Engineering, Mathematics and Physical Sciences Intranet
ENG2118 - Analogue and Digital Electronics Design (2023)
| MODULE TITLE | Analogue and Digital Electronics Design | CREDIT VALUE | 15 |
|---|---|---|---|
| MODULE CODE | ENG2118 | MODULE CONVENER | Prof Mustafa Aziz (Coordinator) |
| DURATION: TERM | 1 | 2 | 3 |
|---|---|---|---|
| DURATION: WEEKS | 11 |
| Number of Students Taking Module (anticipated) | 24 |
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DESCRIPTION - summary of the module content
Analogue and digital signals are found in all modern day technology, from mobile phones to aircrafts. This practical, hands on module teaches you how to design, simulate, build and test real electronic systems.
You will get the chance to design electronic circuits using basic analogue and digital circuit building blocks, including transistor amplifiers, integrated circuit operational-amplifiers, filters, oscillators, counters, decoders, adders, latches and multiplexers. Furthermore, you will devise complex digital systems using programmable logic, such as Field Programmable Gate Arrays (FPGAs). Finally, you will design a range of practical circuits, simulating their performance in modern electronics simulators (Multisim and HDL) and explore their hardware implementation.
Throughout the module, lecturers will use a variety of case studies to aid your learning, including the design of amplifiers, filters and synchronous counters.
Prerequisite module: ENG1001, ENG1009 or equivalent
AIMS - intentions of the module
The aim of this module is to help you build on your basic knowledge of electronic devices and components from preceding modules, and enable you to specify, design and evaluate practical digital and analogue electronic circuits. Through lectures, problem sessions and case studies, you will learn about design concepts and techniques, including the use of simulation tools (Multisim and Hardware Description Language) and understanding and interpreting component datasheets.
The module gives you the opportunity to build a strong foundation in electronic engineering design and processes to support your project work in subsequent years and in industry.
INTENDED LEARNING OUTCOMES (ILOs) (see assessment section below for how ILOs will be assessed)
This is a constituent module of one or more degree programmes which are accredited by a professional engineering institution under licence from the Engineering Council. The learning outcomes for this module have been mapped to the output standards required for an accredited programme, as listed in the current version of the Engineering Council’s ‘Accreditation of Higher Education Programmes’ document (AHEP-V3).
This module contributes to learning outcomes: SM1p, SM1m, SM5m, EA2p, EA2m, EA3p, EA3m, D4p, D4m, D5p, D5m, EP3p, EP3m, EP4p, EP4m, EP9p, EP11m, G1p, G1m, G4p, G4m
A full list of the referenced outcomes is provided online: http://intranet.exeter.ac.uk/emps/subjects/engineering/accreditation/
The AHEP document can be viewed in full on the Engineering Council’s website, at http://www.engc.org.uk/
On successful completion of this module, you should be able to:
Module Specific Skills and Knowledge: SM1p, SM1m, SM5m, EA2p, EA2m, EA3p, EA3m, EP3p, EP3m
1 understand a range of general purpose analogue and digital electronic components and be able to select appropriate components for a given design requirement;
2 recognise general purpose device and component parameters as specified in typical data sheets, and utilise such parameters effectively in circuit design examples;
3 comprehend useful analogue and digital design techniques and circuits used for common applications (e.g. amplification, buffering, counting, synchronisation, filtering);
4 appreciate the differences between 'ideal' and 'real' components and the implications of these differences for design;
5 convert specified system specifications into practical electronic designs taking into account the sometimes conflicting requirements of system complexity, cost, efficiency and compliance to specification.
6 use computational tools for the design and analysis of electronic circuits, including SPICE circuit simulators and Hardware Description Languages (HDL).
Discipline Specific Skills and Knowledge: D4p, D4m, D5p, D5m, EP3p, EP3m, EP4p, EP4m
7 grasp the engineering design process: analyse requirements-specify-design-simulate-prototype-test;
8 apply your theoretical knowledge to the solution of a real problem.
Personal and Key Transferable/ Employment Skills and Knowledge: EP9p, EP11m, G1p, G1m, G4p, G4m
9 illustrate basic project management skills: setting realistic targets, allocating tasks and reviewing progress;
10 show enhanced group working skills;
11 demonstrate improved written, graphical and oral communication skills.
SYLLABUS PLAN - summary of the structure and academic content of the module
Basic analogue building blocks:
- CE, CC and CB transistor amplifiers;
- differential transistor amplifiers;
- field effect transistors: basic circuits, e.g. amplifiers, switches;
- operational amplifiers: amplifiers, integrators, comparators, oscillators, filters;
Digital electronics:
- logic families and main characteristics - TTL, CMOS;
- Astable and monostable circuits – the 555 Timer
- SSI - small scale integration – basic gates and combinational logic;
- MSI - medium scale integration – combinational and sequential logic: e.g. decoders, multiplexers, counters, adders;
- LSI - large scale integration - programmable logic devices: e.g. PALs , FPGAs;
- Design case studies: for example audio amplifier, differential amplifier, timer and synchronous counter, FPGA design using Verilog
LEARNING AND TEACHING
LEARNING ACTIVITIES AND TEACHING METHODS (given in hours of study time)
| Scheduled Learning & Teaching Activities | 50.00 | Guided Independent Study | 100.00 | Placement / Study Abroad |
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DETAILS OF LEARNING ACTIVITIES AND TEACHING METHODS
| Category | Hours of study time | Description |
| Scheduled learning and teaching activities | 22 | Lectures |
| Scheduled learning and teaching activities | 11 | Tutorials/drop-in sessions |
| Scheduled learning and teaching activities | 17 | Laboratories/design sessions |
| Guided independent study | 100 | Lecture and assessment preparation; wider reading |
ASSESSMENT
FORMATIVE ASSESSMENT - for feedback and development purposes; does not count towards module grade
Not applicable
SUMMATIVE ASSESSMENT (% of credit)
| Coursework | 40 | Written Exams | 60 | Practical Exams |
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DETAILS OF SUMMATIVE ASSESSMENT
| Form of Assessment | % of Credit | Size of Assessment (e.g. duration/length) | ILOs Assessed | Feedback Method |
|---|---|---|---|---|
| Written exam - closed book | 60 | 2 hours - January Exam Period | 3, 4, 8 | Exam mark |
| Coursework - TMA 1 - Transistor amplifier design | 10 | 10 hours | All | return of marked and annotated scripts |
| Coursework - TMA 2 - Differential amplifier design | 10 | 10 hours | All | return of marked and annotated scripts |
| Coursework - TMA 3 - Counter design | 10 | 10 hours | All | return of marked and annotated scripts |
| Coursework - TMA 4 - FGPA design | 10 | 10 hours | All | return of marked and annotated scripts |
DETAILS OF RE-ASSESSMENT (where required by referral or deferral)
| Original Form of Assessment | Form of Re-assessment | ILOs Re-assessed | Time Scale for Re-assessment |
|---|---|---|---|
| All above | Written exam (100% - 2 hours) | All | August Ref/Def period |
RE-ASSESSMENT NOTES
Reassessment will be by a single written exam only worth 100% of the module. For deferred candidates, the mark will be uncapped. For referred candidates, the mark will be capped at 40%.
RESOURCES
INDICATIVE LEARNING RESOURCES - The following list is offered as an indication of the type & level of
information that you are expected to consult. Further guidance will be provided by the Module Convener
information that you are expected to consult. Further guidance will be provided by the Module Convener
Reading list for this module:
| Type | Author | Title | Edition | Publisher | Year | ISBN | Search |
|---|---|---|---|---|---|---|---|
| Set | Floyd, Thomas L., Buchla, David M. | Electronics Fundamentals: Circuits, Devices and Applications | Pearson | 2010 | 978-0135096833 | [Library] | |
| Set | Horowitz, P. and Hill, W. | The Art of Electronics | 3rd | Cambridge University Press | 2015 | 978-0521809269 | [Library] |
| Set | Roth, C.H (JR), Kinney, Larry, L. | Fundamentals of Logic Design | 7th international edition | Cengage Learning | 2014 | 9781473712690 | [Library] |
| Set | Storey, N. | Electronics: A Systems Approach | Pearson | 2017 | 9781292114064 | [Library] |
| CREDIT VALUE | 15 | ECTS VALUE | |
|---|---|---|---|
| PRE-REQUISITE MODULES | ENG1001, ENG1009 |
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| CO-REQUISITE MODULES |
| NQF LEVEL (FHEQ) | AVAILABLE AS DISTANCE LEARNING | No | |
|---|---|---|---|
| ORIGIN DATE | Thursday 14 January 2021 | LAST REVISION DATE | Wednesday 18 January 2023 |
| KEY WORDS SEARCH | Electronics design; transistors; operational amplifiers; combinational logic; sequential logic, programmable logic, HDL, Verilog, FPGAs, Multisim. |
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