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The Bachelor of Engineering (Electrical and Electronic Engineering) (Honours) is a four-year, AQF Level 8 undergraduate degree that equips students with the knowledge and skills to design, develop, and manage complex electrical and electronic systems. The course spans a wide range of disciplines — from circuit theory, signal processing, and embedded systems to power generation, telecommunications, control systems, and renewable energy technologies. Students build a strong foundation in mathematics, physics, and engineering science before advancing into specialised areas such as power systems, microelectronics, robotics, communications, and cybersecurity. The Honours component typically includes an independent research project or capstone thesis in the final year, developing advanced analytical and problem-solving capabilities alongside professional engineering competencies.
This degree is accredited by Engineers Australia at the level of Professional Engineer, and is recognised internationally through the Washington Accord — meaning graduates meet the academic requirements for Chartered Professional Engineer (CPEng) status. The course is designed for students who are passionate about technology, innovation, and problem-solving, and who want to pursue careers at the intersection of hardware, software, energy, and communications. Employers of graduates span an enormous range of industries including energy utilities, telecommunications, defence and aerospace, mining and resources, advanced manufacturing, infrastructure, transport, healthcare technology, and the public sector. Key employers in Australia include major energy companies, mining giants, defence contractors, telecommunications providers, engineering consultancies, government agencies, and technology firms.
Australia is facing a growing skills shortage in engineering, with Engineers Australia reporting that engineering vacancies are significantly above long-term indexed levels and that demand for engineering skills is consistently outpacing supply. The ongoing transition to renewable energy, the expansion of smart grid infrastructure, the rollout of electric vehicles, and the acceleration of Industry 4.0 automation are creating unprecedented demand for qualified electrical and electronic engineers. In sectors such as mining, defence, telecommunications, and infrastructure, the need for engineers with specialist electrical expertise is growing rapidly and shows no sign of slowing down. Graduates consistently rank among the highest-paid professionals in Australia, with strong employment outcomes — recent data indicates that electronic, electrical, and computing engineering graduates secure full-time employment faster than graduates in many other disciplines.
Beyond strong employment prospects, this degree offers remarkable versatility. A Bachelor of Engineering (Electrical and Electronic Engineering) (Honours) can open doors in fields as diverse as renewable energy, robotics, satellite systems, medical devices, autonomous vehicles, cybersecurity, and smart city design. The specialisations available within the degree allow students to tailor their education to their interests and to target fast-growing industries. As Australia invests heavily in decarbonisation, digital transformation, and national defence capability, engineers with electrical and electronic expertise are positioned at the very heart of the country's technological future.
For domestic students, entry into a Bachelor of Engineering (Electrical and Electronic Engineering) (Honours) typically requires completion of an Australian Year 12 certificate (e.g. VCE, HSC, SACE, ATAR) with strong results in Mathematics and English, plus a science subject such as Physics. ATAR thresholds vary by institution and generally range from approximately 70 to 90+, with more competitive universities requiring higher scores. Most programs specify prerequisite subjects including Mathematics Methods (or equivalent), with Physics or Specialist Mathematics strongly recommended. Some institutions also offer guaranteed entry pathways for students who complete a relevant Diploma or foundation program, or who have prior tertiary study. Mature-age applicants, those with VET/TAFE qualifications (including Advanced Diplomas in Engineering), or those with relevant work experience may also be considered for admission.
International students must meet English language proficiency requirements, typically demonstrated through tests such as IELTS (minimum overall score of 6.5, with no band below 6.0, at most institutions), TOEFL, or PTE Academic. Equivalent academic qualifications from overseas secondary or tertiary institutions are assessed on a case-by-case basis. Many universities provide bridging, foundation, or enabling programs for students who do not fully meet direct entry requirements, offering an alternative pathway into the degree. Students who do not have the required mathematics background may also transfer from a related general engineering or science degree after completing foundational mathematics units in their first year.
This course may be offered in different study modes depending on the university, campus location, course structure and student type. Students should check the available delivery mode before applying, as not every study option is available at every institution.
On-campus study is the traditional mode of delivery where students attend classes, lectures, tutorials, workshops or seminars at the university campus. This option may suit students who prefer face-to-face learning, access to campus facilities, networking with classmates, practical workshops, group projects and direct engagement with academic staff.
Some universities may offer programs fully online or with online subject options. Online study can be attractive for students who need flexibility due to work, family, location or other commitments. Online study may suit domestic students, working professionals or students who want to study from outside Australia.
Hybrid or blended study usually combines online learning with some on-campus classes, workshops, intensive sessions or practical components. This mode may suit students who want flexibility but still want some face-to-face interaction. The exact structure varies between institutions.
Programs in Australia may have different intake structures depending on the university. The most common intake systems are semester, trimester and block mode.
Many Australian universities follow a two-semester academic calendar. The main intakes are commonly Semester 1 (around February or March) and Semester 2 (around July). Semester-based study usually allows students to complete a set number of subjects over approximately 12 to 14 weeks.
Some universities use a trimester system, which generally provides three study periods a year — around February/March, June/July and October/November. Trimester study may provide more flexibility and may help some students complete their course faster.
Some institutions may offer selected subjects or programs in block mode, where students focus on one subject at a time over a shorter, more intensive teaching period. Block mode may suit students who prefer concentrated learning or working professionals managing study around employment.
Some online or professionally focused programs may offer more frequent start dates or flexible entry points throughout the year. Students should not assume that every course has monthly or multiple intakes — availability depends on the institution, course structure and student type.
Graduates of the Bachelor of Engineering (Electrical and Electronic Engineering) (Honours) enter a broad and dynamic labour market with opportunities across virtually every sector of the Australian economy. Post-graduation pathways span power and energy generation, transmission and distribution, renewable energy systems, telecommunications, electronics design, robotics and automation, defence and aerospace, mining and resources, healthcare technology, and smart infrastructure. With electrical engineering vacancies consistently elevated above historical benchmarks and Australia's transition to a clean energy economy driving fresh demand, graduates are well-positioned for rapid career progression and competitive salaries. Major employers include energy utilities, telecommunications companies, defence contractors, engineering consultancies, mining and resources companies, transport authorities, and government agencies, with the most active hiring markets concentrated in New South Wales, Victoria, Queensland, and Western Australia.
Entry Level
Graduate / Junior Engineer
Graduate Electrical Engineer, Graduate Electronics Engineer, Graduate Systems Engineer, Junior Embedded Systems Engineer, Graduate Automation Engineer
Early Career
Engineer / Project Engineer
Electrical Engineer, Electronics Engineer, Project Engineer, Telecommunications Engineer, Control Systems Engineer, Power Systems Engineer, Instrumentation Engineer
Mid-Level
Senior Engineer / Specialist
Senior Electrical Engineer, Senior Systems Engineer, Specialist Power Systems Engineer, Lead Hardware Engineer, Senior Control Systems Engineer, Senior Renewable Energy Engineer
Senior Level
Principal Engineer / Engineering Manager
Principal Electrical Engineer, Engineering Manager, Technical Lead, Principal Systems Engineer, Electrical Design Manager, Head of Power Systems
Leadership
Director / Chief Engineer / Chartered Professional
Chief Engineer, Director of Engineering, Technical Director, Chief Technology Officer, Chartered Professional Engineer (CPEng), Head of Infrastructure Engineering
Salaries for electrical and electronic engineering graduates in Australia vary by experience level, industry sector, and location, with the mining, defence, and energy sectors typically offering the highest remuneration.
Melbourne
Melbourne is a major hub for advanced manufacturing, infrastructure, defence, and technology industries, with strong demand for electrical and electronic engineers across consultancies, utilities, and transport authorities. The city's diverse economy supports career pathways in everything from power systems and automation to electronics design and smart infrastructure, and it is home to a high concentration of engineering firms and multinational technology companies.
Sydney
Sydney is Australia's largest city and hosts major technology companies, government infrastructure projects, telecommunications providers, and leading engineering consultancies, making it a prime destination for electrical and electronic engineering graduates seeking roles in network engineering, power systems, and digital technology. The city's large-scale infrastructure pipeline — including transport, energy, and smart city projects — sustains consistent high demand for engineering talent.
Brisbane
Brisbane and surrounding Queensland offer a healthy mix of resources, renewable energy, and infrastructure projects creating strong demand for electrical engineers, particularly in power systems, automation, and industrial electronics. With major CAPEX projects and resources sector activity in both the city and regional Queensland, graduates are well-placed to find work in high-growth engineering roles.
Perth
Perth is one of Australia's highest-paying cities for electrical engineers, driven by the booming mining, oil, and gas sectors where FIFO project work and resources infrastructure demand specialists in power distribution, automation, instrumentation, and high-voltage systems. Western Australia's growing defence industry and renewable energy investments further diversify career opportunities for graduates.
Adelaide
Adelaide is an increasingly attractive city for electrical and electronic engineering graduates, with South Australia leading Australia in renewable energy adoption and the city hosting a significant and growing defence industry — including major naval and aerospace projects with employers such as BAE Systems Australia and the Defence Science and Technology Group. The lower cost of living compared to Sydney and Melbourne, combined with strong industry demand, makes Adelaide a compelling study and career destination.
Canberra
Canberra offers unique career opportunities for electrical and electronic engineering graduates in the federal government, defence, cybersecurity, and research sectors, with major government agencies, the Australian Defence Force, and research institutions such as the CSIRO providing a stable employment base. Graduates interested in defence electronics, policy-adjacent technical roles, or engineering research will find Canberra a focused and rewarding environment.
Before choosing a course, students should compare:
International students who want to study in Australia should also consider additional requirements before applying.
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