Undergraduate Course: Electrical Engineering 1 (ELEE08001)
Course Outline
| School | School of Engineering |
College | College of Science and Engineering |
| Credit level (Normal year taken) | SCQF Level 8 (Year 1 Undergraduate) |
Availability | Available to all students |
| SCQF Credits | 20 |
ECTS Credits | 10 |
| Summary | An introduction to Electrical Engineering (Circuit Analysis, a.c. Theory, Operational Amplifiers, Semiconductor Devices, Logic Theory). |
| Course description |
Prof. Murray's Lectures: week 1-4, covering material required for Lab Session 1 & 2.
Week 1
Lecture 1 Potential divider. Resistors and capacitors, RC circuit introduction.
Lecture 2 RC circuits charge-discharge
Lecture 3 Inductors and RL circuits, charge-discharge
Week 2
Lecture 4 Nodal analysis introduction
Lecture 5 Nodal analysis examples
Lecture 6 Op-Amps, introduction
Week 3
Lecture 7 Op-Amp circuits
Lecture 8 Op-Amp worked examples
Lecture 9 Real Op-Amps (limitations)
Week 4
Lecture 10 Diodes - "cartoon" version
Lecture 11 Op-Amp circuits with diodes and capacitors
Lecture 12 Filters
Dr. Mueller's Lectures: week 5, 7-8, covering material for Lab Session 2 (weeks 8-11)
Week 5
Lecture 13 AC circuits, voltage & current waveforms, reactance, intro to phasors
Lecture 14 Phasors examples 2 components: R-C, R-L - series and parallel
Lecture 15 Phasors examples 3 components: R-C-L
Week 6
Lecture 16 AC circuits: complex number representation & polar form
Lecture 17 Examples - revisit filters, relate to part 2 of lab
Lecture 18 Circuit analysis: Kirchoff's Law, Thevenin - example
Week 7
Lecture 19 Current Sources & Nortons Law - example
Lecture 20 Current source examples - R-C charging
Lecture 21 Examples - application of above to a power circuit.
Dr. Haworth's Lectures: week 9-11, covering some parts of both lab sessions in more detail
Week 8
Lecture 22 Diodes. Diode models, examples, rectifier circuits (remove load line).
Lecture 23 Diodes cont. Peak rectifier, diode clamp, voltage doubler, Zener diode, LED.
Lecture 24 Digital Logic. AND/OR/NAND/NOR Simple combinational logic, truth tables.
Week 9
Lecture 25 Boolean Algebra. Rules, Examples.
Lecture 26 Logic reduction. K-maps, examples, half adder.
Lecture 27 K-maps of 3 and 4 variables, examples, full adder, SOP, POS.
Week 10
Lecture 28 Sequential Logic. SR flip-flop, synchronous SR.
Lecture 29 Sequential Logic cont. D-type, edge triggered/master-slave.
Lecture 30 Examples
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Entry Requirements (not applicable to Visiting Students)
| Pre-requisites |
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Co-requisites | |
| Prohibited Combinations | |
Other requirements | Prior attendance at Engineering 1 or (in special circumstances) prior attendance at another half-course. |
Information for Visiting Students
| Pre-requisites | None |
| High Demand Course? |
Yes |
Course Delivery Information
| Not being delivered |
Learning Outcomes
On completion of this course, the student will be able to:
- 1. Ability to analyse ac and dc circuits comprising passive components: resistors, inductors and capacitors.
- 2. Ability to analyse circuits using operational amplifiers, in both ideal and non-ideal conditions.
- 3. Ability to analyse logic circuits using Karnaugh maps and truth tables.
- 4. Ability to design, build, test, diagnose faults and repair a simple circuit to a given specification, and to write up the practical work in a technical report.
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Reading List
| Recommended: Giorgio Rizzoni, "Principles and Applications of Electrical Engineering", published by McGraw-Hill, ISBN 0-07-118452 |
Additional Information
| Course URL |
http://webdb.ucs.ed.ac.uk/see/VLE/index.cfm?ID=EE0001 |
| Graduate Attributes and Skills |
Not entered |
| Additional Class Delivery Information |
Tutorial: M 1400 or 1500 or 1600 or Tu 1400 or 1500 or 1600 or Th 1400
Labs (Weeks 2-10): Tu 1400-1700 or Th 1400-1700 |
| Keywords | AC Circuits,DC Circuits,OP Amps,Logic.,practical circuit design,Circuit build and testing |
Contacts
| Course organiser | Prof Timothy Drysdale
Tel:
Email: |
Course secretary | Mrs Megan Inch-Kellingray
Tel: (0131 6)51 7079
Email: |
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