Faculty of Engineering |
Course: | Electrical Engineering (mid-year) (2019) |
CP Required: | 192 |
Min FT Duration: | 4.00 Years |
Min PT Duration: | 4.00 Years |
Faculty/School: | Faculty of Engineering |
Years Offered: | 2025, 2024, 2023, 2022, 2021, 2020, 2019, 2018, 2017, 2016 |
Type | CP | CP From |
6 |
Select from
INFO1110: Introduction to Programming |
|
3 |
Select from
MATH1021: Calculus of One Variable |
|
6 |
Select from
ENGG1111: Integrated Engineering 1 |
|
6 |
Select from
ELEC1601: Introduction to Computer Systems |
|
3 |
Select from
MATH1005: Statistical Thinking with Data |
|
0 |
Select from
ENGP1000: Professional Engagement Program 1 Note: All students must enrol in ENGP1000 in their first semester of enrolment. New ENGP units will be in place from 2021. You can find more information at https://canvas.sydney.edu.au/courses/2806/pages/professional-engagement-program-pep-2021-changes |
Note: From 2024, 3cp Math units are replaced by new 6cp units MATH1061 and MATH1062. Students who have not yet completed all 3cp Math units can use this interactive tool on Canvas for enrolment advice: https://canvas.sydney.edu.au/courses/2806/pages/mathematics-changes-in-2024
Type | CP | CP From |
3 |
Select from
MATH1023: Multivariable Calculus and Modelling |
|
6 |
Select from
ELEC2602: Digital Logic |
|
6 |
Select from
ELEC1103: Fundamentals of Electrical and Electronic Engineering |
|
6 |
Select from
PHYS1001: Physics 1 (Regular) |
|
3 |
Select from
MATH1002: Linear Algebra |
Note: From 2024, 3cp Math units are replaced by new 6cp units MATH1061 and MATH1062. Students who have not yet completed all 3cp Math units can use this interactive tool on Canvas for enrolment advice: https://canvas.sydney.edu.au/courses/2806/pages/mathematics-changes-in-2024
Type | CP | CP From |
2 |
Select from
ENGG2111: Integrated Engineering 2 |
|
6 |
Select from
ELEC2104: Electronic Devices and Circuits |
|
6 |
Select from
ELEC2103: Simulation and Numerical Solutions in Engineering |
|
6 |
Select from
PHYS1003: Physics 1 (Technological) |
|
6 |
Select from
ELEC1004: Practical Introduction to Electrical Engineering |
Type | CP | CP From |
12 |
Select from
Unit Block: Electrical Stream - Specialist |
|
6 |
Select from
COMP2123: Data Structures & Algorithms |
|
6 |
Select from
MATH2061: Linear Mathematics and Vector Calculus |
|
0 |
Select from
ENGP2000: Professional Engagement Program 2 Note: New ENGP units will be in place from 2021. You can find more information at https://canvas.sydney.edu.au/courses/2806/pages/professional-engagement-program-pep-2021-changes |
Type | CP | CP From |
12 |
Select from
Unit Block: Electrical Stream - Specialist |
|
6 |
Select from
ELEC2302: Signals and Systems |
|
6 |
Select from
PHYS2213: Physics 2EE |
Type | CP | CP From |
2 |
Select from
ENGG3111: Integrated Engineering 3 |
|
18 |
Select from
Unit Block: Electrical Stream - Specialist |
|
6 |
Select from
ELEC4712: Thesis A |
Type | CP | CP From |
18 |
Select from
Unit Block: Electrical Stream - Specialist |
|
6 |
Select from
ELEC4713: Thesis B |
|
0 |
Select from
ENGP3000: Professional Engagement Program 3 Note: New ENGP units will be in place from 2021. You can find more information at https://canvas.sydney.edu.au/courses/2806/pages/professional-engagement-program-pep-2021-changes |
Type | CP | CP From |
2 |
Select from
ENGG4111: Integrated Engineering 4 |
|
18 |
Select from
Unit Block: Electrical Stream - Specialist |
Type | CP | CP From |
12 |
Select from
ELEC2104: Electronic Devices and Circuits ELEC2602: Digital Logic |
|
18 |
Select from
ELEC3506: Communications Networks ELEC3607: Embedded Systems ELEC3608: Computer Architecture |
|
6 |
Select from
ELEC3104: Engineering Electromagnetics ELEC3304: Control ELEC3305: Digital Signal Processing ELEC3404: Electronic Circuit Design ELEC3702: Management for Engineers Note: Alternative unit COMP3520 may be selected from the free electives collection |
|
12 |
Select from
COMP2017: Systems Programming INFO1113: Object-Oriented Programming |
Note: Please check the prerequisites for the higher level units in this major and ensure you will be able to complete them prior to undertaking the higher level units.
Type | CP | CP From |
12 |
Select from
ELEC2104: Electronic Devices and Circuits ELEC2602: Digital Logic |
|
30 |
Select from
ELEC3506: Communications Networks ELEC5509: Mobile Networks ELEC5514: IoT Wireless Sensing and Networking ELEC5517: Software Defined Networks ELEC5518: IoT for Critical Infrastructures |
|
6 |
Select from
ELEC5208: Intelligent Electricity Networks ELEC5508: Wireless Engineering ELEC5616: Computer and Network Security Note: You may also select from COMP5047 Pervasive Computing, COMP5216 Mobile Computing or COMP5426 Parallel and Distributed Computing |
Note: Please check the prerequisites for the higher level units in this major and ensure you will be able to complete them prior to undertaking the higher level units.
Note: Please check the prerequisites for the higher level units in this major and ensure you will be able to complete them prior to undertaking the higher level units.
Note:
Complete a minimum of 36cp including:
- ENGP1000 (0cp), ENGP2000 (0cp) and ENGP3000 (0cp)
- Exactly 12cp of Integrated Engineering units comprising ENGG1111 (6cp), ENGG2111 (2cp), ENGG3111 (2cp) and ENGG4111 (2cp)
- Exactly 12cp of MATH1xxx units: MATH1021 Calculus of One Variable (3cp) AND MATH1002 Linear Algebra (3cp) AND MATH1023 Multivariable Calculus and Modelling (3cp) AND MATH1005 Statistics (3cp)
- A minimum of 12cp of (see note 1) from either AMME4111-4112 Thesis A & B (6cp+6cp) OR CHNG4811-CHNG4812 Thesis A & B (6cp+6cp) OR CIVL4022-4023 Thesis A & B (6cp+6cp) OR ELEC4712-4713 Thesis A & B (6cp+6cp) OR AMME4010 Major Industrial Project (24cp) OR CHNG4203 Major Industrial Project (24cp) OR ELEC4714 Major Industrial Project (24cp)
Note 1. All Thesis A units are mutually prohibited (meaning that only one can be completed), and all Thesis B units have the associated Thesis A unit as a pre-requisite. Students may undertake only the Thesis units relevant to their stream or major.
Unit Code | Unit Name | CP | Sessions Offered |
COMP2123 | Data Structures & Algorithms | 6 |
Semester 1 Semester 2 |
ELEC1103 | Fundamentals of Electrical and Electronic Engineering | 6 |
Semester 1 |
ELEC1601 | Introduction to Computer Systems | 6 |
Semester 1 Semester 2 |
ELEC2103 | Simulation and Numerical Solutions in Engineering | 6 |
Semester 2 |
ELEC2104 | Electronic Devices and Circuits | 6 |
Semester 2 |
ELEC2302 | Signals and Systems | 6 |
Semester 2 |
ELEC2602 | Digital Logic | 6 |
Semester 1 |
INFO1110 | Introduction to Programming | 6 |
Semester 1 Semester 2 |
MATH2061 | Linear Mathematics and Vector Calculus | 6 |
Semester 1 Summer Main |
PHYS1001 | Physics 1 (Regular) | 6 |
Semester 1 |
PHYS1003 | Physics 1 (Technological) | 6 |
Semester 2 |
PHYS2213 | Physics 2EE | 6 |
Semester 2 |
Note:
Specialist units include all non-core ELEC3xxx, ELEC4xxx and ELEC5xxx units of study.
It is recommended that no more than 18 credit points be taken in non-core ELEC3xxx units.
Unit Code | Unit Name | CP | Sessions Offered |
COMP2017 | Systems Programming | 6 |
Semester 1 |
COMP3520 | Operating Systems Internals | 6 |
Semester 2 |
ELEC1004 | Practical Introduction to Electrical Engineering | 6 |
Semester 1 |
INFO1113 | Object-Oriented Programming | 6 |
Semester 1 Semester 2 |
Note:
Note: Students may take 12 credit points of free general electives to complete the total number of credit points for their degree. Students may take the following units of study as free general electives, provided they satisfy any prerequisite, quota, departmental permission or any other requirements of the units, and the units are not essentially the same or prohibited units for any of the other units in their degree.
(1) Any units of study from the Faculties of: (i) Engineering and Information Technologies (ii) Science (iii) Arts (iv) Sydney Business School
(2) Any other units of study approved by the Faculty of Engineering and Information Technologies Courses Committee, which will be published in an appropriate place by the Faculty.
(3) Any units of study approved by the Dean (or his/her delegate in these matters), or by the relevant Head of School or Program Director, on a case by case basis upon application by the student.