Description

Type

Bachelor's degree

Location

Liverpool

There are a diverse range of career opportunities available to graduates of this degree programme. You may be responsible for the planning of the electricity distribution network, or you may be designing the electronics of the next ‘must have’ item, you are also not limited to a career in engineering. Other employers actively seek engineers for their mixture of numerical ability and practical problem solving skills. Practical work is a key ingredient in this programme with one day per week timetabled in our well-equipped modern laboratories during the first two years. In the final year you will do a major individual project that is either linked to research work or has some industrial relevance. A very wide range of projects are offered. Lecture modules also reflect the broad based nature of this degree. In the first year, subjects covered range from Digital Electronics and Electronics Circuits through to Electromagnetism and Electromechanics. A similar range of modules are covered in the second year. In the final year you will be able to choose a specialisation from Electrical Engineering; Electrical and Electronic Engineering; Electronics; Electronic and Communication Engineering. Electrical Engineering is not simply about producing and transmitting electrical energy, it is also about how it is used. In both its transmission and usage there are significant and increasing challenges facing Electrical Engineers; many of these are related to sustainability and the environment. Over the last decade there has been an increase in the generation of electrical energy from greener sources (eg wind, wave, solar etc.) and more efficient consumer products with increased electronics and software. Electrical and Electronic Engineering is the broadest of the four specialisations and will allow you to choose lecture modules from an extensive list of about 25 options including subjects as diverse as Power Generation and...

Facilities

Liverpool (Merseyside)

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Chatham Street, L69 7ZH

Start date

On request

About this course

Requirements

Entry Requirements A level offerABB Subject requirementsA level Mathematics and a Science subject (Biology, Chemistry, Physics, Electronics or Design and Technology, Systems and Control Technology) as well as the GCSE Maths C BTECD*DD in relevant diploma including Distinction in Level 3 Further Mathematics for Engineering Technicians International Baccalaureate33 overall, including 5 at Higher Level Mathematics and either Physics or Electronics and 5 at Standard Level English Irish Leaving CertificateA1, A1, B1, B1 at...

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Subjects

Problem Solving
Credit
C programming
C++
Basic
IT
Basic IT training
Network
Basic IT
Electronic Engineering
Design
Mathematics
Electrical
Project
Systems
Engineering
Programming
Network Training
IT Development
GCSE Mathematics
Electromagnetism
Skills and Training

Course programme

Module details Programme Year One

Digital and Integrated Electronics Design
Electrical Circuits and System
Mathematics
Experimental Skills/Engineering Skills
Electronic Circuits
C Programming
Electromechanics and Electromagnetism

Compulsory modules

Electronic Circuits (ELEC104) Level 1 Credit level 15 Semester First Semester Exam:Coursework weighting 70:30 Aims
To introduce students to fundamental electronic devices (diodes and transistors).
To show how diodes and transistors are used in amplifier and switching circuits.

Learning Outcomes

Students will be able to demonstrate understanding of circuit biasing, the role of decoupling capacitors and the performance of some commonly used configurations and their practical significance.

Electromagnetism & Electromechanics (ELEC120) Level 1 Credit level 15 Semester Second Semester Exam:Coursework weighting 75:25 Aims
Upon completion of this module students will understand the basic elements of electrostatics and electromagnetics. Students will be able to demonstrate the importance of these core topics in engineering applications and complete simple designs of their own.
The course covers electrostatics, current and permanent electromagnetism. In particular, it is the first time that year 1 students meet design as distinct from problem based activity. This part of the course demands innovation and also demands that the student has approach as near as possible to a specification which may not, of itself, be possible.
The second part of the module covers electromechanics. The aims of this section will provide students with a fundamental knowledge of the principles and construction of DC and AC machines, transformers and linear actuators.

Learning Outcomes

A n understanding of the properties of materials best suited for use in electromechanical devices.

Introduction To Programming In C (ELEC129) Level 1 Credit level 15 Semester Whole Session Exam:Coursework weighting 0:100 Aims
Despite the popularity of newer languages such as C++ and Java the C language remains a core skill in the software business ranking in the top ten desired skills. C is one of the most popular languages for programming embedded systems that are found in automobiles, cameras, DVD players and many other modern appliances.

This module aims to enable students to:
- Learn and use the C programming language
- Use the C language to solve real engineering problems
- Acquire fundamental software development skills covering program design, coding and testing
Learning Outcomes
Knowledge of the C programming language

Knowledge of general programming concepts

Knowledge of the role and functions of the hardware and software components of a computer

Understanding of the software development process
Electrical Circuits and Systems (ELEC142) Level 1 Credit level 15 Semester First Semester Exam:Coursework weighting 70:30 Aims
To become familiar with a range of circuit analytical techniques
To be able to apply the most appropriate technique for a given circuit
To understand and be able to analyse transient phenomena in circuits containing reactive elements
To understand the basic principles of operational amplifiers and analyse circuits containing them
To introduce students to AC circuits.
To provide a method for AC circuit analysis for fixed frequency supplies.
To extend the AC circuit analysis for variable frequency circuits (ie simple filters).
To extend the analysis from passive frequency dependent circuits to active circuits.

Learning Outcomes

Understand Ohms Law and other fundamental principals

Understand how circuits can be simplified using resistor combinations

Understand the difference between real and ideal components

Understand how to apply advanced circuit analysis techniques (Nodal Analysis, Superposition, thevenin and Norton theorems) to solve simple DC and AC circuit problems.

Digital & Integrated Electronics Design (ELEC143) Level 1 Credit level 15 Semester Second Semester Exam:Coursework weighting 65:35 Aims
This module aims to provide students with knowledge of:
- Number systems such as binary, hexadecimal, BCD
- Laws of Boolean Algebra
- Basic design methods for combinational and sequential logic circuits.
- Operation of various silicon electronic devices
- To provide students with the opportunity to understand the basic principles of silicon microelectronics design.
- Introduce the subject in the frame of reference of basic design and problem solving.
- To develop practical skills in the handling and measurement of components.
- To increase the confidence of the student in undertaking material with a strong analytical and engineering content.
Learning Outcomes Understanding of number systems such as binary, hexadecimal and BCD
Knowledge of the laws of Boolean Algebra
Knowledge of basic design methods for combinational and sequential logic circuits

Understanding of the application of the physical laws of semiconductor to practicle silicon electronic devices such as diodes and transistors

Familiarity of the common design rules for development of layouts for the silicon devices and simple circuits
Engineering Skills (ELEC171) Level 1 Credit level 15 Semester Whole Session Exam:Coursework weighting 0:100 Aims This module covers the fundamental concepts and techniques necessary to use industrial/commercial windows-based software applications. It also attempts to create new knowledge and understanding of electrical engineering principles.
On completion of the module, a student is expected to know and understand:
- How to structure a scientific report or presentation.
- The key aspects of using the formulae, functions and charts
- The opportunities presented in MATLAB for solving complex mathematical problems
- How to connect basic measuring equipment to electronic circuits
- The operating principles of an Oscilloscope
- The key aspects of microcontroller functionality and programming
- The basic principles of electromagnetism
- The functionality of software tools for circuit design and testing
- The properties of diodes
- The operating principle of power generators and electrical motors
- The procedure to be followed for successfully completing an electrical engineering project
- The main sustainability practical and legal issues to come into force in the near future
- Error analysis, systematic and random errors
Learning Outcomes
have enhanced and harmonised IT skills with relation to:
- University computer network
- Technical report writing
- Data analysis
- Creation and delivery of presentations
- Engineering spreadsheet analysis
- Creating a web page
be creative in design, be able to evaluate results and synthesise knowledge

know how to complete individual work and be a valuable team member
recognise the basic building blocks of electrical circuits

know how to use basic measuring equipment and design software
correlate theory in textbooks with its practical applications

design and construct an electronic product

to provide an appreciation of electrical engineers responsibilities in the context of sustainable development
Mathematics I for Electrical Engineers (MATH191) Level 1 Credit level 15 Semester First Semester Exam:Coursework weighting 90:10 Aims
To bring students from varying backgrounds up to a common level in preparation for further modules in mathematics. To cover in detail the basic techniques of differential calculus,and provide an introduction to the theories of integral calculus, vectors, complex numbers and series.
Learning Outcomes
After completing the module, students should be able to:

-        Understand the notion of limits on an intuitive level

-        Differentiate functions using the product, quotient and chain rules

-        Understand various applications of the theory of differentiation, including Maclaurin series and Taylor series

-        Carry out simple calculations involving integration, vectors, complex numbers, and series
Mathematics Ii for Electrical Engineers (MATH192) Level 1 Credit level 15 Semester Second Semester Exam:Coursework weighting 80:20 Aims
1. To provide a detailed introduction to techniques (change of variable,

    integration by parts and partial fractions) for and applications of

    one-dimensional integrals.

2. To introduce partial derivatives of functions of two variables and their

    applications, e.g., for linear approximations.

...

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Electrical and Electronic Engineering BEng (Hons)

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