Electrical Engineering - ELECAH3772
Stream Summary
Faculty: ENG - Faculty of Engineering
School: School of Electrical Eng and Telecommunications
Contact: School
Program: 3772 - Engineering (Honours)/Science
Award(s):
Bachelor of Engineering (Honours) (Major)
Stream Outline
The School of Electrical Engineering & Telecommunications offers a wide range of undergraduate and postgraduate study in all areas of the professions of Electrical Engineering and Telecommunications. The School's streams within the undergraduate Bachelor of Engineering (Hons) program in Electrical and Telecommunications Engineering continue to act as models for educating engineers in tomorrow's technology. Options within Electrical Engineering include: Telecommunications, Photonics, Systems and Control, Energy Systems, Microelectronics, and Signal Processing. The BE degree programs in Electrical Engineering are accredited by the Engineers Australia as meeting the requirements for admission to graduate membership.
The undergraduate curricula are being progressively revised to provide flexible training to suit the future needs of students. Individual student needs can be further met by substitution provisions within the programs.
The undergraduate curricula are being progressively revised to provide flexible training to suit the future needs of students. Individual student needs can be further met by substitution provisions within the programs.
Stream Structure
The Electrical Engineering stream consists of 168 UOC as described below. The stream structure outlined below gives one sequence of courses that fulfills the requirements of the stream. The timing of the elective courses may be modified to optimise the student's choice of courses. While some courses are given twice a year, many courses are given only once a year. In addition, courses may have prerequisites and exclusions. Students are strongly encouraged to consult the Electrical Engineering School website for the recommended program structure and for advice on course selection sequences that are consistent with timetabling and availability.
Year 1
Year 1
Choose ONE of:
- MATH1131 Mathematics 1A (6 UOC)
- MATH1141 Higher Mathematics 1A (6 UOC)
And ONE of:
- MATH1231 Mathematics 1B (6 UOC)
- MATH1241 Higher Mathematics 1B (6 UOC)
And ONE of:
- PHYS1121 Physics 1A (6 UOC)
- PHYS1131 Higher Physics 1A (6 UOC)
And ONE of:
- COMP1911 Computing 1A (6 UOC)
- COMP1917 Computing 1 (6 UOC)
Plus these following courses:
- ENGG1000 Engineering Design (6 UOC)
- PHYS1231 Higher Physics 1B (6 UOC)
Plus choose 2 electives from the Year 1 Elective List
Suggested Year 1 electives for this program are:
Suggested Year 1 electives for this program are:
- COMP1921 Computing 1B (6 UOC)
- ELEC1111 Elec & Telecomm Eng (6 UOC)
Note:
- ENGG1811 is an acceptable alternative for COMP1911
- Students wishing to take further computing after 1st year should take both COMP1917 and COMP1927.
- Not all courses are offered in both semesters but students should complete 24 UOC in each semester.
Choose ONE of:
- COMP1921 Computing 1B (6 UOC)
- COMP1927 Computing 2 (6 UOC)
Plus these following courses:
- ELEC1111 Elec & Telecomm Eng (6 UOC)
- ELEC2133 Analogue Electronics (6 UOC)
- ELEC2134 Circuits and Signals (6 UOC)
- ELEC2141 Digital Circuit Design (6 UOC)
- MATH2069 Mathematics 2A (6 UOC)
- MATH2099 Mathematics 2B (6 UOC)
- ELEC2142 Embedded Systems Design (6 UOC)
- ELEC3104 Digital Signal Processing (6 UOC)
- ELEC3105 Electrical Energy (6 UOC)
- ELEC3106 Electronics (6 UOC)
- ELEC3114 Control Systems (6 UOC)
- ELEC3115 Electromagnetic Engineering (6 UOC)
- ELEC3117 Electrical Engineering Design (6 UOC)
- 2 Electives (Year 3 or Year 4) (12 UOC total)
Foundational (L3) Electives
- COMP3211 Computer Architecture (6 UOC)
- COMP3231 Operating Systems (6 UOC)
- ELEC2146 EE Modelling & Simulation (6 UOC)
- ELEC3145 Real Time Instrumentation (6 UOC)
- ELEC4601 Digital & Embedded Syst Design (6 UOC)
- ELEC4602 Microelectronic Design & Tech (6 UOC)
- ELEC4603 Solid State Electronics (6 UOC)
- ELEC4604 RF Electronics (6 UOC)
- MATH3101 Computational Mathematics (6 UOC)
- MATH3121 Mathematical Methods (6 UOC)
- MATH3161 Optimization (6 UOC)
- MATH3201 Dynamical Systems and Chaos (6 UOC)
- MATH3261 Fluids, Oceans & Climate (6 UOC)
- MATH3411 Information, Codes and Ciphers (6 UOC)
- TELE3113 Analogue and Digital Comms (6 UOC)
- TELE3118 Network Technologies (6 UOC)
- TELE3119 Trusted Networks (6 UOC)
Disciplinary (L4) Electives
Microelectronics
Microelectronics
- ELEC4611 Power System Equipment (6 UOC)
- ELEC4612 Power System Analysis (6 UOC)
- ELEC4613 Electrical Drive Systems (6 UOC)
- ELEC4614 Power Electronics (6 UOC)
- ELEC4617 Power System Protection (6 UOC)
Energy Systems
- ELEC4611 Power System Equipment (6 UOC)
- ELEC4612 Power System Analysis (6 UOC)
- ELEC4613 Electrical Drive Systems (6 UOC)
- ELEC4614 Power Electronics (6 UOC)
- ELEC4617 Power System Protection (6 UOC)
Signal Processing
Systems and Control
Business Administration:
Data and Mobile Communications
Photonics
- PHTN4661 Optical Circuits and Fibres (6 UOC)
- PHTN4662 Photonic Networks (6 UOC)
Industrial Experience Requirements
All students are required to undertake mandatory industrial training. Each student is personally responsible for arranging and completing the full 60 days compulsory industrial training prescribed as part of the requirements for the award of the degree. Industrial training should be concurrent with enrolment and is best accumulated in the summer recesses at the end of the second and third years of the program, but it must be completed before graduating. Industrial training should be in the area of engineering design and/or project work, but limited credit may be given for work of a non-engineering nature. It is preferable that all 60 days be completed with one or two organisations. Students should, in general, work with professional engineers and take an active part in their work in the design of equipment, solving of engineering problems, or any other work that is relevant to the profession of Engineering.
Students are required to submit a written report on their industry placements, typically 2000-3000 words, describing the organisation of the Company, summarising the work done and the training received. The report must be accompanied by certification of their industrial placement by a senior company representative.
Industrial Training will be assessed as a compulsory part of the course ELEC4122 Strategic Leadership and Ethics. Students must complete the industrial training requirement in order to receive a completed assessment for this course, but the industrial training assessment does not affect the mark received for ELEC4122.
Students are required to submit a written report on their industry placements, typically 2000-3000 words, describing the organisation of the Company, summarising the work done and the training received. The report must be accompanied by certification of their industrial placement by a senior company representative.
Industrial Training will be assessed as a compulsory part of the course ELEC4122 Strategic Leadership and Ethics. Students must complete the industrial training requirement in order to receive a completed assessment for this course, but the industrial training assessment does not affect the mark received for ELEC4122.
Rules governing substitutions, pre-requisites and student exchanges
To suit the special abilities or needs of individual students a limited number of course substitutions are permitted within each program. Any such substitution must have prior approval of the Head of School.
To suit the special abilities or needs of individual students a limited number of course substitutions are permitted within each program. Any such substitution must have prior approval of the Head of School.
- Substitutions must be of at least the same length and level as the prescribed course.
- Core courses may not be substituted with other courses.
- Substitution is not normally permitted if it unduly restricts the range of courses studied to only one area of specialisation.
- Progression to ‘next level’ courses is not permitted without satisfying the nominated pre-requisites.
- In the case of a concurrent degree program, accreditation of any course in more than one program is not permitted.
- Prior School consent is required for any accredited substitution. This includes any courses taken from other schools at the student’s own initiative.
- Substitution is not normally permitted in the first two years of the program.
- Substitution of one postgraduate course within the School is permitted, provided a similar course is not offered at the undergraduate level.
- Student exchanges are permitted, and students are encouraged to organise their exchange in the second semester of their third year in order to simplify the process of accrediting substitutions.
Rules Governing Elective Courses
The School's L3 and L4 elective lists provide the breadth and the depth required for an Electrical and Telecommunications Engineering Degree. These electives are provided from the six disciplines within the School. In addition, L3 electives include courses from other Schools. Students must have completed at least 36 units of credit of Year 4 core and L4 elective courses in order to satisfy the requirements for graduation. Therefore students should choose their L3 and L4 electives accordingly.
Note: Students are not permitted to count more than 60 units of credit (excluding the 12 units of credit of general education courses) of Year 1 courses toward the degree, as the required breadth and depth of the Electrical/Telecom engineering program would not be obtained otherwise.
Transfer from Other Programs/Advanced Standing Students/Mid-Year Entry
The introduction of year 1 (L1), year 3 (L3) and year 4 (L4) electives accommodates students who are transferring from another program, are advanced standing or are in mid-year entry, as it allows them to complete required number of units of credit within the stipulated time of the normal program.
The School's L3 and L4 elective lists provide the breadth and the depth required for an Electrical and Telecommunications Engineering Degree. These electives are provided from the six disciplines within the School. In addition, L3 electives include courses from other Schools. Students must have completed at least 36 units of credit of Year 4 core and L4 elective courses in order to satisfy the requirements for graduation. Therefore students should choose their L3 and L4 electives accordingly.
Note: Students are not permitted to count more than 60 units of credit (excluding the 12 units of credit of general education courses) of Year 1 courses toward the degree, as the required breadth and depth of the Electrical/Telecom engineering program would not be obtained otherwise.
Transfer from Other Programs/Advanced Standing Students/Mid-Year Entry
The introduction of year 1 (L1), year 3 (L3) and year 4 (L4) electives accommodates students who are transferring from another program, are advanced standing or are in mid-year entry, as it allows them to complete required number of units of credit within the stipulated time of the normal program.