Code MABUSK
Mechatronics Major
Creative thinkers made here.
Creative thinkers made here.
Why study at ECU?
About this Major
Mechatronics engineering is the integration of electrical, electronic and computer engineering with mechanical and industrial engineering. It enables the development of intelligent machines and advanced manufacturing and processing systems.
Areas of study within mechatronics include mechanics, computer-aided design and computer-aided manufacturing, analog and digital electronics, signal analysis, electro-mechanical systems, advanced materials, sensor technology, automatic control, robotics, system design and development and project management. Students will graduate with competencies in electrical, electronic and mechanical engineering. They will also be able to participate in and lead complex multidisciplinary projects.
Code MABUSK
Availability & Campus
Location | Availability |
---|---|
Joondalup | |
Mount Lawley | |
South West | |
Online |
Professional Recognition
-
This Major has been Accredited by: Engineers Australia.
This professional recognition only applies when you study this Major in one of the following courses:
Details
Structure
Unit Code | Unit Title | Credit Points |
---|---|---|
ENS2456 | Digital Electronics | 15 |
ENM2104 | Instrumentation and Measurement | 15 |
ENS2113 | Engineering Dynamics | 15 |
ENS2110 | Materials and Manufacturing 2 | 15 |
ENS5261 | Advanced Materials and Manufacturing Systems | 15 |
ENM3218 | Fluid Mechanics | 15 |
ENS2160 | Thermodynamics | 15 |
ENS3105 | Mechanical Design and Development | 15 |
ENS5360 | Power Electronics | 15 |
ENS2214 | Computer Aided Design and Manufacturing | 15 |
ENS3553 | Signals and Systems | 15 |
ENS2257 | Microprocessor Systems | 15 |
ENS5230 | Electrical Machines and Transformers | 15 |
ENS5240 | Industrial Control | 15 |
ENS5442 | Robotics 1 | 15 |
For more detailed unit information for this Major take a look at our Handbook. To organise your life for next semester visit the Teaching timetable.
Student handbookNotes
Learning Outcomes
- Demonstrate advanced knowledge of the underpinning natural and physical sciences and in depth understanding of specialist bodies of knowledge within the mechatronics engineering discipline.
- Think critically, and apply established engineering methods and research skills to complex mechatronics engineering problem solving.
- Apply systematic engineering synthesis and design processes to conduct and manage engineering projects, with some intellectual independence.
- Demonstrate conceptual understanding of the mathematics, numerical analysis, statistics and computer and information sciences which underpin the mechatronics engineering discipline and fluently apply engineering techniques, tools and resources.
- Demonstrate clear and coherent oral and written communication in professional and lay domains.
- Demonstrate a global outlook and knowledge of contextual factors impacting the engineering discipline, including respect for cultural diversity and indigenous cultural competence.
- Demonstrate effective team membership and team leadership to implement engineering projects according to relevant standards of ethical conduct, sustainable practice and professional accountability.
- Demonstrate responsibility for own learning, professional judgement and an understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice.
Career Opportunities
Employment opportunities
Mechatronics engineers have diverse employment opportunities in most sectors of industry, including product design and development, manufacturing, mining and resource, process control and automation, public utilities, road and transport, defence, aerospace, and consulting.
Possible future job titles
Mechatronics Engineer, Robotics Engineer, Automation Engineer