Mechatronic Engineering Major
Overview
Mechatronic engineering involves the study of computer-controlled systems that form the basis of the 'intelligent' products that are ubiquitous in today's society.
This major allows students to understand the interconnection between disciplines such as mechanical, electrical and systems engineering, as well as computer science, and provides a foundation for cutting-edge technologies in fields including robotics, manufacturing, aerospace and bioengineering.
This major best aligns with the Biomedical stream. You can not enrol in the Mechatronic Engineering Major within the Mechatronic stream.
| Unit of study | Credit points | A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition | Session |
|---|---|---|---|
Mechatronic Engineering Major |
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| Achievement of a major in Mechatronic Engineering requires 48 credit points from this table including: | |||
| (i) 30 credit points of 1000/2000-level core units | |||
| (ii) 6 credit points of 3000-level project units | |||
| (iii) 12 credit points of 3000-level selective units | |||
Units of Study |
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1000/2000-level units of study |
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Core units |
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| MTRX1702 Mechatronics 1 |
6 | A MTRX1701 N ELEC1101 or ELEC2602 or COSC1902 or COSC1002 |
Semester 2 |
| MTRX1705 Introduction to Mechatronic Design |
6 | Semester 2 |
|
| AMME2301 Mechanics of Solids |
6 | P ENGG1802 AND (MATH1001 OR MATH1021 OR MATH1901 OR MATH1921 OR MATH1906 OR MATH1931) AND (MATH1002 OR MATH1902) AND (MATH1003 OR MATH1023 OR MATH1903 OR MATH1923 OR MATH1907 OR MATH1933) N CIVL2201 |
Semester 2 |
| AMME2500 Engineering Dynamics |
6 | A Familiarity with the MATLAB programming environment P (MATH1001 OR MATH1021 OR MATH1901 OR MATH1921 OR MATH1906 OR MATH1931) AND (MATH1002 OR MATH1902) AND (MATH1003 OR MATH1023 OR MATH1903 OR MATH1923 OR MATH1907 OR MATH1933) AND ENGG1802 |
Semester 1 |
| MTRX2700 Mechatronics 2 |
6 | A MTRX1701 and MTRX1705. Students are assumed to know how to program using the 'C' programming language. Additionally, students should understand the basic concepts behind simple digital logic circuits. P MTRX1702 AND MTRX1705 N ELEC2601 or ELEC3607 |
Semester 1 |
3000-level units of study |
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Project units |
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| BMET3921 Biomedical Design and Technology |
6 | A A basic understanding of human physiology and anatomy and an understanding of the engineering design process. P (AMME2302 OR AMME1362) AND (MECH2901 OR BMET2901) AND (MECH2400 OR ENGG1960 OR AMME1960 OR BMET1960 OR ENGG1800) N AMME5921 OR BMET5921 OR MECH3921 |
Semester 2 |
Selective units |
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| AMME3500 System Dynamics and Control |
6 | P AMME2500 |
Semester 1 |
| ELEC3204 Power Electronics and Applications |
6 | A 1. Differential equations, linear algebra, complex variables, analysis of linear circuits. 2. Fourier theory applied to periodic and non-periodic signals. 3. Software such as MATLAB to perform signal analysis and filter design. 4. Familiarity with the use of basic laboratory equipment such as oscilloscope, function generator, power supply, etc. 5. Basic electric circuit theory and analysis P ELEC2104 |
Semester 1 |
| MTRX3700 Mechatronics 3 |
6 | A Completion of a first course in microprocessor systems, including assembly and C language programming, interfacing, introductory digital and analogue electronics. P MTRX2700 N MECH4710 |
Semester 2 |
| MTRX3760 Mechatronic Systems Design |
6 | P MTRX2700 |
Semester 2 |