Module Details
| Module Code: |
ELEC6019 |
| Title: |
Electrical AC Principles
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Long Title:
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Electrical AC Principles
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| NFQ Level: |
Fundamental |
| Valid From: |
Semester 1 - 2020/21 ( September 2020 ) |
| Field of Study: |
5220 - Electrical Engineering
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| Module Description: |
An introduction to alternating current (AC) theory including impedance, reactance and resonance. The application of formulae and analysis techniques to AC circuits is explored.
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| Learning Outcomes |
| On successful completion of this module the learner will be able to: |
| # |
Learning Outcome Description |
| LO1 |
Apply single phase AC theory to the solution of practical problems involving electrical AC quantities. |
| LO2 |
Describe electrical and magnetic terms and quantities. Perform fundamental calculations involving these quantities, and discuss practical applications. |
| LO3 |
Use simulation software and circuit analysis to calculate operating parameters of AC circuits including current, voltage, phase, root mean square (RMS) power and power factor and to confirm by experimentation and measurement. |
| LO4 |
Write a short laboratory report in accordance with accepted engineering professional standards |
| LO5 |
Conduct themselves in accordance with professional engineering standards while collecting and reporting on experimental data and in their dealings with others. |
| Dependencies |
Module Recommendations
This is prior learning (or a practical skill) that is strongly recommended before enrolment in this module. You may enrol in this module if you have not acquired the recommended learning but you will have considerable difficulty in passing (i.e. achieving the learning outcomes of) the module. While the prior learning is expressed as named MTU module(s) it also allows for learning (in another module or modules) which is equivalent to the learning specified in the named module(s).
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Incompatible Modules
These are modules which have learning outcomes that are too similar to the learning outcomes of this module. You may not earn additional credit for the same learning and therefore you may not enrol in this module if you have successfully completed any modules in the incompatible list.
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| No incompatible modules listed |
Co-requisite Modules
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| No Co-requisite modules listed |
Requirements
This is prior learning (or a practical skill) that is mandatory before enrolment in this module is allowed. You may not enrol on this module if you have not acquired the learning specified in this section.
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| No requirements listed |
| Indicative Content |
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Electromagnetism
Ferromagnetism, hysteresis loops, electromagnetic devices, electromagnetic induction, Faraday's Law, Lenz's Law, transformer theory, construction and application.
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Sinusoidal waveforms
AC vs DC, AC generation, AC amplitude and frequency, average and RMS values, peak and form factor, trigonometric expression, phasors and basic phasor analysis.
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Practical AC circuit analysis
Analysis of AC circuits involving resistance, inductance and capacitance. Solution of networks involving simple series or parallel combinations. Work and energy. Reactance and impedance of RLC AC circuits, resonance in AC circuits, power in AC circuits. Power factor and power factor correction.
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Electromagnetic Applications
Electromagnetic forces and the operation of different devices including motors, generators, coils etc.
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Lab programme
AC waveforms, RLC circuits, reactance and impedance in AC circuits, resonance in AC circuits, power factor, practical applications.
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Written report
Correct use of passive voice, spelling & grammar, units, figures & diagrams, tables.
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Personal and Professional Conduct
Use of Peer review, ethical conduct considerations, plagiarism and due recognition of sources, Health and Safety considerations of practical work.
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Module Content & Assessment
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| Assessment Breakdown | % |
|---|
| Coursework | 50.00% |
| End of Module Formal Examination | 50.00% |
Assessments
| End of Module Formal Examination |
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| Reassessment Requirement |
Repeat examination
Reassessment of this module will consist of a repeat examination. It is possible that there will also be a requirement to be reassessed in a coursework element.
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The University reserves the right to alter the nature and timings of assessment
Module Workload
| Workload: Full Time |
| Workload Type |
Contact Type |
Workload Description |
Frequency |
Average Weekly Learner Workload |
Hours |
| Lecture |
Contact |
Lectures on AC theory |
Every Week |
2.00 |
2 |
| Lab |
Contact |
Assessment of practical competency through laboratory-based assignments. |
Every Week |
2.00 |
2 |
| Independent & Directed Learning (Non-contact) |
Non Contact |
Review of lecture notes and recommended material and preparation of reports for selected laboratory sessions, and in class topics |
Every Week |
3.00 |
3 |
| Total Hours |
7.00 |
| Total Weekly Learner Workload |
7.00 |
| Total Weekly Contact Hours |
4.00 |
| Workload: Part Time |
| Workload Type |
Contact Type |
Workload Description |
Frequency |
Average Weekly Learner Workload |
Hours |
| Lecture |
Contact |
Lectures on AC theory |
Every Week |
1.50 |
1.5 |
| Lab |
Contact |
Assessment of practical competency through laboratory-based assignments. |
Every Week |
1.50 |
1.5 |
| Independent & Directed Learning (Non-contact) |
Non Contact |
Review of lecture notes and recommended material and preparation of reports for selected laboratory sessions, and in class topics |
Every Week |
4.00 |
4 |
| Total Hours |
7.00 |
| Total Weekly Learner Workload |
7.00 |
| Total Weekly Contact Hours |
3.00 |
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Module Resources
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| Recommended Book Resources |
|---|
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John Bird. (2017), Electrical Circuit Theory and Technology, 6th. Routledge, [ISBN: 978-113867349].
| | Supplementary Book Resources |
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Edward Hughes, Dr John Hiley et al. (2016), Electrical & Electronic Technology, 12th. Pearson, [ISBN: 978-129209304].
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Christopher R. Robertson. (2008), Fundamental electrical and electronic principles, 3rd. Newnes, [ISBN: 978-0750687379].
| | This module does not have any article/paper resources |
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| Other Resources |
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website, Electronics Tutorials,
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