Master in Electronics in North America

Search Masters Programs in Electronics in North America 2017/2018

Electronics

Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject. Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.

The field of electronics deals with circuits and their electrical components. Circuit design may be a main focus and areas might be specialized in such as telecommunication, network management, network engineering and microelectronic engineering. 

From indigenous civilizations to modern day empires, North America has plenty of hands-on educational opportunities to offer scholars. Filled with a range of distinct cultures, students can educate themselves in well-rounded way.

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Master of Engineering in Microelectronics Manufacturing Engineering

Rochester Institute of Technology (RIT)
Campus or Online Full time Part time 2 years September 2018 USA Rochester + 1 more

The master of engineering degree in microelectronics manufacturing engineering provides a broad-based education to students with a bachelor’s degree in traditional engineering or science disciplines who are interested in a career in the semiconductor industry... [+]

Masters in Electronics in North America 2017/2018. Master of Engineering in Microelectronics Manufacturing Engineering The master of engineering degree in microelectronics manufacturing engineering provides a broad-based education to students with a bachelor’s degree in traditional engineering or science disciplines who are interested in a career in the semiconductor industry. Graduates of the program will: design and understand a sequence of processing steps to fabricate a solid state device to meet a set of target parameters; analyze experimental electrical data from a solid state device to extract performance parameters used in the device design; understand current lithographic materials, processes, and systems to meet imaging and device patterning requirements; understand the relevance of a process or device to current manufacturing practices; perform in a microelectronic manufacturing environment in an area of specialization, such as device engineering, circuit design, lithography, materials and processes, yield enhancement, and manufacturing. Program outcomesThe MS program in microelectronics manufacturing engineering has a number of outcomes for its students: Design and understand a sequence of processing steps to fabricate a solid state device to meet a set of geometric, electrical and/or processing parameters Analyze experimental electrical data from a solid state device to extract performance parameters for comparison to modeling parameters used in the device design Understand current lithographic materials, processes, and systems to meet imaging and/or device patterning requirements Understand the relevance of a process or device, either proposed or existing, to current manufacturing practices Perform in a microelectronic engineering environment, as evidenced by a three-month internship Appreciate... [-]