Module overview
Aims and Objectives
Learning Outcomes
Subject Specific Practical Skills
Having successfully completed this module you will be able to:
- Design, write and debug Object-Oriented programs
- Use simple numerical programs to solve physical problems
- Use numerical simulation software for a range of practical applications and design questions.
Knowledge and Understanding
Having successfully completed this module, you will be able to demonstrate knowledge and understanding of:
- The principles of Object-Oriented programming, including the concepts of inheritance, abstraction and polymorphism.
- The use of programs for numerical solution of mathematical equations.
- Approaches for numerical simulation of electrical and electromagnetic fields and systems.
Transferable and Generic Skills
Having successfully completed this module you will be able to:
- Select an appropriate numerical approach for different simple mathematical problems.
- Address novel design challenges by choosing appropriate analysis and design methods.
- Understand and choose appropriate commercial numerical simulation tools for different physical problems.
- Model software systems before implementation.
Subject Specific Intellectual and Research Skills
Having successfully completed this module you will be able to:
- Analyse, enhance and debug existing OO programs.
- Effectively integrate reusable OO libraries.
- Describe the most appropriate numerical approach for different electrical problems.
Syllabus
Learning and Teaching
Teaching and learning methods
| Type | Hours |
|---|---|
| Completion of assessment task | 60 |
| Follow-up work | 12 |
| Lecture | 24 |
| Specialist Laboratory | 36 |
| Preparation for scheduled sessions | 18 |
| Total study time | 150 |
Resources & Reading list
General Resources
Software requirements. The student version of Orcad/PSpice and LTSpice
Online documents. Lecture notes and details of assignments and assessment schemes will be provided on line.
Laboratory space and equipment required. IC fabrication facilities
Textbooks
Sedra A S & Smith K C (2004). Microelectronic Circuits. OUP.
Lidwell W, Holden K and Butler J (2010). Universal Principles of Design. Rockport Publishers Inc.
Spencer R R & Ghausi M S (2003). Introduction to Electronic Circuit Design. Prentice Hall.
Williams T (2005). The Circuit Designer's Companion. Newnes,.
Assessment
Assessment strategy
This module is assessed entirely by a combination of coursework exercises, presentations and reports, along with demonstrations. There is no referral opportunity for this module. There is no external repeat opportunity for this module.Summative
This is how we’ll formally assess what you have learned in this module.
| Method | Percentage contribution |
|---|---|
| Coursework | 100% |
Repeat Information
Repeat type: Internal