Virtual subject webinar
Find out more about this programme by attending our virtual subject webinar. The virtual webinar will give you an overview of the programme and the opportunity to ask our academics any questions you may have.
Do you want to lead society towards a more energy-efficient future, enhance your business acumen, and further develop your technical and design ability? The MEng course develops your communication and entrepreneurial skills, and prepares you for a range of high-end careers in electrical and electronic engineering. This course, which meets the full academic requirements for Chartered Engineer status, is accredited by The Institution of Engineering and Technology (IET).
UCAS tariff | 128 |
UCAS course code | H608 |
Institution code | P60 |
Duration | 4 years (+ optional placement) |
Course type | Full-time |
Location | Plymouth |
Stage 1 Electrical/Robotics Placement Preparation (BPIE112)
This module is aimed at students who may be undertaking an industrial placement in the third year of their programme. It is designed to assist students in their search for a placement and in their preparation for the placement itself.
Analogue Electronics (ELEC141)
This module provides an overview of analogue circuit characterisation, analysis and design, linking theory to practice. It will examine how common analogue systems are constructed from elementary components.
Digital Electronics (ELEC142)
This is a foundation module in digital electronics and computer control, which introduces digital devices and provides a background in the principles, design and applications of combinational and sequential logic circuits.
Electrical Principles and Machines (ELEC144)
This module gives an introduction to the electrical properties of materials, capacitance, Inductance, and electromagnetism. Basic circuit principles and their application in dc and ac circuit analysis are then applied to electrical machines, transformers and energy conversion.
Embedded System Design and Build (PROJ100)
The module enables students to work collectively to build prototype solutions to real-world problems using both software and hardware. This will include development and verification skills in both hardware and software.
Engineering Mathematics (ENGR104)
This module provides students with a number of fundamental mathematical skills, and techniques, which are essential for the analysis of engineering problems.
Stage 2 Electrical/Robotics Placement Preparation (BPIE212)
This module is aimed at students who may be undertaking an industrial placement in the third year of their programme. It is designed build on the Level 1 module (BPIE111) and to assist students in their search for a placement and in their preparation for the placement itself.
Power Electronics and Generation (ELEC237)
This module introduces power electronics devices and motors. Students will build switching power systems and also build and interface motor drive systems and generators.
Communication Systems (ELEC239)
This module extends the student's knowledge and understanding of electrical engineering in order to develop a deeper understanding of electronic engineering principles and their application to electronic and communication engineering.
Engineering Mathematics and Statistics (MATH237)
This module provides an introduction to mathematical and statistical methods that are important in the study of electronic and communications engineering. The mathematical techniques (transforms) are central to the study of linear, time-invariant systems. As well as introducing descriptive statistics, basic probability distributions, the module also considers the more advanced topics of reliability and quality control.
Control Engineering (ROCO219)
This module introduces basic concepts in how to control systems that have dynamics. This can involve making an unstable system stable, like balancing a Segway transporter to ensure it always remains upright. Or to get a system to follow a desired input and reach the desired goal. For example, controlling a robot arm so it moves directly to a target location without oscillating or overshooting.
Real Time Systems Project (PROJ200)
The module enables students to build robust and scalable real-time solutions to real-world problems using both Microcontroller and FPGA technologies. This will include both hardware and firmware development skills.
Electrical Industrial Placement (BPIE332)
A 48-week period of professional training spent as the third year of a sandwich programme undertaking an approved placement with a suitable company. This provides an opportunity for the student to gain relevant industrial experience to consolidate the first two stages of study and to prepare for the final stage and employment after graduation.
Information and Communication Signal Processing (ELEC347)
This module provides a thorough understanding of basic and advanced signal processing and coding techniques. This will equip students with knowledge that is vital for the processing, manipulation, encoding and transmission and efficient storage of information in most areas of IT, electronics and communications.
Design and Control of Renewable Energy Technology (ELEC349)
The focus of this module is on the generation of energy using solar photovoltaic (PV) technology. The effect of the environment, the PV material characteristics and the technology to achieve maximum power point tracking (MPPT) are described.
Advanced Embedded Programming (ELEC351)
The module aims to develop programming skills in embedded programming, by making use of advanced features of high-level programming languages and by deepening the knowledge of modern programming techniques in embedded systems. The module has a strong practical bias where students are required to solve various problems by programming existing microcontroller hardware.
Individual Project (PROJ300)
Investigate problems from industry or current research, define the problem boundaries, investigate possible solutions and present your results. You’ll have the chance to demonstrate a wide range of skills in project management, ethics, IP, research, critical thinking, engineering decisions, hardware, electrical/electronic and mechanical, design and simulation, software implementation, schematic capture and testing.
High Speed Communications (ELEC345)
A circuit and system design module covering analogue and high frequency techniques and their place in modern communications systems.
Machine Learning for Robotics (ROCO351)
This module introduces basic concepts in the area of machine learning, which is a rapidly expanding field that allows computers to learn how to behave and perform complex tasks without being explicitly programmed to do them. Applications range from signal processing, image recognition through to the control of robotics systems.
Nanotechnology and Nanoelectronics (ELEC512)
This module is designed to provide interdisciplinary training in all aspects of the emerging Nanotechnology field. It introduces techniques for developing nano-scale devices and sensor technology as well as the nano-fabrication techniques required to construct them.
MEng Project (PROJ515)
This group project involves an in-depth study of a complex real-world problem originating from industry, commerce or research. It could include theoretical, computational and experimental work in addition to a critical literature survey and also involves the design and build of a prototype to support the claims made in the project execution plan.
Integrated Power Systems (ELEC517)
This module will focus on current power systems pertinent to renewable energy. The design and performance of converters will be main focus of this module.
Distributed and Interactive Communications Systems (ELEC520)
In this module, students will develop applications involving interconnected hardware devices and software capabilities. Devices include both embedded and networked computers. Capabilities include sensor data acquisition, actuator control, and behaviour generation. The module will cover both theory and practical work, including management of code complexity, and dealing with real-time and reliability issues.
Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.
The following programme specification represents the latest course structure and may be subject to change:
The modules shown for this course are those currently being studied by our students, or are proposed new modules. Please note that programme structures and individual modules are subject to amendment from time to time as part of the University’s curriculum enrichment programme and in line with changes in the University’s policies and requirements.
UCAS tariff
128
Student | 2023-2024 | 2024-2025 |
---|---|---|
Home | £9,250 | £9,250 |
International | £16,300 | £18,100 |
Part time (Home) | £770 | £770 |
To reward outstanding achievement the University of Plymouth offers scholarship schemes to help towards funding your studies.
Find out more about this programme by attending our virtual subject webinar. The virtual webinar will give you an overview of the programme and the opportunity to ask our academics any questions you may have.
We have one of the best-equipped undergraduate laboratory suites in the UK, and all courses are highly practical, with an emphasis on design and build. Use our dedicated robotics and communications laboratories to focus on industrial and intelligent robotic systems and high frequency electronics.
The School of Engineering, Computing and Mathematics was awarded an Athena Swan Bronze award in October 2020 which demonstrates our ongoing commitment to advancing gender equality and success for all.
"Developments in the modules throughout the years keep them in focus with the latest technology advances. Throughout my degree the facilities and staff within the laboratories have been brilliant, there is so much knowledge within the faculty."
A ‘placement year’ is an excellent way to gain a competitive edge. It will set you up for when the graduate schemes launch and help you make better career decisions.
Celebrating the range of research and development projects students undertake, the event allows students to demonstrate their creations to industry.
Student experience
Jack speaks about his experience on the course and presenting his project at the Student Showcase event.
Employer insight
Kevin Stewart, Senior Designer at Alstom, talks about his experience as an employer at the Showcase.
Student Showcase
Find out more about the event.