Master of Business Administration (Finance)
The Master of Business Administration (Finance) program at UniSA is a testament to the ...
Mawson Lakes(Adelaide)
INTAKE: Jul & Feb
The Bachelor of Engineering (Honours) (Electrical and Mechatronic) program at the University of South Australia (UniSA) is an interdisciplinary program that blends electrical engineering with elements of mechanical and control systems engineering. This program is designed to equip students with a comprehensive understanding of both electrical and mechanical systems, preparing them for careers in fields such as robotics, automation, renewable energy, and advanced manufacturing. Through a combination of theoretical learning, practical experience, and industry engagement, graduates emerge with the skills and knowledge to tackle complex engineering challenges in a variety of industries.
Curriculum: The curriculum of the Bachelor of Engineering (Honours) (Electrical and Mechatronic) program is carefully crafted to provide students with a strong foundation in electrical and mechanical engineering principles. Core courses cover topics such as circuit theory, electromagnetism, digital systems, control theory, mechanics, materials science, and robotics. Specialized courses delve into advanced topics such as mechatronics, automation, sensors and actuators, embedded systems, and machine learning. Practical components, including laboratory work, design projects, and industry placements, allow students to apply theoretical concepts to real-world engineering problems and gain hands-on experience with cutting-edge technologies.
Research Focus: UniSA's Bachelor of Engineering (Honours) (Electrical and Mechatronic) program benefits from a strong research focus that informs teaching and learning activities. Faculty members are actively engaged in research projects that span a wide range of areas, including robotics, automation, artificial intelligence, renewable energy, and advanced manufacturing. Students have the opportunity to participate in research activities, collaborate with academic staff on projects, and gain insights into emerging technologies and trends in the field. This research-intensive approach ensures that graduates are well-prepared to contribute to innovation and technological advancement in their careers.
Industry Engagement: Industry engagement is a key component of the Bachelor of Engineering (Honours) (Electrical and Mechatronic) program at UniSA. The university has established strong partnerships with leading companies, organizations, and research institutions in the electrical, mechanical, and automation industries. These partnerships provide students with valuable opportunities for internships, work placements, and industry projects, allowing them to gain practical experience, develop professional networks, and enhance their employability. Guest lectures, seminars, and workshops led by industry professionals offer insights into current practices, emerging technologies, and industry trends, ensuring that graduates are well-prepared for the demands of the workforce.
Global Perspective: The Bachelor of Engineering (Honours) (Electrical and Mechatronic) program at UniSA incorporates a global perspective into its curriculum to prepare students for the increasingly interconnected nature of engineering practice. Students are exposed to international engineering standards, best practices, and case studies through guest lectures, study tours, and exchange programs. They learn to consider the social, cultural, economic, and environmental dimensions of engineering projects and develop solutions that are responsive to global challenges and contexts. Study abroad opportunities allow students to experience different engineering cultures and gain a broader understanding of the global engineering landscape.
Mawson Lakes(Adelaide)
IELTS 6
AUD 35900
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 75% or above in their previous academic qualifications.
English Language Proficiency:
Students must provide:
It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.
The University of South Australia (UniSA) is dedicated to promoting diversity and academic excellence by offering a range of scholarships to international students.
Vice Chancellor's International Excellence Scholarships: These scholarships are aimed at high-achieving international students who demonstrate academic excellence. They offer financial support for tuition fees, and in some cases, a living allowance. Eligibility is based on academic merit.
International Merit Scholarships: UniSA's International Merit Scholarships are designed to reward outstanding academic performance. These scholarships are available for undergraduate and postgraduate coursework students. Eligibility criteria are based on academic results.
UniSA Study Grants: UniSA Study Grants provide partial tuition fee waivers for international students, making quality education more accessible. The eligibility criteria may include academic performance and the chosen course of study.
Destination Australia Scholarships: These scholarships are funded by the Australian Government to support international students studying in regional areas. UniSA participates in this program, offering scholarships to eligible students.
Industry and Career-Ready Scholarships: UniSA collaborates with industry partners to offer scholarships that provide not only financial support but also work-integrated learning opportunities. These scholarships can be an excellent pathway to a successful career.
A Bachelor of Engineering (Honours) (Electrical and Mechatronic) degree from the University of South Australia (UniSA) provides graduates with a diverse range of exciting career opportunities at the intersection of electrical, mechanical, and control systems engineering. With a strong foundation in both electrical and mechanical engineering principles, graduates are well-equipped to pursue various roles across different industries.
Automation Engineer: Automation engineers specialize in designing, developing, and implementing automated systems and processes in manufacturing, industrial, and service sectors. They work with robotics, programmable logic controllers (PLCs), sensors, actuators, and control systems to optimize production processes, improve efficiency, and enhance safety in manufacturing environments.
Robotics Engineer: Robotics engineers focus on designing, building, and programming robotic systems for applications such as manufacturing, healthcare, agriculture, defense, and space exploration. They develop robotic hardware, software, and algorithms to perform tasks ranging from assembly and inspection to navigation and manipulation in dynamic and unstructured environments.
Control Systems Engineer: Control systems engineers are responsible for designing, analyzing, and implementing systems that regulate and control the operation of machinery, processes, and equipment. They work in industries such as manufacturing, automation, robotics, aerospace, and automotive, developing control algorithms, software, and hardware to ensure the efficient and reliable operation of complex systems.
Electrical Engineer: Electrical engineers design, develop, test, and supervise the manufacture of electrical equipment, systems, and components. They work in industries such as power generation and distribution, renewable energy, telecommunications, electronics, and automation, contributing to the design, installation, and maintenance of electrical infrastructure and systems.
Mechatronics Engineer: Mechatronics engineers integrate mechanical, electrical, and control systems to create innovative products and systems with enhanced functionality and performance. They work in industries such as automotive, aerospace, consumer electronics, and healthcare, designing and developing mechatronic systems such as smart vehicles, robotic prosthetics, and automated manufacturing equipment.
Renewable Energy Engineer: Renewable energy engineers focus on designing, developing, and implementing renewable energy systems such as solar photovoltaic, wind, hydroelectric, and biomass systems. They work in industries such as renewable energy companies, consulting firms, government agencies, and research institutions, contributing to the transition to clean and sustainable energy sources.
Embedded Systems Engineer: Embedded systems engineers specialize in designing and developing embedded systems, which are computer systems integrated into other devices or machinery to perform specific functions. They work in industries such as automotive, aerospace, consumer electronics, and medical devices, designing embedded software and hardware for applications ranging from control systems to Internet of Things (IoT) devices.
Research and Development Engineer: Research and development engineers focus on innovation and problem-solving, developing new technologies, products, and processes in the field of electrical and mechatronic engineering. They work in research institutions, corporations, or government agencies, conducting experiments, analyzing data, and developing prototypes to advance the state-of-the-art in technology.
Consulting Engineer: Consulting engineers provide technical expertise and advice to clients on engineering projects and issues. They work for engineering firms, consulting companies, or as independent consultants, offering services such as design, analysis, feasibility studies, and project management to clients in various industries.
Project Manager: Graduates can pursue careers as project managers, overseeing engineering projects from inception to completion. They manage budgets, schedules, resources, and stakeholders, ensuring that projects are delivered on time, within budget, and to the required quality standards.