Electronic Engineering
Computing, Engineering and Technology
Taught
MSc
Electronic Engineering
Taught
MSc
Overview
Application Timeline
Tuition
- Year 1
| Student categories | Study | |
|---|---|---|
| Full-time | Part-time | |
| England | £14,500 | N/A |
| Northern Ireland | £14,500 | N/A |
| Scotland | £14,500 | N/A |
| Wales | £14,500 | N/A |
| Channel Islands | £14,500 | N/A |
| EU | £33,000 | N/A |
| International | £33,000 | N/A |
Requirements
Language requirements information is currently unavailable.
Modules
Internet of Everything
OptionalOptimisation
OptionalEnvironmental Engineering
Optional
About
The MSc in Electronic Engineering equips students with essential knowledge and practical experience to tackle global challenges in sustainable energy management systems. The program combines theoretical education with hands-on experience, utilizing advanced tools and technologies to foster innovative engineering solutions.
Program Highlights
- Theoretical and practical education in electronic engineering.
- Collaborative projects to enhance teamwork and design skills.
- Major research and development project to address key engineering challenges.
- Preparation for careers in industry or research roles.
Course Structure
Core Modules
- Research and
Subject Area Information
Electronic engineering is a dynamic and rapidly evolving field that focuses on the design, development, and application of electronic systems and devices. This discipline encompasses a wide range of topics, from fundamental principles of electronics to advanced concepts in digital systems, communication technologies, and embedded systems.
1. Introduction to Electronic Engineering
2. Digital Systems Design
3. Analog Electronics
4. Communication Systems
5. Embedded Systems
6. Power Electronics
- Understanding of Ohm's Law and Kirchhoff's laws
- Ability to analyze simple circuits
- Designing and analyzing digital circuits
- Understanding microprocessor architecture
- Programming in assembly language
- Designing and analyzing analog circuits
- Understanding frequency response
- Implementing analog signal processing techniques
- Designing communication systems
- Understanding modulation and demodulation processes
- Analyzing network performance
- Programming embedded systems
- Designing real-time applications
- Interfacing sensors and actuators
- Designing power electronic circuits
- Understanding power conversion techniques
- Implementing motor control systems
Career
Graduates of electronic engineering programs can pursue a variety of careers in different industries, leveraging their skills in electronic systems design and application.
Electronics Engineer
Designing and developing electronic equipment, from consumer electronics to industrial machinery.
Embedded Systems Engineer
Creating embedded software and hardware solutions for various applications, including automotive, medical devices, and consumer electronics.
Communication Engineer
Working on the development and maintenance of communication systems, including wireless networks, satellite communications, and internet infrastructure.
Power Electronics Engineer
Specializing in the design and implementation of power conversion systems, renewable energy solutions, and electric vehicle technology.
Control Systems Engineer
Developing and maintaining automated systems and control processes in manufacturing, robotics, and aerospace industries.
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