MSc Electrical Power and Control Engineering

1 Year On Campus Masters Program

Liverpool John Moores University

Program Overview

The MSc Electrical Power and Control Engineering at Liverpool John Moores University equips you with advanced skills in designing, modelling, controlling, and operating electrical power systems. It is ideal for engineering graduates seeking technical or managerial roles in power generation, distribution, industrial control, or related sectors.

Curriculum Structure

Year 1 (Full-time, 12 months)
You will study modules such as Modelling and Simulation, where you use MATLAB/Simulink to analyse complex electrical and control systems, and Modelling and Control of Electric Machines and Drives, which covers variable-speed drives, power electronics, and vector control of induction machines. Control Systems teaches state-space modelling, dynamic system analysis, and control design, while Digital Control extends your knowledge to digital controllers and self-tuning systems.

Power Systems Modelling and Analysis introduces voltage/reactive power control and the steady-state modelling of network components. The year culminates in an MSc Dissertation, allowing you to apply your technical knowledge to an independent research or design project.

Extended Route (20-month or part-time)
The extended option allows for a Group Design Project or industrial placement before the dissertation, offering additional hands-on experience, professional practice, and teamwork development.

Focus Areas

Electric machines and drives; power systems modelling and analysis; control systems; simulation and modelling using industry-standard tools; professional and leadership skills.

Learning Outcomes

Graduates will be able to design and critically evaluate electrical power and control systems, apply advanced modelling and simulation techniques to complex engineering challenges, and demonstrate professional engineering skills including leadership, teamwork, and ethical awareness.

Professional Alignment (Accreditation)

This MSc is accredited by the Institution of Engineering and Technology (IET) and meets the requirements for Further Learning toward Chartered Engineer (CEng) registration, assuming you hold an accredited undergraduate engineering degree.

Reputation (Employability Rankings)

LJMU reports that 94% of postgraduates are in work or further study within 15 months of graduation. The School of Engineering maintains strong industry connections, ensuring graduates are well prepared for roles such as system designers, analysts, or senior engineers in the electrical power and control sector.

Experiential Learning (Research, Projects, Internships etc.)

The MSc Electrical Power and Control Engineering at Liverpool John Moores University emphasizes hands-on, practical experience from the start. You’ll work with simulation tools, modelling software, hardware labs, and project-based learning designed to reflect real-world engineering practice. The programme is delivered through the School of Engineering and is informed by the Electrical and Electronic Engineering Research Centre, giving you exposure to current industry practices and applied research.

Here’s how experiential learning unfolds in this programme:

Specialist software and simulation tools: Use MATLAB and Simulink for modelling electric machines, drives, power systems, and control applications.
Hardware laboratories and drives labs: Gain practical experience with variable-speed drives, power converters, and control systems through dedicated lab work.
Control systems lab work: Apply control theory, state-space methods, digital control, and system identification in modules like Control Systems and Digital Control.
Power systems modelling and analysis: Engage in real modelling of power components, steady-state analysis, and voltage/reactive power control through practical exercises.
Group design project or optional industrial placement (extended route): Collaborate on a team-based design project addressing real-world engineering problems, or gain hands-on industry experience through a placement.
Professional and leadership skills development: Build communication, teamwork, leadership, and ethical awareness in a dedicated skills module alongside your technical studies.
Independent MSc dissertation: Undertake a substantial research or applied engineering project, applying modelling, experimentation, and analysis to a chosen topic.
Modern campus facilities: Access laboratories, workshops, seminar rooms, and technical resources within the Byrom Street engineering complex, supporting all aspects of practical learning.

By the end of this MSc, you’ll have both the theoretical knowledge and the practical, professional experience needed to confidently work in power systems, control engineering, renewable generation, automotive drives, and related industries, fully prepared for engineering roles and progression toward Chartered Engineer status.

Progression & Future Opportunities

If you're aiming to advance your career in power systems, automation, and control engineering, the MSc Electrical Power and Control Engineering at Liverpool John Moores University (LJMU) is an excellent choice. Graduates often move into roles such as Power Systems Engineer, Control Systems Specialist, Senior Electrical Design Engineer, or Automation Project Manager — key positions in energy, manufacturing, automotive, and industrial sectors. So: here’s how LJMU prepares you and what you can expect on graduation.

Progression & Future Opportunities:

This MSc equips you for technical and leadership roles in power generation, distribution, conversion, and control systems — combining advanced analytics, simulation, control theory, and real-world application.
Typical job roles include:
- Power Systems Engineer
- Control Systems Specialist
- Senior Electrical Design Engineer
- Automation/Project Manager

How LJMU supports your career:

Career & employability services: Postgraduate students receive guidance on CVs, interview preparation, networking, and placement opportunities tailored to the engineering and energy sectors.
Employment outcomes: Around 94% of postgraduate engineering students are in work or further study within 15 months of graduation, demonstrating strong industry demand.
Industry-aligned curriculum: Modules include Modelling and Control of Electric Machines & Drives, Control Systems, Dynamic Systems Simulation, Digital Control, and Power Systems Modelling & Analysis, ensuring you gain up-to-date practical and theoretical skills.
Accreditation & professional recognition: The MSc meets requirements for further learning toward Chartered Engineer (CEng) status, providing long-term professional value.
Graduate outcomes: You’ll develop advanced capabilities in electrical machines, drives, power system analysis, and control system design, preparing you for senior technical or managerial roles in energy and industrial sectors.

Further Academic Progression:

After completing this MSc, you could pursue a PhD in Electrical Power Systems, Control Engineering, or Automation Technology, positioning you for research or specialist roles. Alternatively, you could work toward professional registration as a Chartered Engineer (CEng), combining your master’s qualification with industry experience to enhance both your academic credentials and professional standing.