Bachelor of Electrical and Electronics Engineering (Honours)

2020 Deakin University Handbook

Note: You are seeing the 2020 view of this course information. These details may no longer be current. [Go to the current version]

Year	2020 course information
Award granted	Bachelor of Electrical and Electronics Engineering (Honours)
Course Map	Trimester 1 2020 course map Trimester 2 2020 course map If you started your course before 2020, please refer to the plan your study page or contact a Student Adviser
Campus	Burwood (Melbourne) (first year of course only)* Waurn Ponds (Geelong)
Cloud Campus	Yes
Duration	4 years full-time or part-time equivalent
CRICOS course code	079997G Waurn Ponds (Geelong)
Deakin course code	S461
Approval status	This course is approved by the University under the Higher Education Standards Framework.
Australian Qualifications Framework (AQF) recognition	The award conferred upon completion is recognised in the Australian Qualifications Framework at Level 8.
* Only the first year of this Engineering program is available at the Melbourne Burwood Campus. Students enrolled at the Melbourne Burwood Campus will be required to transfer to the Geelong Waurn Ponds Campus or Cloud (online) mode for the second year of their program. International students holding student visas – this course is registered for delivery to student visa holders at Geelong Waurn Ponds campus.

Course sub-headings

Course overview

Gain market-ready skills when you study electrical and electronics engineering, including renewables and alternative energy generation, and the role of energy production in climate change. You’ll get hands-on experience and theoretical knowledge to tackle energy production in a changing world with Deakin’s Bachelor of Electrical and Electronics Engineering (Honours).

Want to change the future of renewable energy and have a tangible impact on climate change?

Covering the broad areas of electrical and electronics engineering disciplines, this course gives you in-demand skills to pursue a range of careers. You’ll use industry standard tools in world-class facilities and learn from teachers who are active in the industry, so you always have the latest techniques and knowledge at your fingertips.

Study interest areas including:

renewable power generation
smart distribution and transmission
urban, industrial and regional power usage
energy production and efficiency in climate change
design of novel electronics devices & control systems.

The design-based approach in this course means you’ll be able to apply the theory you learn to practical, research-based projects. You’ll graduate with the technical ability to create solutions, and the project management and communication skills to execute them successfully.

You’ll also build on your theoretical studies with a minimum of 60 days’ work experience, where you’ll apply what you’ve learned and benefit from the support of industry experts on the job.

Back on campus, access to our $55 million Centre for Advanced Design in Engineering Training (CADET) facility will help to show you how your ideas work in practice. Bring them to life in state-of-the-art labs including:

3D printers: one of the two largest 3D printing labs in the southern hemisphere
design and realisation studios
Deakin AusNet Services electrical engineering lab
a digital manufacturing lab
a materials science corrosion and polymer lab
a network sensing control lab
a mechatronics and electronics lab
a high-voltage lab capable of reaching voltages up to 500kV
concrete and structural testing facilities
CNC machining centres.

In addition to traditional theory-based classes, 50 per cent of each trimester is dedicated to learning via team-based projects. You’ll tackle real-world industry problems and research, design, test and evaluate solutions, with the support of an academic.

Our project-oriented design-based learning (PODBL) in collaboration with industry, offers you the chance to apply scientific and engineering principles to solve situational challenges faced by businesses and communities. This real-world application gives you competitive insight into the social, cultural, global, ethical and environmental responsibilities of today’s engineer.

Units in the course may include assessment hurdle requirements.

Indicative student workload

You can expect to participate in a range of teaching activities each week. This could include classes, seminars, practicals and online interaction. You can refer to the individual unit details in the course structure for more information. You will also need to study and complete assessment tasks in your own time.

Professional recognition

Deakin’s Bachelor of Electrical and Electronics Engineering (Honours) is accredited by Engineers Australia, which gives the degree international recognition, allowing graduates to practise as professional engineers in many countries around the world.

Career opportunities

With an international skills shortage in engineering, Deakin’s Bachelor of Electrical and Electronics Engineering (Honours) graduates find themselves with value to contribute across a range of roles, including:

power engineer
electrical design engineer
telecommunications engineer
industrial engineer
PLC programmer
electronic test engineer
research engineer
design engineer
special effects technician
robotics engineers and technician
solar cell technician
clear car engineer
automotive electrician
multimedia systems specialist
renewable energy consultant

Participation requirements

In order to satisfy course accreditation requirements, as specified and administered by Engineers Australia, all Cloud Campus enrolled students are required to participate in Campus learning activities equivalent to a minimum duration of one full academic week for every trimester of effective full time study in order to ensure that graduates possess and have demonstrated the minimum necessary knowledge and skill base, engineering application abilities, and professional skills, values and attitudes at successful completion of the course to be sufficiently prepared to enter professional engineering practice.

Cloud Campus enrolled students are required to attend campus mode conducted activities during the corresponding Intensive Week in a trimester. Attendance at campus mode activities is linked to assessment requirements within the Engineering programmes, failure to attend will result in not meeting the hurdle requirement of the respective assessment. Thus, a fail grade shall be awarded for the respective affected unit(s) for that particular trimester.

International students: Please note that due to Australian Government regulations, student visas to enter Australia cannot be issued to students who enrol in Deakin’s Cloud Campus. To participate in the mandatory campus based scheduled sessions during the trimester intensive week, it is suggested that you apply for a tourist visa to enter Australia. Please be advised that Deakin University cannot guarantee that you will be granted a tourist visa by the Australian Government.

International students studying through the Cloud Campus may not be granted a visitor visa to complete mandatory onsite components of the course.

Placement can occur at any time, including during the standard holiday breaks listed here: https://www.deakin.edu.au/courses/key-dates.

Elective units may be selected that include compulsory placements, work-based training, community-based learning or collaborative research training arrangements.

Reasonable adjustments to participation and other course requirements will be made for students with a disability. Click here for more information.

Mandatory student checks

Any unit which contains work integrated learning, a community placement or interaction with the community may require a police check, Working with Children Check or other check.

Equipment requirements

Students must have access to a suitable computer and a network connection. Information about the hardware and software requirements may be obtained from the School of Engineering, telephone 03 9244 6699.

Articulation and credit transfer

Flexible entry into the course allows students to upgrade their qualifications and to obtain credit for previous studies/experience. Applicants with appropriate TAFE qualifications or other approved post-secondary studies may apply for Recognition of Prior Learning. Credit may be considered for skills obtained in the workforce or by informal means.

Fees and charges

Fees and charges vary depending on your course, your fee category and the year you started. To find out about the fees and charges that apply to you, visit the Current students fees website.

Course Learning Outcomes

Deakin Graduate Learning Outcomes		Course Learning Outcomes
Discipline-specific knowledge and capabilities		Integrate well-developed knowledge of physical sciences and engineering fundamentals, which underpins the engineering discipline to analyse complex engineering problems and to evaluate possible solutions. Apply professional engineering knowledge, and knowledge of contextual factors in order to design, develop and maintain sustainable engineering infrastructure, systems or products. Plan and execute research projects to show capacity for advanced knowledge and skills in an engineering discipline and thereby demonstrate the ability to continue professional development and/or scholarship.
Communication		Apply effective communication skills in a professional context to interpret, evaluate and present technical engineering information using oral, written, visual modes. Demonstrate proficiency in comprehending viewpoints of others and present arguments and justifications for representing engineering position to technical and non-technical audience.
Digital literacy		Identify, select and use digital technologies and tools relevant to the engineering discipline to generate, manage and share information. Demonstrate the ability to independently and systematically locate information, evaluate its reliability, and use the information for engineering design, problem solving and research purposes.
Critical thinking		Demonstrate autonomy and judgement through balanced application of logic, intellectual and research criteria to review, analyse, and synthesise information for engineering problem solving.
Problem solving		Apply engineering knowledge, skills and techniques to identify and define complex problems in a variety of contexts. Evaluate and use established engineering methods to identify potential solutions to independently and collaboratively resolve complex engineering problems and realise solutions. Demonstrate innovative and creative approaches and/or solutions in planning, designing or executing engineering projects.
Self-management		Evaluate own knowledge and skills using frameworks of reflection and take responsibility for learning and performance. Work responsibly and safely in engineering environments to demonstrate professionalism.
Teamwork		Undertake various team roles, work effectively within a team, and utilise effective teamwork skills in order to achieve learning goals. Apply interpersonal skills to interact and collaborate to enhance outcomes through shared individual and collective knowledge and creative capacity to optimise complex problem resolution.
Global citizenship		Formulate sustainable engineering practices by integrating aspects of design, development or research through concern for economic, environmental, social and cultural perspectives and values. Engage with global traditions and current trends in engineering practice in order to appreciate diversity, seek equity in outcomes and adopt ethical and professional standards.

Approved by Faculty Board 27 June 2019

Course rules

To complete the Bachelor of Electrical and Electronics Engineering (Honours), students must attain 32 credit points. Units (think of units as ‘subjects’) are equal to 1 or 2 credit points, sometimes abbreviated as cps. Most students choose to study units amounting to 4 credit points (or cps) per trimester, and usually undertake two trimesters each year.

The course comprises a total of 32 credit points, which must include the following:

31 credit points of core units (including SEP499 Professional Engineering Practice (12 weeks) and 1 elective unit (1 credit point)
completion of SEJ010 Introduction to Safety and Project Oriented Learning (0-credit point compulsory unit)
Completion of STP050 Academic Integrity (0-credit point compulsory unit)
completion of STP010 Career Tools for Employability (0 credit point compulsory unit)
Cloud Campus enrolled students are required to attend campus mode conducted activities during the corresponding Intensive Week in a trimester. Attendance at campus mode activities is linked to assessment requirements within the Engineering programmes, failure to attend will result in not meeting the hurdle requirement of the respective assessment. Thus, a fail grade shall be awarded for the respective affected unit(s) for that particular trimester.

Students are required to meet the University's academic progress and conduct requirements. Click here for more information.

Course structure

Core

Level 1 - Trimester 1

STP050

Academic Integrity (0 credit points)

STP010

Career Tools for Employability (0 credit points)

SEJ010

Introduction to Safety and Project Oriented Learning (0 credit points)

SEJ101

Design Fundamentals (2 credit points)

SEB101

Engineering Physics

SIT199

Applied Algebra and Statistics

Level 1 - Trimester 2

SEJ102

Electrical Systems Engineering Project (2 credit points)

SIT194

Introduction to Mathematical Modelling

SIT172

Programming for Engineers

Level 2 - Trimester 1

SEE210

Power Engineering Design (2 credit points)

SEP291

Engineering Modelling

SEE216

Analogue and Digital Electronics

Level 2 - Trimester 2

SEE213

Distributed Generation System

SEE212

Power Electronics

SEE222

Embedded Systems Design (2 credit points)^

Level 3 - Trimester 1

SEE332

Transmission and Distribution System Design (2 credit points)

SEE307

Systems and Signals

SEE312

Data Communication

Level 3 - Trimester 2

SEE333

Power System Protection Design and Safety (2 credit points)

SEE344

Control Systems

SEE308

Electrical Machines and Drives

Level 4 - Trimester 1

SEJ441

Engineering Project A (2 credit points)~

SEE407

SCADA and PLC

Elective

Level 4 - Trimester 2

SEJ446

Engineering Project B (2 credit points)~

SEE406

Power System Analysis

SEP499

Professional Engineering Practice *

* SEP499 Professional Engineering Practice is available in trimester 1, trimester 2 and trimester 3. Students are encouraged to complete this unit in Trimester 3 of the third year of study.

~ Note: Students are expected to undertake SEJ441 and SEJ446 in consecutive trimesters. Students will be required to seek approval from the unit chair if they are unable to complete SEJ441 and SEJ446 consecutively.

^ Must have successfully completed STP010 Career Tools for Employability (0 credit point unit)

Course structure

Electives

Engineering recommended elective units:

SEE705

Energy Efficiency and Demand Management

SEE717

Smart Grid Systems

SEE718

Renewable Energy Systems

SEJ451

Materials Performance and Durability

SET404

Engineering Design: International Study Tour

SEV415

Infrastructure Engineering

SEE701

Control Systems Engineering

SEN700

Research Methodology

Work experience

Through SEP499 Professional Engineering Practice, you’ll gain industry experience by completing at least 60 days (12 fulltime weeks) of practical work experience in an engineering workplace, developing and enhancing your understanding of the engineering profession, possible career outcomes, and the opportunity to establish valuable professional networks.

Other course information

Course duration - additional information

Course duration may be affected by delays in completing course requirements, such as accessing or completing work placements.

Further information

Student Central can help you with course planning, choosing the right units and explaining course rules and requirements.

Contact Student Central

Other learning experiences

In your final year of the course, you may apply to undertake an international study tour to engage in a structured program of study, usually involving short project work overseas to gain discipline specific technical expertise and to enhance your global engineering awareness and experience.

Research and research-related study

The key assessment of research and research skills in the programme is through the two linked 2 credit point units in the final year of the course. The first of these units is for students to develop a detailed research proposal and undertake preliminary proof-of-concept or testing of their experimental methods. The second unit is designed to undertake the proposed research and critically evaluate the outcomes of the project. The project is predominantly student-led with direction from an academic supervisor that has expertise in the research field.