BEng Electrical and Electronic Engineering with Year of Professional Experience
Academic Year 2019/20
A programme specification is required for any programme on which a student may be registered. All programmes of the University are subject to the University's Quality Assurance processes. All degrees are awarded by Queen's University Belfast.
Programme Title | BEng Electrical and Electronic Engineering with Year of Professional Experience | Final Award (exit route if applicable for Postgraduate Taught Programmes) |
Bachelor of Engineering | |||||||||||
Programme Code | ELE-BENG | UCAS Code | H604 | HECoS Code | 100163 |
ATAS Clearance Required | No | |||||||||||||
Mode of Study | Full Time | |||||||||||||
Type of Programme | Single Honours | Length of Programme | 4 Academic Year(s) | Total Credits for Programme | 480 | |||||||||
Exit Awards available |
INSTITUTE INFORMATION
Teaching Institution |
Queen's University Belfast |
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School/Department |
Electronics, Electrical Engineering & Computer Sci |
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Framework for Higher Education Qualification Level |
Level 6 |
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QAA Benchmark Group |
Engineering (2015) |
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Accreditations (PSRB) |
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Institution of Engineering and Technology (IET) |
Date of most recent Accreditation Visit 16-12-15 |
REGULATION INFORMATION
Does the Programme have any approved exemptions from the University General Regulations None |
Programme Specific Regulations Progression |
Students with protected characteristics N/A |
Are students subject to Fitness to Practise Regulations (Please see General Regulations) No |
EDUCATIONAL AIMS OF PROGRAMME
The overall aims of the programme are to provide a broad foundation in Electrical and Electronic Engineering, to provide opportunities to study selected themes in Electrical and Electronic Engineering in greater depth, and to develop a range of practical and transferable skills to prepare graduates for careers in the engineering and IT industries as well as other professional roles. The year of professional experience aims to give the student a practical insight into working as part of a professional team in an engineering context and the opportunity to put into practice the knowledge and skills gained from university study.
• The fundamental principles of Electrical and Electronic Engineering are taught in Stages 1 and 2. The themes of Electric Power, Digital Electronics, Analogue Electronics, Control, Communications, Computer Programming and Embedded Programming form the core curriculum. This is designed to ensure that each student is well grounded in the full breadth of Electrical and Electronic Engineering.
• In-depth study of selected themes is provided in Stage 3. This is designed to allow students to choose topics for which they have a particular aptitude, to encourage students to develop individual expertise in these topics and to expose students to recent developments and unanswered questions in particular disciplines. The final year project aims to provide each student with an opportunity to engage in a year-long practical study within their chosen field. It is an aim of the programme that students will be well prepared for and attracted to full-time postgraduate study.
• The programme aims to develop practical skills in parallel with fundamental understanding. The laboratory classes and design projects in Stages 1 and 2 are designed to be slightly more prescriptive, whilst the individual final-year project in Stage 3 is designed to be more open-ended to encourage innovative thinking and problem-solving skills. Oral presentations and technical reports are a key aspect of all project work and these aim to ensure that graduates will have strong communication skills.
• Through the Professional Engineering Practice modules at Stages 2 and 3, students are exposed to the commercial and legal realities of industry and the professional behaviours expected of graduate engineers. The year of professional experience provides students with direct experience of being part of a professional engineering team.
• Consistent with the general educational aims of the programme and the specific requirements of the UK Standard for Professional Engineering Competence, this specification provides a concise summary of the main features of the programme, and the learning outcomes that a typical student might reasonably be expected to achieve and demonstrate.
LEARNING OUTCOMES
Learning Outcomes: Cognitive SkillsOn the completion of this course successful students will be able to: |
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Plan, conduct, present and report a major engineering project. |
Teaching/Learning Methods and Strategies Skills are progressively developed via Design Projects in Stage 1, design exercises in Stage 2, a group Software Engineering project in Stage 3 and an individual final year project. Methods of Assessment Written project reports |
Analyse, evaluate and interpret experimental data. |
Teaching/Learning Methods and Strategies Skills are introduced in structured laboratory classes in Stages 1 and 2 and analysis of experimental data is a core component of the individual final year project. Methods of Assessment Structured laboratory classes |
Innovate and exploit concepts |
Teaching/Learning Methods and Strategies Innovation is primarily taught through design projects and particularly through the final year project. Methods of Assessment Written project reports |
Design engineering systems/components. |
Teaching/Learning Methods and Strategies Skills are progressively developed via Design Projects in Stage 1, design exercises in Stage 2 and the individual final year project. Methods of Assessment Unseen written examinations |
Learning Outcomes: Transferable SkillsOn the completion of this course successful students will be able to: |
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Make effective use of both oral and written skills. |
Teaching/Learning Methods and Strategies Oral and written presentations are embedded in the Stage 1 Design Projects, Stage 2 Design Exercises, Stage 3 group Software Engineering Project and the final year project. Many individual modules include substantial pieces of written coursework. Methods of Assessment Unseen written examinations |
Use Information Technology (eg WP, www, spreadsheets, specialist packages). |
Teaching/Learning Methods and Strategies Skills in standard packages developed by practice across most modules. Instruction in specialist packages (e.g. Matlab) typically provided for design exercises and final year projects . Methods of Assessment Structured laboratory classes |
Demonstrate aptitude for lifelong learning. |
Teaching/Learning Methods and Strategies Students are encouraged to read outside their course notes and are specifically expected to carry out literature reviews and state-of-the-art reviews in the final year project. Methods of Assessment Coursework assignments |
Work in a team and understand professional responsibilities. |
Teaching/Learning Methods and Strategies Students learn to work together in Stage 1 design projects and laboratory classes. The Stage 3 Software Engineering Project provides vital experience of group work. Methods of Assessment Coursework assignments |
Demonstrate software and programming skills appropriate to an engineer. |
Teaching/Learning Methods and Strategies Student are taught C++ in first and second year and embedded programming skills in second year. Software skills are developed in many individual modules. Methods of Assessment Unseen written examinations |
Learning Outcomes: Knowledge & UnderstandingOn the completion of this course successful students will be able to: |
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Understand electrical and electronic engineering principles and terms. |
Teaching/Learning Methods and Strategies These are primarily taught through lectures and tutorial classes at all Stages. Methods of Assessment Unseen written examinations |
Understand engineering constraints in design. |
Teaching/Learning Methods and Strategies Introduced in the Stage 1 Design Projects and further developed in Stage 2 design exercises and final year project. Methods of Assessment Structured laboratory classes |
Undertake mathematical analysis of engineering components and systems. |
Teaching/Learning Methods and Strategies Primarily taught through lectures and tutorial problems at Stage 3. Methods of Assessment Unseen written examinations |
Appreciate the role of the engineer in society regarding economic development. |
Teaching/Learning Methods and Strategies Taught through Professional Studies modules at Stages 2 and 3. Methods of Assessment Unseen written examinations |
Learning Outcomes: Subject SpecificOn the completion of this course successful students will be able to: |
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Apply software, hardware and CAD skills to engineering projects. |
Teaching/Learning Methods and Strategies Taught in individual modules and combined in project activity. Methods of Assessment Coursework assignments |
Prepare descriptive and interpretative technical reports. |
Teaching/Learning Methods and Strategies All project work includes submission of a technical report. Methods of Assessment Coursework assignments |
Use instrumentation competently and safely. |
Teaching/Learning Methods and Strategies Primarily taught through structured laboratory classes at Stages 1 and 2 but also covered in lecture course at Stage 1. Health and safety induction compulsory for all students. Methods of Assessment Structured laboratory classes |
MODULE INFORMATION
Stages and Modules
Module Title | Module Code | Level/ stage | Credits | Availability |
Duration | Pre-requisite | Assessment |
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S1 | S2 | Core | Option | Coursework % | Practical % | Examination % | ||||||
Electronics 2 | ELE2018 | 2 | 20 | YES | YES | 24 weeks | N | YES | 10% | 20% | 70% | |
Power Electronics and Motor Drives | ELE3045 | 4 | 20 | YES | YES | 24 weeks | Y | YES | 30% | 0% | 70% | |
Signals and Communication Systems 2 | ELE2020 | 2 | 20 | YES | YES | 24 weeks | N | YES | 20% | 10% | 70% | |
Engineering Entrepreneurship | ELE3043 | 4 | 20 | YES | YES | 24 weeks | N | YES | 70% | 30% | 0% | |
Electrical Power and Energy | ELE3039 | 4 | 20 | YES | YES | 24 weeks | Y | YES | 30% | 0% | 70% | |
Signal Processing and Communications | ELE3041 | 4 | 20 | YES | 24 weeks | Y | YES | 15% | 0% | 85% | ||
Circuits and Control | ELE2024 | 2 | 20 | YES | YES | 24 weeks | N | YES | 15% | 15% | 70% | |
High Frequency System Techniques | ELE3037 | 4 | 20 | YES | 24 weeks | N | YES | 30% | 0% | 70% | ||
Connected Health | ECS3003 | 4 | 20 | YES | 24 weeks | N | YES | 20% | 10% | 70% | ||
Electronics 1 | ELE1052 | 1 | 30 | YES | YES | 24 weeks | N | YES | 30% | 10% | 60% | |
Embedded Systems 2 | ELE2025 | 2 | 20 | YES | YES | 24 weeks | N | YES | 0% | 40% | 60% | |
Networks and Communications Protocols | ELE3040 | 4 | 20 | YES | 24 weeks | N | YES | 20% | 0% | 80% | ||
Project 3 | ELE3001 | 4 | 40 | YES | YES | 24 weeks | N | YES | 100% | 0% | 0% | |
Mathematics 1 | ELE1012 | 1 | 20 | YES | YES | 24 weeks | N | YES | 50% | 0% | 50% | |
Computer Programming | ELE1053 | 1 | 20 | YES | YES | 24 weeks | N | YES | 100% | 0% | 0% | |
Electrical Engineering | ELE1054 | 1 | 30 | YES | YES | 24 weeks | N | YES | 19% | 15% | 66% | |
Sandwich - Year of Professional Experience | ELE2034 | 3 | 120 | YES | YES | 24 weeks | N | YES | 100% | 0% | 0% | |
Electrical Power Engineering 2 | ELE2019 | 2 | 20 | YES | YES | 24 weeks | N | YES | 10% | 20% | 70% | |
Embedded Systems | ECS1001 | 1 | 20 | YES | YES | 24 weeks | N | YES | 50% | 0% | 50% | |
Mathematics and Algorithms | ELE2035 | 2 | 20 | YES | YES | 24 weeks | N | YES | 15% | 20% | 65% | |
Digital Systems Architecture and Design | ELE3038 | 4 | 20 | YES | 24 weeks | Y | YES | 30% | 0% | 70% | ||
Advanced Electronics | ELE3046 | 4 | 20 | YES | YES | 24 weeks | Y | YES | 50% | 0% | 50% | |
Computer Algebra | PMA3008 | 4 | 20 | YES | 12 weeks | N | YES | 0% | 100% | 0% | ||
Professional Engineering and Innovation | ELE2036 | 2 | 20 | YES | YES | 24 weeks | N | YES | 25% | 65% | 10% | |
Control Systems Engineering | ELE3042 | 4 | 20 | YES | 24 weeks | Y | YES | 30% | 0% | 70% |
Notes