Industrial Communication System
- Programme Brief
- Core Study Area
- Job Opportunity
The programme Diploma in Engineering Technology (Industrial Communication System) DET ICS introduces the underlying principles and tools required to transmit, report and process real-time data in an integrated automation plant. This programme will integrate the element of Fundamental Network & Communication with Automation and Control Systems to produce potential graduates with the ability to cope with the advancement of technology and trend in industries.
1.
Computer Automation
2.
Fundamental Electrical & Electronics
3.
Fundamental Network & Web Based Applications
4.
PC Based & Web Based Applications
5.
Communication Technology
6.
Industrial Sensors & Actuators
1.
Automation Engineer
2.
Software Engineer (Automation)
3.
Field Assistant Engineer
4.
System Control Engineer
Quick Info
Program Code:
(R/523/4/0237) (12/24) (MQA/FA 4870)
Program Status:
Accredited
Fees:
RM28,980
Study Mode:
Full Time
Duration:
6 Semester / 3 Years
Intake:
January / July
Contact Person:
Programme Brief
The programme Diploma in Engineering Technology (Industrial Communication System) DET ICS introduces the underlying principles and tools required to transmit, report and process real-time data in an integrated automation plant. This programme will integrate the element of Fundamental Network & Communication with Automation and Control Systems to produce potential graduates with the ability to cope with the advancement of technology and trend in industries.
Core Study Area
1.
Computer Automation
2.
Fundamental Electrical & Electronics
3.
Fundamental Network & Web Based Applications
4.
PC Based & Web Based Applications
5.
Communication Technology
6.
Industrial Sensors & Actuators
Job Opportunity
1.
Automation Engineer
2.
Software Engineer (Automation)
3.
Field Assistant Engineer
4.
System Control Engineer
Programme Educational Objectives
Produce graduates who are:
1.
Demonstrate skills and knowledge particularly in areas related to a secured industrial communication network and automation, 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.
Able to communicate effectively and demonstrate entrepreneurial skills.
Subjects
Semester 1:
1.
MPU 2222 Effective Communication Skills
2.
MAP 2163 Pre-Calculus
3.
MAP 2192 Engineering Science
4.
GEL 2312 German Language 1
5.
MPU 2312/MPU 2322 Dinamika Islam Di Malaysia/Etika & Moral Masyarakat Malaysia
6.
CIT 0513 Computer & Programming
7.
EET 0113 Electrical Principles
8.
TEC 0532 Technical Drawing & CAD
Semester 2:
1.
ESP 2042 Technical English 1
2.
GEL 2322 German Language 2
3.
MAP 2173 Calculus
4.
MPU 2163 Pengajian Malaysia 2
5.
EET 0123 Electronics
6.
IEP 0763 Electronics Workshops
7.
EET 0133 Digital Systems
Semester 3:
1.
ESP 2052Technical English 2
2.
MPU 2412Co-Curricular Activities & Community Services
3.
SPG 0492Programming in C#
4.
NTC 1082Network Fundamental
5.
ECT 0323Sensor & Transducer
6.
IAT 0912Programmable Logic Controllers
7.
PCI 1133Instrument Calibration & Maintenance
8.
PCI 1113Control Systems Application
Semester 4:
1.
IMT 2412Industrial Management
2.
IMT 2442Digital Entrepreneurship
3.
SPG 0483Data Management
4.
ICS 1722Fieldbus Technology
5.
PCI 1153Distributed Control System & Applications
6.
COS 0623Data Communication Systems
7.
MPC 0833Computer Interfacing Technology
8.
IEP 0722ICSICS Project Proposal
Semester 5:
1.
ITG 1218Industrial Training
Semester 6:
1.
ICS 1712Voice Over IP
2.
COS 0692RF & Microwave Technology
3.
COS 0682Wireless Communication Technology
4.
ICS 1732Network Forensic Technology
5.
IEP 0734ICSICS Final Project
Programme Learning Outcome
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 specialization
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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