (MCE) program is well suited for electrical engineers and can be completed faster than most programs. Online classrooms allow professionals to connect with each other while developing technical knowledge and project management skills.
MS in Manufacturing Eng. MS in Mechanical Eng. M.E. in Biochemical Eng.	Lehigh University — Lehigh University's MS in manufacturing engineering, MS in mechanical engineering, and M.E. in biochemical engineering provides an excellent platform for electrical engineers to accelerate their knowledge of these subjects. Courses combine engineering and business with project work.
MS Fire Protection Eng.	Worcester Polytechnic Institute — Worcester Polytechnic Institute's MS in Fire Protection Engineering program applies modern technology to fire safety. Courses examine the science behind fire safety and are excellent ways for electrical engineers to broaden their knowledge. The disciplines of building construction, architecture, electrical, mechanical, civil and chemical engineering are discussed.
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Master of Electrical Engineering Definition:

A Master of Electrical Engineering will prepare you to design new and better electronics, test equipment, and solve problems as an electrical engineer. A master’s program is usually tailored to the needs of engineering practitioners and focuses on advanced technical and hands-on design skills, as well as professional skills that will qualify you for more senior positions and advancements in the electrical engineering field. Preparing you to develop creative solutions to real-world engineering problems in a global economy is also a goal of most electrical engineering programs. Electrical engineering master’s programs involve advanced study of highly technical knowledge, and getting into a program takes good undergraduate grades in math and science. You also need general education courses in English, social studies, and computers.

You need at least a college degree to work most electrical engineering jobs. Having a master’s will almost guarantee you a job and allow you to work on bigger and more important projects. Examples of projects electrical engineers work on include cars, robots, cell phone systems, the lighting and wiring in buildings, and radar and navigation systems. High-tech projects including the global positioning system, giant industrial generators, or a new design for an airplane's electrical system, are all possible areas of work for electrical engineers. Working on extremely specific parts of a project as part of a large product development team is common for electrical engineers. Some companies that hire engineers are so secretive about their products that some workers don’t even know what the final product they are working toward will be. The ability to focus on solving one technical problem as efficiently as possible is a desirable trait for electrical engineers.

Master of Electrical Engineering Coursework

Master of Electrical Engineering programs differ between schools, with different specializations and concentrations in each program. The degree generally includes units covering physics, mathematics, computer science, project management, and specific topics in electrical engineering. Specific topics include computer engineering, power engineering, controls, robotics, signal processing, telecommunications engineering, solid-state physics and electronics, and more. In addition to coursework, there’s usually a research component and sometimes a thesis. Towards the end of the degree students can pick sub-disciplines or specializations within electrical engineering. Some examples of concentrations include:

• Solid State Electronics: Within this concentration of electronic engineering you would be working with the behavior of solids, including semiconductor materials and devices, insulators, and conductors. Semiconductors are the building blocks of integrated circuits for computers; electronic quartz watches; television and radio components, lasers in compact disc players, light emitters and detectors in fiber optic communication systems, and various automotive systems such as brakes, crash impact detectors, battery chargers, and power transmission systems.
• Electronic and Mixed-Signal Circuit Design: This type of electrical engineering centers on the integration of many analog and digital devices into one small package by combining innovative systems and integrated-circuit design techniques.
• Electromagnetics, Antennas, and Microwave Circuits: This discipline, also known as high frequency engineering, is concerned with the study of charges, at rest and in motion, that produce currents and electric-magnetic fields. This study is essential in the understanding, design, and operation of many practical systems that use antennas, scattering, microwave circuits and devices, wireless radio-frequency and optical communication, and radar.
• Signal Processing and Communications: This type of concentration would allow you to design, build, and operate systems that transmit information, such as cell phones, radio, television, satellite, wireless and optical networks, and the Internet. This type of engineering relies on mathematical signal and system theory. Digital signal processing extracts, encodes, and processes signals from sources such as radar, sonar, wireless communication transmitters, geological sensors, medical imaging devices, speech, music, and video while attempting to suppress noise and other forms of distortion.
• Electric Energy Systems: With this concentration you would be working with the development of new types of power supplies for both utility and high technology applications. Recently the work within this concentration has been on power conditions devices, force commutated PWM inverters, variable speed motor drives and evaluation of harmonics generated watt-hour meters disturbances.
• Microelectronics: This area of concentration deals with the design and microfabrication of very small electronic circuit components for use in an integrated circuit. Semiconductor transistors are the most common microelectronic component. This area of study requires a significant amount of chemistry and material science and requires you to have a very good working knowledge of the effects of quantum mechanics.
• Telecommunications Engineering: This area focuses on the transmission of information across a channel such as coaxial cable, optical fiber, or free space. Within this field you would design the transmitters and receivers need for telecommunication systems.

Other areas of study include, but are not limited to:

• System Dynamics and Controls
• Multimedia Networking
• Telecommunications Engineering
• Media Engineering
• Lightwave/Photonics Engineering
• Wireless and Mobile Communications
• Microelectronic Circuits
• Systems Biology and Neuroengineering

There’s also often an option to customize a concentration with different electrical engineering classes and specializations. It’s important to express your interests in electrical engineering to the master program professors so you can design the track that’s right for you and will give you the important knowledge you need to pursue your dreams.

Programs require anywhere between 30 and 45 credit hours, and can take 1-year in an accelerated format, or 2 years in a regular part-time or full-time format.

Master of Electrical Engineering Career Options

Engineers work in a variety of settings including offices, labs, or industrial plants. Many work a normal 40-hour week. At times, they work longer to meet deadlines.

In May 2008, the average yearly wages of electrical engineers were $85,350. Electronics engineers earned an average of $88,670.

There were about 301,500 electrical and electronics engineers in 2008. Many worked for companies that make medical machines, communications equipment, or electronics. Through 2018 jobs for electrical engineers are expected to experience little or no change. There will be a need for more electronic devices like giant electric power generators or wireless phone transmitters, but electrical engineers will face competition from companies based in other countries.

States with the highest employment level for electrical engineers are:

• California - 18,320 employed electrical engineers
• Texas - 10,750
• New York - 8,750
• Massachusetts - 7,700
• Florida - 7,170

States with the highest concentration of jobs in employment per thousand jobs are:

• Alaska - 2.64 (electrical engineers per thousand total jobs)
• Massachusetts - 2.47
• Idaho - 2.42
• Alabama - 2.21
• Delaware - 2.12

The top paying states with the highest annual wages for electrical engineers are:

• Massachusetts - $103,350
• Alaska - $102,120
• California – $99,120
• D.C. – $98,670
• Maine - $95,940

Famous Master of Electrical Engineer Graduates in History:

• Edwin Armstrong: Regenerative circuit and frequency modulation (FM)
• John Bardeen: Two Nobel prizes. Transistor and superconductivity
• Alexander Graham Bell: Bell Telephone Company
• Alfred Rosling Bennett: Pioneer of electric lighting and telephones
• Ottó Bláthy: Pioneering electrical engineer
• Alan Blumlein: Inventions in telecommunications, sound recording, stereo, television, and radar
• Karlheinz Brandenburg: Audio compression scheme MP3
• Walter Bruch Television: Pioneer and inventor of the PAL and color television system
• William Coolidge: X-rays
• Thomas Edison: Prolific inventor – phonograph, first practical light bulb, and telegraph improvements
• Justus B. Entz: Electric transmission, electric vehicles, and worked with Edison
• Moses G Farmer: Electric railway
• Reginald Fessenden: "Father of Radio Broadcasting"
• Elisha Gray: Telephone pioneer
• Hugo Hirst: Co. Founder of General Electric Company plc
• Kees Schouhamer Immink: Pioneer optical recording, CD, DVD, and Blu-ray Disc
• Jack Kilby: Nobel prize for integrated circuit
• Östen Mäkitalo: Father of Cellular Phone
• Simon Ramo: Physicist, microwaves, missiles, founder of TRW and Bunker Ramo Corporation
• Richard H. Ranger: Wireless fax, radar, and magnetic tape recording
• Albert H. Taylor: First demonstration of radar
• Steve Wozniak: Personal computers and Apple computer
• Jerry Yang: Co-founder and CEO of Yahoo
• Konrad Zuse: Computers

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