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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:

(R2/523/4/0245) (07/25) (MQA/FA 14611)

Program Status:

Accredited

Fees:

RM28,980

Study Mode:

Full Time

Duration:

6 Semester / 3 Years

Intake:

January / 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.
Computer & Programming
2.
Electrical Principles
3.
German Language 1
4.
Pre-Calculus
5.
Engineering Science
6.
Effective Communication Skills
7.
Technical Drawing & CAD

Semester 2:

1.
Electronics
2.
Technical English 1
3.
German Language 2
4.
Electronics Workshop
5.
Calculus
6.
Basic Engineering Materials
7.
Basic Metal Work
8.
Penghayatan Etika dan Peradaban/ Bahasa Melayu Komunikasi 1

Semester 3:

1.
Sensor & Transducer
2.
Electrical Machines & Control
3.
Digital Systems
4.
Technical English 2
5.
Pneumatics & Hydraulics Technology
6.
Machine Elements
7.
Dinamika Islam Di Malaysia / Etika & Moral Masyarakat Malaysia
8.
Co-Curricular Activities & Community Services

Semester 4:

1.
Power Electronics & Modern Drive Technology
2.
Electrical Installation
3.
Digital Entrepreneurship
4.
Programmable Logic Controllers
5.
Machine Design
6.
MEC Project Proposal
7.
Industrial Management
8.
Control Systems Application

Semester 5:

1.
Industrial Robotics
2.
Computer Integrated Manufacturing
3.
MEC Final Project
4.
Basic Turning & Milling
5.
Microcontroller
6.
Basic Engineering Metrology

Semester 6:

1.
Industrial Training

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

1.
Knowledge: Apply knowledge of applied mathematics, applied science, engineering fundamentals and mechatronics engineering to wide practical procedures and practices;
2.
Problem analysis: Identify and analyse well-defined mechatronics engineering problems reaching substantiated conclusions using codified methods of analysis specific to their field of activity;
3.
Design and development of solutions: Design solutions for well-defined mechatronics technical problems and assist with the design of systems, components or processes to meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations;
4.
Investigation: Conduct investigations of well-defined problems; locate and search relevant codes and catalogues, conduct standard tests and measurements;Investigation: Conduct investigations of well-defined problems; locate and search relevant codes and catalogues, conduct standard tests and measurements;
5.
Modern Tool Usage: Apply appropriate techniques, resources, and modern engineering and IT tools to well-defined mechatronics engineering problems, with an awareness of the limitations;
6.
The Engineer and Society: Demonstrate knowledge of the societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to engineering technician, practice and solutions to well-defined engineering problems;
7.
Environment and Sustainability: Understand and evaluate the sustainability and impact of engineering technician work in the solution of well-defined engineering problems in societal and environmental contexts;
8.
Ethics: Understand and commit to professional ethics and responsibilities and norms of technician practice;
9.
Individual and Team Work: Function effectively as an individual, and as a member in diverse technical teams;
10.
Communications: Communicate effectively on well-defined engineering activities with the engineering community and with society at large, by being able to comprehend the work of others, document their own work, and give and receive clear instructions;
11.
Project Management and Finance: Demonstrate knowledge and understanding of engineering management principles and apply these to one’s own work, as a member or leader in a technical team and to manage projects in multidisciplinary environments;
12.
Life Long Learning: Recognise the need for, and have the ability to engage in independent updating in the context of specialised technical knowledge;

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