Programme Name | Bachelor of Engineering (Electronics/ Instrumentation & Control) with Honours |
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Programme Description | BE Electronics (Hons) (Instrumentation, Control) is a 4-year degree that can be completed in 4 years of study. The programme is designed to prepare aspiring students for the following engineering attributes: • To equip students with the knowledge and skills that are currently in high demand in the instrumentation and control engineering and related industries • To provide students with a foundation for further study and research in the same or other fields of study • To enable students to acquire a broad understanding of instrumentation and control engineering whilst providing opportunities for them to develop expertise within particular areas of specialization • To develop the student's ability to make an effective contribution to team-based activity • To encourage students to adopt an investigative approach and develop autonomous study skills to ensure their continuing professional development • To provide students with an understanding of the industrial context and an appreciation of a range of external factors that affect the work of the professional instrumentation and control engineer. • To provide skill in networking physical entities in an industrial set-up and provide supervisory role including control through software programmes like scads. The courses in the programme have both theoretical sessions, laboratory experimental exercises and practical sessions to enhance the learning and acquiring of cognitive (of the mind) and valuable skills suitable for an engineer in this area of expertise. Last year, there was a one-year capstone project followed by an Industrial. Attachment of about six months to provide hands-on experience in an industrial scenario to students to make them work-ready. |
Majors | Instrumentation & Control System |
Minimum Requirement | 1) Successful completion of the Fiji Year 13 Certificate Examination, with an aggregate of 250 out of 400 and obtained marks as follows: pass in English, Mathematics, Physics, and Technical Drawing/Applied Technology/Chemistry or any other Science or Technology subject. The school and college may review the above MER requirements at any time as/when required upon approval in SAB and CAB. Students with equivalent regional/international results are also considered on a case-by-case basis subject to a review process; OR 2) Successful completion of Foundation Science with a GPA of 3.0 or more; OR 3) Successful completion of Diploma in Engineering (Electrical) (Level 6) as per articulation pathway requirements; OR 4) Successful completion of Trade Diploma in Engineering (Electrical); OR 5) Students with TVET qualifications are considered via the articulation pathway. Students with an FQF Level 7 degree will be considered via the Recognition of Prior Learning process. 6) Applicants may also be admitted to the programme who may not meet the requirement on the years of continuous education progression, but who are able to demonstrate their ability to succeed in programmes at these levels on the basis of their maturity, work experience or prior learning, have acceptable secondary school education and are 21 years of age. This will be considered on a case-by-case basis. |
Programme Type | Bachelors Degree |
Credit Points Required | 480 |
Campus | Samabula |
Duration | 4 Years |
Estimated Tution Fees - Local (FJD) | $20,917.00 |
Estimated Tution Fees - Regional | $62,751.00 |
Note | Bridging Courses: 1. Course Code - MTH620 Course Title - Mathematics for Engineers IV, CP – 15, Prerequisite - Level 6 Diploma/Adv Diploma in Electronics Eng'g. 2. Course Code - PED600 Course Title - Science for Engineers, CP – 15, Prerequisite - Level 6 Diploma/Adv Diploma in Electronics Eng'g. MTH620 is offered in Semester 1 while PEB600 is offered in Semester 2. |
Core Units | Offered In |
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CSC501 - C++ Programming for Engineers | Semester 2 |
CEB503 - Computer Aided Drafting and Modelling | Semester 1 |
MEB502 - Engineering Material | Semester 1 |
MEB503 - Engineering Mechanics | Semester 2 |
EEB501 - Introduction to Electrical and Electronics Engineering | Semester 2 |
MTH518 - Mathematics for Engineers II | Semester 2 |
MTH517 - Mathematics for Engineers I | Semester 1 |
COM502 - Engineering Communication and Practices | Semester 1 |
Core Units | Offered In |
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EEB602 - Analog Electronics | Semester 1 |
EEB603 - Digital Electronics | Semester 1 |
EEB601 - Circuit Theory | Semester 1 |
MTH618 - Mathematics for Engineers III | Semester 1 |
PEB601 - Design Project I | Semester 2 |
EEB681 - Engineering Planning | Semester 2 |
EEB604 - Engineering Computations and Modelling | Semester 2 |
EEB605 - Engineering Electromagnetics | Semester 2 |
Core Units | Offered In |
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EEB723 - Industrial Instrumentation | Semester 2 |
EEB722 - Control Systems | Semester 2 |
PEB701 - Design Project II | Semester 2 |
EEB741 - Embedded System Design | Semester 1 |
PEB702 - Engineering and Society | Semester 1 |
EEB701 - Industrial Electronics | Semester 2 |
EEB721 - Principles of Measurement and Instrumentation | Semester 1 |
EEB731 - Signals and Systems | Semester 1 |
Core Units | Offered In |
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EEB821 - Advanced Digital Control | Semester 1 |
PEB801 - Capstone Design Project I | Semester 1 |
EEB831 - Digital Signal Processing | Semester 1 |
EEB851 - Industrial Automation | Semester 1 |
EEB881 - Innovation Management & New Product Development | Semester 2 |
EEB841 - VHDL & Logic Synthesis | Semester 2 |
PEB802 - Capstone Design Project II | Semester 2 |