Mechatronics

  • Programme Brief
  • Core Study Area
  • Job Opportunity
Mechatronics engineering technology is a unique synergistic integration of the three discipline areas namely mechanical engineering, electronics, and intelligent computer control to address the challenges of designing and deploying smart technologies. This unique multidisciplinary course offers you the opportunity to study the most exciting aspects of mechanical designs, electronics and control technology into the design and manufacture of intelligent systems. It is the cutting-edge of creating smarter products, devices and processes. Mechatronic components consider to be integrated in the industrial internet of things (IIoT) environment which is one of the keys enabling technologies for industry 4.0. You will also gain experience in designing, assembling, testing, and troubleshooting a machine through final year project work, the project is evaluated by experts from academia and industries. Through this project, you’ll gain vital employability skills that will give you a competitive edge in applications forms, interviews and assessment tests for graduate jobs and they will bring your studies to life.
1.
Programmable Logic Controller & Human Machine Interface
2.
Computer Integrated Manufacturing
3.
Industrial Robotics
4.
Machine Design
1.
Asisstant Mechatronics Engineer
2.
Automation Technical Specialist
3.
Automation System Designer
4.
Remote Operating Vehicle (ROV) Supervisor.

Quick Info

Program Code:

JPT/BPP(K) 1000-600/B293JLD3(27)(R/523/4/0245)(A 5001) 07/2020​

Program Status:

Accredited

Fees:

RM28,980

Study Mode:

Full Time

Duration:

6 Semester / 3 Years

Intake:

January / April / July

Contact Person:

Mechatronics engineering technology is a unique synergistic integration of the three discipline areas namely mechanical engineering, electronics, and intelligent computer control to address the challenges of designing and deploying smart technologies. This unique multidisciplinary course offers you the opportunity to study the most exciting aspects of mechanical designs, electronics and control technology into the design and manufacture of intelligent systems. It is the cutting-edge of creating smarter products, devices and processes. Mechatronic components consider to be integrated in the industrial internet of things (IIoT) environment which is one of the keys enabling technologies for industry 4.0. You will also gain experience in designing, assembling, testing, and troubleshooting a machine through final year project work, the project is evaluated by experts from academia and industries. Through this project, you’ll gain vital employability skills that will give you a competitive edge in applications forms, interviews and assessment tests for graduate jobs and they will bring your studies to life.

1.
Programmable Logic Controller & Human Machine Interface
2.
Computer Integrated Manufacturing
3.
Industrial Robotics
4.
Machine Design
1.
Asisstant Mechatronics Engineer
2.
Automation Technical Specialist
3.
Automation System Designer
4.
Remote Operating Vehicle (ROV) Supervisor.

Produce graduates who are:

1.
Demonstrate skills and knowledge in development and maintenance of production equipment in a manufacturing plant, thus contribute to global industry demands.
2.
Engage in lifelong learning and demonstrate good leadership quality through academic qualifications achievement and career advancement.
3.
Perform services to the community, cultures and environment through involvement with related organizations and society.
4.
Communicate effectively and demonstrate entrepreneurial skills.

Semester 1:

1.
CIT 0513 Computer & Programming
2.
EET 0113 Electrical Principles
3.
GEL 2312 German Language 1
4.
MAP 2163 Pre-Calculus
5.
MAP 2192 Engineering Science
6.
MPU 2222 Effective Communication Skills
7.
TEC 0532 Technical Drawing & CAD

Semester 2:

1.
EET 0123 Electronics
2.
ESP 2042 Technical English 1
3.
GEL 2322 German Language 2
4.
IEP 0763 Electronics Workshop
5.
MAP 2173 Calculus
6.
MAS 0442 Basic Engineering Materials
7.
MPT 0122 Basic Metal Work
8.
MPU 2163 Pengajian Malaysia 2
9.
MPU 2212 Bahasa Kebangsaan A

Semester 3:

1.
ECT 0323 Sensor & Transducer
2.
ECT 0313 Electrical Machines & Control
3.
EET 0133 Digital Systems
4.
ESP 2052 Technical English 2
5.
IAT 0953 Pneumatics & Hydraulics Technology
6.
IAT 0972 Machine Elements
7.
MPU 2312 Dinamika Islam Di Malaysia / MPU 2322 Etika & Moral Masyarakat Malaysia
8.
MPU 2412 Co-Curricular Activities & Community Services

Semester 4:

1.
ECT 0362 Power Electronics & Modern Drive Technology
2.
EET 0142 Electrical Installation
3.
IMT 2442 Digital Entrepreneurship
4.
IAT 0913 Programmable Logic Controllers
5.
IAT 0982 Machine Design
6.
IEP 0722MEC MEC Project Proposal
7.
IMT 2412 Industrial Management
8.
PCI 1113 Control Systems Application

Semester 5:

1.
ITG 1218 Industrial Training

Semester 6:

1.
IAT 0922 Industrial Robotics
2.
IAT 0962 Computer Integrated Manufacturing
3.
IEP 0734MEC MEC Final Project
4.
GMO 0273 Basic Turning & Milling
5.
MPC 0822 Microcontroller
6.
QAS 0372 Basic Engineering Metrology

At the end of this programme, students will be able to:

1.
Apply knowledge of mathematics, science, engineering fundamentals and engineering specialisation principles to well – defined practical procedures and practices.
2.
Analyse well-defined engineering problems in their discipline or area of specialisation.
3.
Formulate solutions to well-defined technical problems.
4.
Assist in formulation of systems, components or processes to meet specified needs.
5.
Conduct investigations of well-defined problems.
6.
Apply appropriate techniques, resources and engineering tools to well-defined engineering activities, with an awareness of their limitation.
7.
Demonstrate an awareness of and consideration for societal, health, safety, legal and cultural issues and their consequent responsibilities.
8.
Communicate effectively with the engineering community and society at large.
9.
Function effectively in a diverse technical team.
10.
Demonstrate an understanding of professional ethics, responsibilities and norms of engineering technology practices.
11.
Demonstrate an awareness of management, business practices and entrepreneurship.
12.
Demonstrate an understanding of the impact of engineering practices, taking into account the need for sustainable development.
13.
Recognise the need for professional development and to engage in independent and lifelong learning.

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