Master’s Programme in Embedded Electronics Engineering Program By Lund University School of Economics and Management |Top Universities

Master’s Programme in Embedded Electronics Engineering

Master’s Programme in Embedded Electronics Engineering

  • Degree MSc
  • Study Level Masters
  • Study Mode On Campus
  • Scholarships Yes
  • Start date Sep, Aug
Embedded Electronics Engineering offers a wide perspective, where digital and analogue circuits and systems design is regarded as one unit in which different domains interact. The focus is on CMOS, where billions of devices are used to build a system on a single silicon die. 

The Shanghai ranking (ARWU) ranks Lund University as #18 in the world in the field Electrical and Electronic Engineering for the year 2019. This programme is demanding and unique in its offering, a perfect preparation for your future career. The programme spans areas from radio frequency (RF) circuits through to data conversion and digital circuits and systems. Another distinguishing feature is that circuit design is linked to many emerging application areas, including AI, machine learning, and in particular wireless communication, where RF front-ends are co-designed with digital baseband, which provides the opportunity to build complete transceivers. 

Due to the extensive local industry, the programme is closely linked with a variety of private companies, which ensures that our courses maintain high market relevance. In some cases, our students’ degree projects result in patent registrations and the opportunity to publish their work at international conferences and journals.

Examples of companies where students have performed their degree projects include Ericsson (Sweden), Sony (Sweden), Axis Communications (Sweden), ARM (Sweden), Oticon A/S (Denmark), and NXP (Netherlands).

 
Special features of the programme: 

• The focus is on applied studies in digital IC design, analogue RF IC design and mixed signal/data conversion IC design. Soft skills such as how to identify and protect inventions are also included.
• All taught study involves hands-on laboratory work using the most modern CAD tools, IC technologies, and hardware platforms (e.g. FPGA). 
• Taught by world-leading researchers and with very strong links to research in the field.
• After the initial taught courses, students undertake a large project, where the student starts from a digital or analogue design and carries it through to completion and, in some cases, silicon realisation and system demonstration.
• Tight connection to and strong support from local industry (consists of leading international companies).


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