Bachelor of Science Electrical Systems

3 Years On Campus Bachelors Program

University of Melbourne

Program Overview

### Bachelor of Science (Electrical Systems) at the University of Melbourne

The Bachelor of Science (Electrical Systems) is a cutting-edge program designed for students passionate about powering the future through innovative electrical engineering solutions, blending hands-on projects with real-world applications in energy, automation, and smart technologies. It's perfect for curious problem-solvers who enjoy math, physics, and tech, offering a strong foundation for careers in renewable energy, telecommunications, and beyond—all while giving you the flexibility to specialize and thrive in a rapidly evolving field.

#### Curriculum Structure

Year 1: Building the Foundations
You'll kick off with core science principles to give you a rock-solid base, diving into subjects like *Calculus 1*, *Physics 1: Advanced*, and *Introduction to Programming for Engineers*. These units help you master the math and physics essentials while getting your first taste of coding real electrical systems, setting you up for more complex challenges ahead. It's an exciting entry point that makes abstract concepts feel immediately applicable.

Year 2: Core Electrical Engineering Skills
Here, you deepen your expertise with units such as *Circuits and Electronics*, *Signals and Systems*, and *Electromagnetism*. You'll learn to design and analyze circuits, process signals for communication tech, and understand electromagnetic fields—key for everything from power grids to wireless devices. This year transforms theory into practical skills through labs and team projects that mimic industry work.

Year 3: Advanced Systems and Specialization
In your final year, tackle sophisticated topics like *Power Systems and Control*, *Embedded Systems*, and *Electrical Systems Design Project*. You'll engineer control systems for automation, program embedded devices for IoT applications, and cap it off with a major capstone project solving real electrical challenges. It's where you shine, applying everything learned to innovative designs that could shape sustainable energy or smart cities.

#### Focus Areas
- Power systems and renewable energy integration
- Control systems and automation
- Signal processing and telecommunications
- Embedded systems and IoT

#### Learning Outcomes
Graduates emerge with the ability to design, analyze, and optimize electrical systems; proficiency in programming and simulation tools; strong problem-solving skills for complex engineering challenges; and readiness for professional practice in a global context.

#### Professional Alignment (Accreditation)
This program is fully accredited by Engineers Australia at the Professional Engineer level, ensuring your degree meets international standards and paves the way for membership in Engineers Australia and recognition via the Washington Accord for global mobility.

#### Reputation (Employability Rankings)
University of Melbourne engineering graduates rank in the top 50 globally for employability (QS Graduate Employability Rankings 2022), with 91.2% employed or in further study within four months of graduation (official uni stats). The university holds a top 40 worldwide position in Electrical Engineering (QS World University Rankings by Subject 2024).

Discover more and apply today: [Bachelor of Science (Electrical Systems) - University of Melbourne](https://study.unimelb.edu.au/find/courses/bachelor-of-science-electrical-systems/)

Experiential Learning (Research, Projects, Internships etc.)

At the University of Melbourne's Bachelor of Science (Electrical Systems), you'll dive straight into hands-on learning from your first year, building real-world skills in electrical engineering through state-of-the-art labs and industry-linked projects. Our engineering students use cutting-edge tools and software right away, like MATLAB, LTSpice, and Cadence for circuit design and simulation, while collaborating on team-based challenges that mimic professional workflows. This practical focus ensures you're not just learning theory—you're engineering solutions that matter.

Here's how our experiential learning sets you up for success:

- Advanced laboratories: Access the Russell and Mab Gray Laboratory for high-voltage testing and power systems, plus the Nanoelectronics Research Laboratory for cutting-edge work in semiconductors and microelectronics—all dedicated to electrical systems research and undergrad projects.
- Group projects: Tackle collaborative design projects in dedicated studios, such as developing smart grid prototypes or renewable energy systems, often with industry partners like AusNet Services.
- Industry internships: Guaranteed Work Integrated Learning (WIL) placements through our partnerships, including 10-12 week internships at companies like Siemens or AEMO, plus our co-op program for paid engineering roles.
- Specific software and digital tools: Hands-on training with ANSYS for electromagnetics simulation, PSCAD for power system analysis, and Keysight tools for RF and microwave testing in our specialised electronics labs.
- Field trips and site visits: Regular industry excursions to power stations, renewable energy farms (e.g., wind and solar sites in Victoria), and Telstra facilities for telecommunications systems.
- Research institutes and facilities: Collaborate via the Melbourne Energy Institute for sustainable power research and the Australian Laureate Fellowships in electrical systems, with access to clean rooms and fabrication facilities at the Melbourne Centre for Nanofabrication.
- Libraries and resources: The University Library's engineering collection, including the Eastern Resource Centre with 24/7 study spaces, plus dedicated engineering maker spaces stocked with 3D printers and PCB prototyping tools.

This is your chance to turn passion into expertise—apply now for the Bachelor of Science (Electrical Systems) and start building your future. Check out the full list of facilities here: [University of Melbourne Engineering Facilities](https://eng.unimelb.edu.au/about/facilities). What questions do you have about getting started?

Progression & Future Opportunities

At the University of Melbourne's Bachelor of Science (Electrical Systems), you'll dive straight into hands-on learning from your first year, building real-world skills in electrical engineering through state-of-the-art labs and industry-linked projects. Our students work with cutting-edge tools and software right on campus, designing circuits, programming systems, and tackling challenges that mirror what professionals do every day. This practical focus sets you up to graduate not just with knowledge, but with the confidence to innovate in energy systems, automation, and beyond.

Here's how our experiential learning opportunities make this degree stand out:

- Advanced laboratories: Access the Electrical Systems Lab and Power Systems Lab in the Faculty of Engineering and Information Technology building, where you experiment with high-voltage testing, renewable energy simulations, and control systems using equipment like oscilloscopes, signal generators, and programmable logic controllers (PLCs).
- Specific software and digital tools: Train on industry-standard tools such as MATLAB/Simulink for system modeling, LTSpice for circuit simulation, PSCAD for power system analysis, and Python for automation scripting—integrated into coursework from core subjects like Circuits and Systems.
- Group projects: Collaborate on team-based design projects in units like Electrical Systems Design, where groups prototype smart grid solutions or IoT devices, often culminating in capstone challenges judged by industry experts.
- Internships and industry placements: Secure professional experience through our Work Integrated Learning program, with opportunities for 12-week summer internships at partners like AusNet Services or Siemens, plus eligibility for the Engineers Without Borders Challenge for real client projects.
- Field trips and site visits: Join excursions to facilities like the Australian Energy Market Operator (AEMO) control room or wind farms, giving you firsthand insight into electrical infrastructure in action.
- Research-designated labs and institutes: Engage in undergraduate research at the Stationary Energy Storage Lab or the ARC Centre of Excellence for Electromaterials Science, contributing to projects on batteries and smart grids under world-class researchers.
- Dedicated libraries and resources: Use the Giblin Eunson Library's engineering collection with 24/7 access to digital reserves, plus the Melbourne Energy Institute's specialized resources for energy systems studies.

This hands-on approach has helped our grads land roles at top firms like Tesla and AGL—imagine yourself there. Ready to apply? Check out the full facilities details here: [University of Melbourne Engineering Facilities](https://eng.unimelb.edu.au/about/facilities). Let's chat about your next steps!