Develop your communication and interpersonal skills alongside the design and development of processes and systems. Professional Engineering Management Techniques (20 credits)Įxplore some of the soft skills outlined in the UK-SPEC which are pre-requisites to chartered status.Work placement (optional) Final year (national level 6): Progress your project through the various stages including identifying the problem, project planning, design and evaluation. Apply your specialist skills and knowledge to perform tasks to support your project group. Work in groups across engineering disciplines to solve a real-world engineering problem. Interdisciplinary Group Project (20 credits).Develop and analyse mathematical models of the behaviour of a component or system due to external influences. Undertake engineering analysis and use an appropriate mathematical approach. Mathematics, Statistics and Simulation (20 credits)Įxpand your knowledge of the continuous and discrete time mathematics for the analysis of signals and systems.Develop models of ‘complex’ systems by using system diagrams for the connection and manipulation of simple sub-systems. Delve into signal conditioning requirements and their design. Control and Instrumentation (20 credits)Īdvance your understanding of the principles of operation and performance of measurement systems.Develop transferrable skills relevant to employment in the engineering sector. Design electronic circuits and analyse the imperfections and errors in typical circuits. Analyse the steady state performance and interpret practical operating data for power system components, such as generators, transformers, and transmission lines.Įnhance your understanding of the operation of a wide variety of analogue and digital electronics. Explore the range of sources of energy available for power generation, and economic factors relevant to the provision, and use of, electrical power. Gain a critical understanding of the operating characteristics of system components within Electricity Generation, Transmission and Distribution, and the techniques that may be employed to model them. Electrical Power Systems and Machines (20 credits).Apply your skills with design activities and use a problem-based learning approach. Investigate the internal architecture, operation and programming techniques of microprocessors and microcontrollers and their role in data capture applications. Read more about what this means in our Help and Advice article.Įxamine the operation and application of a range of both microprocessors and PLCs. Develop the ability to produce an engineering drawing, alongside workshop and manufacturing skills. Learn to use key design and engineering software such as CAD (Computer-Aided Design). Get an introduction to the world of design engineering. Enhance your knowledge of machines and transformers. Grow your analytical skills to be able to solve electronic and electrical circuits. Gain a fundamental understanding of concepts related to electronic and electrical engineering. Electronic & Electrical Principles (20 credits).Utilise different mathematical techniques such as differentiation, integration, solution of simultaneous equations, ordinary differential equations (ODEs), trigonometry, and vectors. Use mechanical technology and evaluate the results of practical mechanics experiments. Understand the fundamental concepts, laws, and analytical methods for the solution of engineering mechanics problems. Apply computer-aided materials selection and manufacturing process selection techniques to engineering components. Build on your understanding of manufacturing processes and systems alongside economic, ethical, and environmental considerations.
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