MSc Electronic Engineering

Students of the MSc Electronic Engineering at De Montfort University (DMU) immerse themselves in a highly practical, industry-relevant education. From the very beginning they engage with specialised laboratories—such as embedded systems, power electronics and RF testing chambers—ensuring their learning is firmly rooted in hands-on engineering rather than purely theory. Their coursework and major project require the use of industry-standard tools and software, and they are supported by a school with strong links to engineering research and professional accreditation.

To illustrate how experiential learning unfolds in this programme:

• Students access the School of Engineering and Sustainable Development’s electrical and electronic experimental facilities, covering areas including general electronics and assembly, digital electronics and microprocessor engineering, power electronics, control systems and communications engineering.
• They use specialist CAD and simulation software such as OrCAD, PSpice, and high-speed programmable logic environments for design and testing of embedded systems.
• They work with advanced hardware: for example, an RF reverberation chamber and Faraday cage facilitate experiments in electromagnetics and communications engineering.
• Coursework includes both group and individual practical work: modules such as Embedded Systems, Digital Signal Processing, Power Electronics and Electromagnetic Compatibility & Signal Integrity involve laboratory sessions, hardware builds and simulation tasks.
• The programme culminates in a major individual research or design project, supervised by research-active staff from DMU’s Centre for Electronic and Communications Engineering, enabling students to take a specific engineering challenge from conception through to implementation and testing.
• Students benefit from strong industry alignment: the programme is accredited by the Institution of Engineering and Technology (IET), ensuring that the curriculum prepares graduates for professional engineering careers.
• Learning is supported by rich digital infrastructure: DMU’s library and learning zones provide remote access to electronic journals, simulation software, Virtual Learning Environment (VLE) tools such as MS Teams and Turnitin, and hardware labs are complemented by online design resources.

Graduates of the MSc Electronic Engineering at De Montfort University (DMU) are ready to engage with advanced electronic systems—from power electronics to embedded design and control—opening up careers as Electronic Design Engineer, Embedded Systems Engineer, Control & Instrumentation Engineer, or Research & Development Engineer.

Progression & Future Opportunities:

• University services: Students are supported by DMU’s Careers & Employability team, which offers one-to-one career advice, CV/interview workshops, placement guidance, and alumni networking opportunities.
• Employment stats & salary figures: While specific MSc-level data for this exact programme is not listed, engineering graduates at DMU typically enter roles in engineering design and systems development, and general UK engineering MSc graduates often start at salaries in the £28,000-35,000 range.
• University–industry partnerships: The programme is accredited by the Institution of Engineering and Technology (IET) which recognises its relevance to industry and supports students’ route to Chartered Engineer (CEng) status. DMU’s School of Engineering and Sustainable Development emphasises teaching by research-active staff engaged in industrial consultancy and partnerships via its Centre for Electronic and Communications Engineering.
• Long-term accreditation value: The IET accreditation ensures that the degree meets professional standards recognised by employers and supports future attainment of CEng status—an important mark for long-term career mobility.
• Graduation outcomes: The curriculum includes modules like Semiconductor Fundamentals & Power Electronics, Digital Signal Processing, Control & Instrumentation, Electromagnetic Compatibility & Embedded Systems, and a substantial individual project. Graduates have progressed into roles in electronics design, embedded systems and automation.

Further Academic Progression:
Graduates may progress to doctoral studies (such as a PhD in Electronic Engineering, Embedded Systems, or Communications Technology) or pursue professional pathways leading to Chartered Engineer status. They may also undertake specialist certificates in fields such as power electronics, IoT systems, or electromagnetic compatibility to deepen expertise and leadership opportunities.