- Students are to follow the requirements of the Handbook for the year they commenced the course.
However, the subject links below do not contain the subject information for the current year. You can view current subject information through the new Course Handbook.
Bachelor of Engineering (Mechatronic Engineering)
Testamur Title of Degree: |
Bachelor of Engineering (Mechatronic Engineering) |
Abbreviation: |
BE(Tron) |
Home Faculty: |
Faculty of Engineering |
Duration: |
4 years full-time or part-time equivalent |
Total Credit Points: |
192 |
Delivery Mode: |
On campus (Face-to-face) |
Starting Session(s): |
Autumn/Spring |
Location: |
Wollongong |
Approx. ATAR Entry: |
80 |
Assumed Knowledge: |
Any two units of English plus Mathematics |
Recommended Studies: |
Physics, Chemistry and HSC Mathematics Ext. 1 |
UOW Course Code: |
721 |
UAC Code: |
755616 |
CRICOS Code: |
027466K |
Overview / Course Aims
Mechatronics is the combination of Mechanical, Electrical and Computer technologies. As an engineering field, it finds its roots in mechanical engineering, electrical/electronics engineering and software engineering. These engineering fields complement each other to design and realise products, systems and processes which are more efficient, intelligent, and cost effective than their predecessors. The examples of mechatronic systems include autonomous robots, internet controlled machines and processes, engine management systems, ATM machines, remotely controlled ore-diggers, photocopiers, CD/DVD burners, cameras, washing machines, unmanned air vehicles, micro air vehicles, Micro- and Nano- Electromechanical Systems (MEMS and NEMS) and so on.
The aim of the Mechatronics program is to produce graduates with the core skills, knowledge and attributes that will help them excel as professional engineers. These skills and attributes include: the ability to formulate and solve problems; a creative approach to design and synthesis; excellent oral and written communication skills; ability to work effectively in teams; appreciation of the environmental, social and business contexts of Engineering; independent and self-motivated approach; understanding and commitment to lifelong learning; and in-depth technical competence in the field of Mechatronic Engineering.
Career Opportunities
Opportunities exist in the rapidly developing fields of micro/nano electromechanical systems, digital electronics, information technology, robotic systems, manufacturing industry, aerospace industry, mining industry, health industry, asset and maintenance management etc. where mechanical and electrical engineers are traditionally employed. Whenever there is a need to develop and use engineering systems/products/processes based on integrating mechanical components with electrical and electronic components, through software and hardware, there will be career opportunities for mechatronic engineers.
Study Options
Double degrees are also available.
Course Program
Subject |
Session |
Credit Points | |
Year 1 | |||
CSCI1191 |
Programming for Engineers |
Autumn |
6 |
ENGG101 |
Foundations of Engineering |
Autumn |
6 |
ENGG153 |
Engineering Materials |
Autumn |
6 |
MATH141 |
Foundations of Engineering Mathematics |
Autumn |
6 |
or | |||
MATH187 |
Mathematics 1: Algebra and Differential Calculus |
Autumn |
6 |
ECTE172 |
Introduction to Circuits and Devices |
Spring |
6 |
ENGG152 |
Engineering Mechanics |
Spring |
6 |
ENGG154 |
Engineering Design and Innovation |
Spring |
6 |
MATH142 |
Essentials of Engineering Mathematics |
Spring |
6 |
or | |||
MATH188 |
Mathematics 2: Series and Integral Calculus |
Spring |
6 |
Year 2 | |||
ECTE202 |
Circuits and Systems |
Annual |
6 |
ECTE233 |
Digital Hardware 1 |
Autumn |
6 |
ENGG251 |
Mechanics of Solids |
Autumn |
6 |
MATH283 |
Mathematics 2E for Engineers Part 1 |
Autumn |
6 |
ECTE203 |
Signals and Systems |
Spring |
6 |
MECH215 |
Fundamentals of Machine Component Design |
Spring |
6 |
MECH226 |
Machine Dynamics |
Spring |
6 |
PHYS143 |
Physics for Engineers |
Spring |
6 |
Year 3* | |||
ECTE344 |
Control Theory |
Autumn |
6 |
MECH382 |
Manufacturing Engineering Principles |
Autumn |
6 |
MECH340 |
Fluid Dynamics and Heat Transfer |
Autumn |
6 |
ECTE212 |
Electronics** |
Spring |
6 |
ECTE323 |
Power Engineering 2 |
Spring |
6 |
ECTE333 |
Digital Hardware 2 |
Annual |
6 |
ECTE350 |
Engineering Design and Management |
Annual |
6 |
MECH311 |
Mechanical Engineering Design |
Spring |
6 |
Year 4* | |||
ECTE301 |
Digital Signal Processing 1 |
Autumn |
6 |
ENGG461 |
Management and Human Factors in Engineering |
Autumn |
6 |
ECTE471 |
Robotics and Flexible Automation |
Spring |
6 |
ENGG456 |
Engineering Project A♣ |
Autumn/Spring |
6 |
or |
|||
ENGG452 |
Thesis A |
Annual |
12 |
or | |||
ENGG453 |
Thesis B**** |
Annual |
18 |
or | |||
ECTE457 |
Thesis |
Annual |
18 |
ENGG454 |
Professional Experience |
0 | |
Plus |
2, 3 or 4 electives*** Depending on which Thesis (12/18cp) or Project (6cp) subject is chosen |
Autumn/Spring |
12/18/24 |
** Not for students who completed ECTE313 prior to 2006.
*** Electives are chosen from the list of electives on offer in the Faculties of Engineering and Informatics.
The final year study program is to be determined in consultation with the Discipline Advisor.
**** The 18 credit point thesis is equivalent to the 12 credit point thesis and one 6 credit point elective.
♣ High achieving students in ENGG456 Project A may articulate to ENGG457 Project B in order to continue with the project started in ENGG456.