Programme : Bachelor of Engineering Technology (Hons.) in Mechatronics

Sarjana Muda Teknologi Kejuruteraan (Kepujian) Mechatronics

Programme Summary
Programme Code : JPT/BPP (R/523/6/0177) 06/19 MQA A 10026
Status Programme : Accredited
Institutes : Universiti Kuala Lumpur Kampus Cawangan Malaysia France Institute (Unikl-MFI)
Specialisation :
Study Level : Bachelor Degree
Intake : January
Duration : 4 Years
   

 

The Mechatronics programme integrates four basic disciplines of engineering; combination
of electrical, electronics, mechanical and computer and software engineering technology. The
study of mechatronics involves aspects of electrical, electronics and mechanical 
engineering together with an understanding of manufacturing methods.


 

PEO

PROGRAMME EDUCATIONAL OBJECTIVES

PEO 1

UniKL graduates who are knowledgeable, competent and innovative Mechatronics
engineering technology.

PEO 2

UniKL graduates who are effective leaders with teamwork skills, as well as verbal
and non-verbal interpersonal communication skills.

PEO 3

UniKL graduates who are committed towards the importance of lifelong learning
and continuous improvement.

PEO 4

UniKL graduates who are professional, ethical, and socially responsible.

PEO 5

UniKL graduates who are capable of embarking on business and
technopreneurial activities in Mechatronics engineering technology.

   

PLO

PROGRAMME LEARNING OUTCOMES

PLO 1

Apply knowledge of mathematics, science, engineering fundamentals and
an engineering specialization to defined and applied Mechatronics
Engineering Technology procedures, processes, systems or methodologies.

PLO 2

Identify, formulate, research literature and solve broadly-defined Mechatronics
Engineering Technology problems reaching substantiated conclusions using
analytical tools appropriate to their discipline or area of specialization.

PLO 3

Design solutions for broadly-defined Mechatronics Engineering Technology
problems and contribute to the design of systems, components or processes
to meet specified needs with appropriate consideration for public health and safety,
cultural, societal and environmental considerations.

PLO 4

Conduct investigations of broadly-defined Mechatronics Engineering Technology
problems; locate, search and select relevant data from codes, data bases and
literature, design and conduct experiments to provide valid conclusion.

PLO 5

Select and apply appropriate techniques, resources and modern engineering
tools, including prediction and modelling, to broadly-defined Mechatronics
Engineering Technology activities, with an understanding of the limitation.

PLO 6

Function effectively as an individual, and as a members or leader and in diverse
technical teams.

PLO 7

Communicate effectively on broadly-defined Mechatronics Engineering Technology
activities with the engineering community and with society at large, by being
able to comprehend and write effective reports and design documentation, make
effective presentations and give and receive clear instructions.

PLO 8

Demonstrate understanding of the societal, health, safety, legal and cultural
issues and the consequent responsibilities and norms of engineering technology
practice.

PLO 9

Understand and commit to professional ethics and responsibilities and norms of
engineering technology practice.

PLO 10

Understand the impact of engineering solutions in a societal context and demonstrate
knowledge of and need for sustainable development.

PLO 11

Demonstrate an awareness and understanding of management, business practices
and technopreneurial competencies.

PLO 12

Recognize the need for and have the ability to engage in independent and lifelong
learning.

 

 
Career Path

 

Graduates in this field may find employments as;
  • fibre-optic network designer
  • network systems engineer
  • network test engineer
  • wireless communications network engineer
 

Semester 1
 

  • Automation Technology
  • Engineering Drawing
  • Static and Dynamics
  • Circuit Theory
  • Bahasa Kebangsaan A
  • Fundamental English
  • Co-curriculum I
  • Engineering Technology Mathematics I

Semester 2

  • Machine Tool Technology I
  • Analog Electronics
  • Digital Systems
  • Pneumatic and Hydraulics
  • Islamic/Moral Studies
  • Malaysian Studies
  • Co-curriculum II
 

Semester 3

  • Manufacturing Process
  • Computer Assisted Design I
  • Engineering Technology Mathematics II
  • Programming Fundamental
  • Materials Science
  • Professional English I
  • Electrical Machines
 

Semester 4

  • PLC and Industrial Networking
  • Linear Systems and Signals I
  • CNC & CAD/CAM Technology
  • Power Electronics and Drives
  • Machine Elements
  • Microcontroller
  • Technopreneurship
 

Semester 5

  • Mechatronics System Design
  • Robotics
  • Control Systems
  • Artificial Intelligence
  • Mandarin I
  • Production and Operation Management
  • Statistical Data Analysis for Engineering Technology Students
 

Semester 6

  • Project Management
  • Computer Integrated Manufacturing
  • Elective I
 

Semester 7

  • Quality Management
  • Mandarin II
  • Innovation Management
  • Final Year Project (2)
  • Professional English II
  • Air Distribution and Secondary Fluids
  • Elective II
 
Semester 8
  • Industrial Training
 

NOTE :

Elective I

  • Mobile Robotics
  • Industrial Instrumentation
  • Robotics Control
  • Industrial Robot Technology
  • Process Control
  • Final Year Project (1)
  • Linear Systems and Signals II
 

NOTE :

Elective II

  • Digital Control
  • Automation System Diagnostic and Maintenance
  • Modern Control System