Start date
February
July

Campus
Mawson Lakes

Duration
4 year(s) full-time

Mode
On-campus

Program Code
LHIF

Prerequisites
SACE Stage 2 Math Methods
More info

Assumed Knowledge
SACE Stage 2 Physics
More info

Fees
AUD$ 35,900 per annum (per 1.0 EFTSL) for students enrolled in 2021

English Language Requirements
  • IELTS total [6]
  • IELTS reading [6]
  • IELTS writing [6]
Equivalent English qualifications (PDF)

International Admission by Country
See full entry requirements

CRICOS Code
081810F

Aim

To prepare graduates for a professional career in the electrical engineering discipline with particular emphasis on electrical systems, electronics, and computer systems.

Content & Structure

The Bachelor of Engineering requires completion of courses totalling 144 units, and comprises a common first year across all Engineering disciplines. The first two years of the program lay the foundation of mathematics, physics, computing, signal analysis, circuit analysis, and electronics and communication principles. In the third year of study, students concentrate on their chosen application area, as well as a set of common courses in electrical machines, control systems, and embedded systems. An integrating project course in taken in the second half of third year, which enables students to synthesise and apply the skills and knowledge accumulated throughout the program. Work-integrated learning is facilitated through the UniSA STEM Professional Practice Program, requiring students to gain at least 450 hours (60 days FTE) of skills and competencies through a range of engagement activities such as placements, internships, guest lectures, industry panels, site visits, networking and events.

Further specialist courses are offered in the final year. There is an emphasis throughout the program on
preparing students for professional engineering practice and on the application of knowledge to practical engineering problems, including the application of systems engineering principles to designing and implementing complex systems. The degree develops professional engineering skills in a capstone experience project, and research abilities in an honours project, both of which span the full duration of the final year.

What courses you'll study

Course name Area and cat no. Units Reference  
FIRST YEAR
First Semester (Study Period 1, 2 or 3)
Mathematical Methods for Engineers 1 MATH 1063 4.5
Engineering Materials RENG 1005 4.5
Programming Concepts COMP 1045 4.5
Sustainable Engineering Practice ENGG 1003 4.5
Second Semester (Study Period 4, 5 or 6)
Engineering Mechanics MENG 1012 4.5
Electrical and Electronic Systems EEET 1027 4.5
Mathematical Methods for Engineers 2 MATH 1064 4.5
Engineering Design and Innovation ENGG 1004 4.5
SECOND YEAR
First Semester (Study Period 1, 2 or 3)
Mathematical Methods for Engineers 3 MATH 2028 4.5
Circuits and Signals EEET 1003 4.5
Engineering Physics PHYS 2011 4.5
Major 4.5 Note(s): 1,5
Second Semester (Study Period 4, 5 or 6)
Digital Logic Fundamentals EEET 1026 4.5
Analogue Devices and Circuits EEET 2018 4.5
Data Communications Technologies EEET 3025 4.5
Project Management for Engineers ENGG 2004 4.5
THIRD YEAR
First Semester (Study Period 1, 2 or 3)
Control Systems EEET 3046 4.5
Microcontroller Interfacing and Applications EEET 2045 4.5
Electrical Machines EEET 3032 4.5
Major 4.5 Note(s): 1,5
Second Semester (Study Period 4, 5 or 6)
Embedded System Design EEET 3048 4.5
Major 4.5 Note(s): 1,5
Major 4.5 Note(s): 1,5
Design Management for Engineers ENGG 3006 4.5
FOURTH YEAR
First Semester (Study Period 1, 2 or 3)
Industrial Experience MENG 3007 0 Note(s): 4 Rule(s): 1,2
Engineering Capstone Experience A ENGG 4007 4.5
Engineering Honours Project A ENGG 4009 4.5
Major 4.5 Note(s): 1,5 Rule(s): 3
Major 4.5 Note(s): 1,5 Rule(s): 3
Second Semester (Study Period 4, 5 or 6)
Engineering Capstone Experience B ENGG 4008 4.5 Note(s): 3
Engineering Honours Project B ENGG 4010 4.5 Rule(s): 3
Major 4.5 Note(s): 1,5 Rule(s): 3
Major 4.5 Note(s): 1,5 Rule(s): 3
Major in TELECOMMUNICATIONS - courses must be completed in sequence shown
Software Development COMP 2034 4.5
Electronic Filters and Amplifiers EEET 3049 4.5
Digital Signal Processing EEET 4058 4.5
Digital Communications EEET 3028 4.5
Advanced Digital and RF Systems EEET 3047 4.5
Telecommunication Networks EEET 5147 4.5 Note(s): 2
Modern Communication Systems EEET 4036 4.5
VLSI Design EEET 4045 4.5
Major in COMPUTER ENGINEERING - courses must be completed in the sequence shown
Software Development COMP 2034 4.5
Data Structures Essentials COMP 2012 4.5
AI and Machine Learning COMP 2019 4.5
Digital Signal Processing EEET 4058 4.5
Design Patterns with C++ COMP 3023 4.5
Advanced Digital and RF Systems EEET 3047 4.5
Industrial Internet of Things EEET 4073 4.5
VLSI Design EEET 4045 4.5
Major in POWER ENGINEERING - courses must be completed in the sequence shown
Software Development COMP 2034 4.5
Power System Fundamentals EEET 4057 4.5
Digital Signal Processing EEET 4058 4.5
Renewable Energy Systems EEET 3050 4.5
Power Electronics EEET 3016 4.5
Operation and Control of Modern Power Systems EEET 4074 4.5
Industrial Automation Systems EEET 3044 4.5
Design and Integration of Renewable Energy Systems EEET 4072 4.5
FLEXIBLE Major
Software Development COMP 2034 4.5
Flexible Minor
Flexible Minor
Flexible Minor
Electrical Elective 1 Note(s): 1
Electrical Elective 2 Note(s): 1
Electrical Elective 3 Note(s): 1
Flexible Minor
Flexible Minor in OPTICAL ENGINEERING Rule(s): 4
Physics of Materials and Technology PHYS 2002 4.5
Lasers and Optics PHYS 3001 4.5
Applied Science Project PHYS 3002 4.5
Advanced Control and Signal Processing EEET 4071 4.5
OR
Optical Communications EEET 4046 4.5
Flexible Minor in BUSINESS INNOVATION Rule(s): 4
Marketing Principles: Trading and Exchange MARK 1010 4.5
OR
Entrepreneurship for Social and Market Impact BUSS 2085 4.5
Small Business for Professionals BUSS 2040 4.5
Management and Organisation BUSS 2068 4.5
Principles of Project Management BUSS 5142 4.5 Note(s): 2

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