Bachelor of Engineering (Honours) (Electronic Engineering)

Nathan

 

INTAKE: Mar & Jul

Program Overview

Griffith University's Bachelor of Engineering (Honours) (Electronic Engineering) program provides students with a comprehensive education in the principles and practices of electronic engineering. This program is designed to equip students with the knowledge and skills required to design, develop, and manage electronic systems and devices for various applications in industries such as telecommunications, consumer electronics, automotive, aerospace, and healthcare. With a focus on innovation, sustainability, and industry relevance, the program prepares graduates for dynamic careers at the forefront of technological advancement in the field of electronic engineering.

Curriculum: The curriculum of the Bachelor of Engineering (Honours) (Electronic Engineering) program at Griffith University covers a wide range of topics relevant to electronic engineering practice. Core courses include electrical circuit theory, digital electronics, analog electronics, microprocessors, signal processing, and control systems. Students also have the opportunity to undertake elective courses and technical workshops to deepen their knowledge in specific areas of interest such as wireless communications, embedded systems, semiconductor devices, or power electronics. The curriculum emphasizes hands-on learning through laboratory experiments, design projects, and industry placements, allowing students to apply theoretical knowledge to real-world engineering challenges.

Research Focus: Griffith University is committed to research excellence in electronic engineering and related fields, providing students in the Bachelor of Engineering (Honours) (Electronic Engineering) program with opportunities to engage in cutting-edge research projects. Research areas may include semiconductor device fabrication, integrated circuit design, wireless sensor networks, Internet of Things (IoT), biomedical electronics, and renewable energy systems. Through research collaborations with faculty mentors and industry partners, students develop research skills, critical thinking abilities, and problem-solving techniques that enhance their understanding of emerging trends and challenges in electronic engineering.

Industry Engagement: Griffith University maintains strong connections with industry partners in the electronic engineering sector, providing students in the Bachelor of Engineering (Honours) (Electronic Engineering) program with opportunities for industry engagement and professional development. The university collaborates with electronics manufacturers, telecommunications companies, research institutes, startups, and government agencies to offer internships, work placements, and industry projects. These partnerships provide students with valuable industry experience, exposure to real-world projects, and networking opportunities that enhance their employability and readiness to enter the workforce as competent electronic engineering professionals.

Global Perspective: As a globally focused institution, Griffith University emphasizes the importance of a global perspective in electronic engineering education. The Bachelor of Engineering (Honours) (Electronic Engineering) program incorporates multicultural education, international collaborations, and cross-cultural learning experiences to prepare graduates for careers in a globalized world. Students have the opportunity to study international engineering standards, explore global engineering challenges, and participate in international engineering projects or study abroad programs. This global perspective equips graduates to work effectively in diverse cultural contexts, collaborate with international partners, and address global engineering challenges with innovation and professionalism.

Pollster Education

Location

Nathan

Pollster Education

Score

IELTS 6.5

Pollster Education

Tuition Fee

AUD 41500

Undergraduate Entry Requirements

Application Fee: AUD $50

Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.

English Language Proficiency:

  • IELTS: Overall band score of 6.0 or 6.5 with a minimum of 5.5 in each component.
  • TOEFL: Overall score of 79 with a minimum of 16 in each section.
  • PTE (Pearson Test of English): Overall score of 58 with a minimum of 50 in each section.

Students must provide:

  • academic marksheets & transcripts
  • letters of recommendation
  • a personal statement - SOP
  • passport
  • other supporting documents as required by the university.

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.

Griffith University offers a range of scholarships to support and encourage students in their academic journey. These scholarships recognize excellence, provide financial assistance, and promote diversity and inclusion. 

Griffith Remarkable Scholarship: This prestigious scholarship is awarded to exceptional students who have demonstrated outstanding academic achievements, leadership skills, and community involvement. The scholarship covers 50% of tuition fees for the duration of the undergraduate or postgraduate program.

Griffith International Student Excellence Scholarship: This scholarship is designed to support high-achieving international students enrolling in undergraduate or postgraduate coursework programs at Griffith University. The scholarship provides a 25% tuition fee reduction for the duration of the program.

Griffith Sports Excellence Scholarship: This scholarship recognizes talented athletes who have achieved a high level of sporting excellence. It offers financial support and academic flexibility to assist student-athletes in balancing their sporting and academic.

Equity Scholarships: Griffith University offers a range of equity scholarships to support students from disadvantaged backgrounds, including financial hardship, Indigenous Australians, students with disabilities, and regional and rural students. These scholarships provide financial assistance and additional support services.

International Student Support Scholarship: This scholarship is aimed at supporting international students who may be facing financial difficulties during their studies. It provides a one-time payment to assist with living expenses.

Griffith Honours College Scholarship: This scholarship is available to high-achieving students who have been accepted into the Griffith Honours College program. It provides financial assistance and access to exclusive academic and professional development opportunities.

Graduating from Griffith University's Bachelor of Engineering (Honours) (Electronic Engineering) program opens doors to a wide array of exciting career opportunities in the rapidly evolving field of electronic engineering. Equipped with a solid foundation in engineering principles, specialized knowledge in electronic systems, and practical skills gained through hands-on experience, graduates are well-prepared to embark on diverse career paths across various industries. 

Electronics Design Engineer: One of the most common career paths for graduates is to work as electronics design engineers, responsible for designing, developing, and testing electronic components, devices, and systems. Electronics design engineers work in industries such as telecommunications, consumer electronics, medical devices, automotive electronics, and aerospace. They design circuit boards, develop embedded systems, and integrate sensors and actuators into electronic products. Electronics design engineers also conduct product testing, performance analysis, and reliability assessments to ensure product quality and compliance with specifications and standards.

Embedded Systems Engineer: Bachelor of Engineering (Honours) (Electronic Engineering) graduates can pursue careers as embedded systems engineers, specializing in the design, development, and implementation of embedded systems for various applications such as automotive electronics, industrial automation, medical devices, and consumer electronics. Embedded systems engineers work for electronics manufacturers, automotive companies, semiconductor firms, and research institutions. They design microcontroller-based systems, develop firmware and software applications, and integrate hardware and software components to create embedded solutions that meet performance, size, and power constraints.

Telecommunications Engineer: Some graduates may choose to specialize in telecommunications engineering, focusing on the design, implementation, and optimization of telecommunications networks and systems. Telecommunications engineers work for telecommunications companies, network operators, equipment manufacturers, and consulting firms. They design wired and wireless communication networks, develop network protocols and standards, and deploy telecommunications infrastructure to provide voice, data, and multimedia services to users. Telecommunications engineers also conduct network performance analysis, capacity planning, and network optimization to ensure efficient and reliable communication services.

Control Systems Engineer: Another career option for graduates is to work as control systems engineers, specializing in the design, analysis, and optimization of control systems for various applications such as industrial automation, robotics, aerospace, and renewable energy. Control systems engineers work in industries such as manufacturing, process control, transportation, and defense. They design control algorithms, develop software applications, and integrate sensors and actuators to automate processes, improve system performance, and ensure safety and reliability. Control systems engineers also conduct system modeling, simulation, and optimization to achieve desired control objectives and performance metrics.

Power Electronics Engineer: Bachelor of Engineering (Honours) (Electronic Engineering) graduates can pursue careers as power electronics engineers, focusing on the design, development, and implementation of power electronic converters and systems for applications such as renewable energy, electric vehicles, industrial drives, and grid integration. Power electronics engineers work for power electronics manufacturers, renewable energy developers, automotive companies, and research institutes. They design power converters, develop control algorithms, and optimize power electronic systems to improve energy efficiency, reduce emissions, and enhance system performance and reliability.

Research and Development Scientist: With a passion for innovation and technology advancement, graduates may work as research and development scientists, focusing on developing new electronic technologies, devices, and systems to address emerging challenges and opportunities. Research and development scientists work for research institutions, technology companies, startups, and government laboratories. They conduct experimental research, prototype development, and technology validation to advance electronic capabilities and expand applications in fields such as healthcare, renewable energy, IoT, and artificial intelligence. Research and development scientists also collaborate with cross-disciplinary teams, publish research findings, and apply for patents to protect intellectual property.


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