The aim of this module is to introduce a range of mathematical methods appropriate to the needs of first-year engineering students.

The aim of the module is to introduce students to laws, theorems and techniques used to analyse linear electrical circuits and circuits with basic analog electronic components.

More information to follow.

The aim of this module is to  develop the theory and practice of software programming in an engineering context.

The aims of this module is to develop an understanding of the key concepts of electronic logic and how signals and systems are represented on digital platforms.

This module aims to:

• Introduce students to engineering as a professional multi-disciplinary activity through problems and challenges that integrate the new knowledge and understanding which is being taught in other modules.
• Provide a problem-based learning environment in which students can respond to design briefs and gain ongoing feedback from teaching and technical staff, as well as each other.
• Provide students with basic project delivery and management skills to develop an engineered solution in a team-based environment.
• Provide students with knowledge of routes to Chartered Engineer Status along with opportunities for their professional career development using the Engineering Council's UK-Specification and Personal Best.

The aim of the module is to enable students to design and analyse practical analogue and digital electronic circuits and systems.

The aims of this module are to:

• Further develop methods and tools required for planning and managing an engineering project.
• Further develop awareness of ethical, environmental and legislative issues regarding engineering projects.
• Further develop skills in electronics, programming and mechanical design and construction.
• Use these in the execution of a research, design and build project in a specialised area of electronic, electrical and mechanical engineering.

The aims of this module are to:

•  provide a foundation for telecommunications theory
• provide a theoretical and mathematical basis for the sampling, analysis and processing of signals in communications
• introduce the principles of free space communications links
• take into account regulatory and legal issues with operating in the electromagnetic environment.

The aim of this module is to introduce a range of advanced mathematical methods appropriate to the needs of second year engineering students.

The aims of this module are to:

• Introduce the students to the laws of electromagnetism and familiarise them with the complete set of vector field (Maxwell)
  equations.
• Provide an appreciation of the fundamental and pervasive role of Electromagnetism throughout science and engineering.

The aim of the module is to introduce modelling and control of dynamic systems using classical control techniques.

The aim of this module is to introduce a range of advanced mathematical methods appropriate to the needs of second year engineering students.

The aims of this module are to provide the student with an understanding of power conversion equipment and electrical networks. This includes the knowledge of how to analyse such systems both theoretically through equivalent circuits and practically through laboratory experiments.

More information to follow.

More information to follow.

The aim of the module is to enable students to understand the financial, legal and quality management principles that apply to the operational management of engineering organisations.

The aim of this module are to explore the concepts of advanced systems methods and systems integration and improve the students' confidence and ability to identify, select and apply an appropriate combination of systems methods, tools and processes to tackle systems problems in a group case study, focusing on a system problem requiring innovation and creativity in the design approach.

The aim of this module is to provide students with an introduction to the key characteristics of renewable energy systems, from renewable energy generation technologies (such as wind, solar, biomass, etc) through to storage/flexibility, distribution and consequences for end use. Key challenges around achieving 'Net-Zero' targets are also introduced, including the basic technical, economic and policy challenges related to decarbonisation of transport and heat in buildings.

The aim of the module is to provide students with the knowledge in computer networks and security fundamentals including the network infrastructure, protocols, data confidentiality, integrity, availability and trust.

The aim of the module is to gain knowledge and experience of real-time embedded software design and implementation.

The aims of this module are to:

• Introduce the fundamentals of bioelectricity and biophotonics at molecular, cellular and tissue levels.
• Explore engineering principles underpinning selected biomedical applications.

The aim of the module is to introduce students to the operational concepts and applications of a range of power electronic converters.

The aim of this module is to develop the theory and practice of security challenges and technologies for embedded systems in an engineering context.

The aim of this module is to develop the theory and practice of deploying machine learning (ML) inference models in resource-constrained IoT devices.

The aims of this module are to:

• Provide a foundation for the analysis of microwave transmission in free space and representative transmission line systems.
• Introduce the theory underlying antenna systems.
• Develop an understanding of the functions and interactions of high frequency transmission line circuits and components.
• Introduce techniques for analysis of high frequency circuits and systems.
• Introduce techniques for the measurement of high frequency circuits used in communications systems.

The aim of this module is to teach students the use of Linux Server Operating Systems, toolchains (e.g., Mentor Graphics) and methodologies commonly used in digital and electronic computing system design targeting Field Programmable Gate Arrays and Systems-on-Programmable-Chips (SoPCs) domains.