MSc Advanced Electrical and Electronic Engineering with Management

12 Months On Campus Masters Program

University of Leicester

Program Overview

The MSc at Leicester combines advanced electrical and electronic engineering topics (like signal processing, control, and machines) with core management theory — so you're well-prepared for both technical and leadership roles in industry. It’s built for engineers who want not only to deepen their engineering expertise but also to lead projects, teams, and even entire departments.

Curriculum Structure

Leicester’s programme is typically 12 months full-time, or up to 24 months for the version with an industrial placement.

Engineering Design Case Study: You’ll work on a real-world engineering problem, applying advanced design, simulation, and decision-making skills to propose and validate solutions.
Advanced Electrical Machines: Focus on high-performance machines, including design, dynamic behavior, and control strategies.
Advanced Electronically Controlled Drives: Learn about power electronic drives, control systems for motors, and how to design efficient and reliable drive systems.
Artificial Intelligence Architectures: Study modern AI hardware architectures and how they integrate into electronic systems — a very forward-looking module.
Spacecraft Communications: Explore communication systems relevant to aerospace applications, including signal modulation and link design.
Management Modules:
- Accounting & Finance for Non-Specialist Managers – understand financial principles even if you come from a strictly technical background.
- Principles of Business Economics – learn micro/macro economic frameworks relevant for tech ventures.
- International Business – covers global business strategies and cross-cultural leadership, very helpful for multinational engineering companies.
Engineering Management Project: A capstone where you apply both your engineering knowledge and management learning to a significant project — potentially with industry input.
Industry Placement (optional): In the “with industry” version, you can take a 9–11 month paid placement, after which you return to university to complete a project.

Focus Areas

system design, electrical machines & drives, control systems, AI in engineering, business management, global business strategy, project leadership.

Learning Outcomes

Graduates will be able to design and control complex electrical systems, apply AI-driven architectures in engineering contexts, manage engineering projects, and use finance and economics to make informed business decisions in technology-driven organisations.

Professional Alignment (Accreditation)

The programme is aligned with professional engineering standards and helps you build competencies that are relevant for becoming a Chartered Engineer.

Reputation (Employability & Rankings)

The MSc is offered by the University of Leicester’s School of Engineering, which is well-regarded for combining strong research with practical engineering training.
The optional industrial placement gives students real-world experience, enhancing employability and leadership prospects.
Having both advanced technical engineering knowledge and management skills sets graduates apart for senior roles in global engineering firms, R&D, or management-track engineering positions.

Experiential Learning (Research, Projects, Internships etc.)

The MSc in Advanced Electrical & Electronic Engineering with Management at the University of Leicester offers students a powerful combination of advanced technical engineering and leadership training. It’s not just about circuits and control systems: the programme ensures that learners build managerial skills while working hands-on through lab exercises, design case studies, and live projects. Students are encouraged to integrate management theory into engineering practice, preparing them to take on senior roles in technology-driven organisations.

Specifically, the programme includes:

Engineering Design Case Study: Students engage in a capstone design case where they apply technical knowledge (machines, drives, control) to design real-world systems, simulating engineering challenges faced by industry.
Laboratory and Practical Sessions: Teaching involves practical and lab work supported by lectures and seminars.
Individual Engineering Management Project: In addition to technical modules, students complete a project that ties together engineering design with management insight — often focusing on topics such as organisational strategy, resource planning, and innovation management.
Optional Industry Placement (“With Industry” variant): Students opting for the 2-year “with industry” route undertake a paid 9–11 month industrial placement, gaining real job experience, working on real projects, and then returning to campus to complete their engineering management project.
Management Theory Modules: Modules like Accounting and Finance for Non-Specialist Managers, Principles of Business Economics, and International Business give students a rigorous grounding in management frameworks applied in an engineering context.
Advanced Technical Modules: Technical modules such as Advanced Electrical Machines, Electronically Controlled Drives, Artificial Intelligence Architectures, and Spacecraft Communications ensure deep exposure to modern EE topics.

Why This Degree Matters — Career & Leadership Opportunities

Students graduate prepared for leadership roles in engineering firms — not just as technical specialists, but as managers who understand both the engineering and business sides.
The technical + management blend is ideal for careers in engineering management, R&D management, power systems, automation, and technology consulting.
Completing a placement gives students real work experience, making their CV more competitive and their transition to industry smoother.
The programme helps in building transferable soft skills — teamwork, communication, project planning — which are essential for any engineering leadership position.
For those interested in research, the individual project allows them to explore cutting-edge engineering issues and possibly feed into PhD opportunities.

Progression & Future Opportunities

Graduates of this MSc are well-positioned to take on hybrid technical and leadership roles such as engineering manager, systems design lead, power electronics engineer, or product development engineer. By combining deep engineering knowledge with management training, the program readies students for strategic positions in global engineering firms.

Progression & Future Opportunities:

University Services & Employability Support
- Leicester’s Careers & Employability Service offers ongoing support with CVs, interviews, work experience, and networking.
- A Placement Tutor supports students in the “with industry” variant, helping them find and navigate an industrial placement.
- The Engineering Design Case Study module develops project-management, problem-solving, and teamwork skills, making students more industry-ready.
Employment Prospects & Demand
- Graduates gain a rare blend of technical engineering expertise + management theory, increasing their suitability for leadership roles in engineering industries.
- With the “with industry” track (9–11 month placement), students can gain paid, full-time experience — boosting employability.
- The course is structured to support engineers aiming for global engineering industries, making it appealing to multinational companies.
University–Industry & Research Connections
- The School of Engineering at Leicester maintains strong ties with engineering firms, giving students exposure to real-world engineering practice.
- The dissertation / Engineering Management Project (60 credits) allows students to tackle industrially-relevant challenges, bridging theory and practice.
Accreditation & Professional Value
- According to Leicester’s specifications, this MSc integrates advanced electrical/electronic engineering with management theory — giving students a well-rounded skill set for leadership roles.
- The management portion covers key topics such as Accounting & Finance for Managers, Principles of Business Economics, and International Business, which complement the technical modules.
- This makes the program particularly useful for engineers who aim for project leadership, technical management, or R&D management roles long-term.
Graduation Outcomes
- Core technical modules include Advanced Electrical Machines, Advanced Electronically-Controlled Drives, Spacecraft Communications, and AI Architectures — offering a very modern, advanced curriculum.
- The Engineering Management Project (60 credits) ensures that graduates finish with a substantive piece of work that demonstrates both technical and managerial competence.
- Optional “with industry” path gives hands-on experience via a long placement, which greatly improves employability and real-world insight.

Further Academic Progression:

After completing this MSc, a student could go on to a PhD in Electrical / Electronic Engineering or Engineering Management, using their management project as a foundation.
Alternatively, they might choose a Professional Doctorate (EngD) or MSc by Research if they want to combine research with application in industry.
The management skills also open up possibilities for MBA-level programs later, especially if they want to move further into leadership, strategy, or technology management.