Bachelors in Electronic Engineering

Bachelors in Electronic Engineering

School of Science and Engineering

Academic Freedom to Discover Your Purpose
Open Curriculum Design at Atlantic International University

A Bachelor’s in Electronic Engineering is a comprehensive program designed to equip students with the knowledge and skills required for a successful career. This Electrical Engineering program specializes in digital systems design, circuit analysis courses, and embedded systems engineering. Through theoretical learning and practical applications, students delve into the intricate workings of electronic systems, mastering the design, analysis, and implementation of circuits and digital systems. The curriculum is tailored to accommodate the demands of modern industries, ensuring graduates are well-prepared to tackle real-world challenges. Moreover, with an emphasis on andragogy-driven education, the program fosters a self-directed learning approach, encouraging students to take charge of their education and explore their interests in electronic engineering. Additionally, with the option of distance learning, students have the flexibility to pursue their degree remotely, making education accessible to a diverse range of learners.

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Core Courses & Topics: Bachelors in Electronic Engineering

Important: Below is an example of the topics or areas you may develop and work on during your studies. By no means is it a complete or required list, as AIU programs do not follow a standardized curriculum. It is meant solely as a reference point and example. Want to learn more about the curriculum design at AIU? Check here: Course and Curriculum

The Bachelor’s program in Electronic Engineering offers a rich curriculum comprising essential core courses and topics crucial for understanding and mastering the complexities of the field. Students engage in in-depth Control Systems studies, delving into the principles of feedback control, system modeling, and stability analysis. The integrated program also emphasizes Electronics and Communication, covering analog and digital communication systems, signal processing, and telecommunication networks. 

Furthermore, students explore the realm of Microelectronics Engineering, where they learn about semiconductor devices, integrated circuit design, and fabrication techniques. Through hands-on labs, projects, and theoretical coursework, students gain practical skills and theoretical knowledge essential for designing, analyzing, and optimizing electronic systems. These core courses provide a solid foundation upon which students can build specialized expertise and pursue various career paths within the dynamic field of electronic engineering.

  • Introduction to Electronic Engineering
  • Circuit Analysis and Design
  • Analog Electronics
  • Microelectronics and Integrated Circuits
  • Electromagnetic Fields and Waves
  • Communication Systems
  • Embedded Systems Design
  • Power Electronics
  • Electronic Instrumentation and Measurements
  • VLSI Design
  • RF and Microwave Engineering
  • Digital Signal Processing

Orientation Courses

Orientation courses for a Bachelor’s in Electronic Engineering serve as foundational stepping stones for students embarking on their academic journey in this dynamic field. These courses give students a comprehensive overview of the holistic core concepts and fundamental principles underpinning electronic engineering. Through these introductory courses, students gain insight into the essential components of electronic systems, including circuits, digital systems, and microelectronics. 

They also familiarize themselves with basic analysis techniques, mathematical tools, and problem-solving methodologies relevant to electronic engineering. Additionally, orientation courses often introduce students to the broader interdisciplinary nature of the field, highlighting its intersections with mathematics, physics, computer science, and other engineering disciplines. Moreover, these courses aim to instill in students a sense of curiosity, critical thinking, and creativity essential for tackling the challenges and opportunities in electronic engineering.

Overall, orientation courses lay the groundwork for students to delve deeper into specialized areas of electronic engineering while equipping them with the foundational knowledge and skills necessary for success in their academic and professional pursuits.

  • Communication & Investigation (Comprehensive Resume)
  • Seminar Administrative Development (Book Summary)
  • Organization Theory (Portfolio)
  • Seminar Cultural Development (Practical Experience)
  • Experiential Learning (Autobiography)
  • Seminar International Development (Publications)

Research Projects

Research projects for Bachelor’s students in Electronic Engineering offer invaluable opportunities to apply theoretical knowledge to real-world problems and contribute to advancements in the field. One potential project is to focus on signal processing in electronics, where students explore techniques for enhancing the quality and efficiency of electronic signals in various applications such as telecommunications, audio processing, or medical imaging. 

Another project may involve Computer-Aided Design (CAD) for electronics, allowing students to develop skills in using software tools to design, simulate, and optimize electronic circuits and systems. For those interested in power electronics specialization, a research project could delve into renewable energy systems, electric vehicle technology, or efficient power conversion techniques. These projects provide hands-on experience with cutting-edge technology and foster critical thinking, problem-solving, and innovation among students, preparing them for future challenges in the electronic engineering field.

  • MBM300 Thesis Proposal
  • MBM302 Bachelor Thesis (5,000 words)

Publication– A publication highlighting the Bachelor’s program in Electronic Engineering would showcase the diverse topics covered, reflecting the program’s comprehensive approach to preparing students for a dynamic industry. This publication would delve into Microelectronics Engineering, emphasizing the intricacies of semiconductor devices, integrated circuits, and fabrication techniques essential for modern electronic systems.

It would also spotlight Embedded Engineering, showcasing students’ proficiency in designing and implementing embedded systems for various applications, from consumer electronics to industrial automation. Additionally, the publication would explore Circuit Analysis, demonstrating students’ mastery of fundamental principles and techniques for analyzing and designing electronic circuits. Furthermore, it would delve into Power Electronics, illustrating students’ understanding of power conversion, energy efficiency, and renewable energy systems. Overall, this publication is a testament to the program’s commitment to providing a well-rounded education in Electrical Engineering, equipping graduates with the knowledge and skills to thrive in the rapidly evolving field of electronic engineering.

Thesis Defense for Bachelors in Electronic Engineering

The thesis defense for Bachelor’s in Electronic Engineering at AIU is pivotal for students to showcase their expertise and contributions to electronics engineering technology. As they present their research findings and defend their thesis, they demonstrate their mastery of key concepts and methodologies within electronic engineering. The defense panel, comprised of faculty members and industry experts, evaluates the depth and rigor of their work, ensuring alignment with the standards. Throughout the defense, students articulate their understanding of advanced electrical and electronics engineering topics, highlighting their ability to apply engineering principles to practical problems. By successfully defending their thesis, students affirm their readiness to become future leaders and innovators in electronic engineering technology, equipped with the skills and knowledge to address the industry’s evolving challenges.

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Student Experience Redefined for Bachelors in Electronic Engineering at AIU

At AIU, the student experience for the Bachelor’s in Electronic Engineering Technology program is enriched by cutting-edge AI tools that augment learning and engagement. Through platforms like ChatGPT, students can access instant assistance and clarifications on complex electronic engineering concepts, fostering a supportive and interactive learning environment. Tools like DALL-E and MidJourney facilitate creative exploration and problem-solving, allowing students to visualize and conceptualize electronic components and systems in novel ways. 

This integration of AI technologies not only enhances the educational experience but also reflects AIU’s unique commitment to preparing electronics engineers for the challenges of the future. Within the program, students delve into a comprehensive curriculum covering diverse areas such as control systems, digital electronics, and circuit analysis. Through hands-on projects and real-world applications, students gain practical experience and develop the critical thinking skills necessary to excel in electronic engineering technology. As they navigate their Bachelor of Science journey, students at AIU are empowered to become adept electronics engineers equipped to tackle the complexities of the modern technological landscape.

Community & Social

The Bachelor’s program in Electronic Engineering at AIU fosters a vibrant and supportive community through various collaborative tools and technologies, despite its online format. Students engage with peers, alumni, and faculty through the Virtual Campus, Mobile App, and platforms like MYAIU and AIULink, transcending geographical barriers. Whether participating in symposiums, webinars, or virtual laboratories, students can interact, collaborate, and share insights on topics ranging from analog and digital electronics to broadly-defined engineering problems. AIU’s commitment to cultivating a University of One approach ensures that students receive personalized support and guidance from tutors, academic advisors, and fellow alumni. With access to over 105,000 academic resources on the Merlin Media Center and the Curriculum Builder Tool, students can tailor their learning experience to their unique interests and goals. Through these collaborative platforms and resources, students deepen their understanding of electronic engineering, cultivate lifelong connections, and enrich their personal and professional growth journey.

Academic Resources

The Virtual Campus at Atlantic International University offers extensive academic resources to empower prospective students and support their academic journey in digital electronics, computer hardware, electronic systems, and programmable logic controllers. With access to over 260,000 books and 30 million peer-reviewed articles through the AIU Online Library, students have a wealth of knowledge. 

The Merlin Media Center also provides a platform to access and contribute to over 105,000 AIU-created academic content, fostering a collaborative learning environment. In today’s digital age, learning extends beyond traditional classrooms, and AIU recognizes the importance of embracing diverse sources of knowledge. Students can engage with experts through platforms like social media, YouTube, and MOOCs and access real-world knowledge and practical learning experiences. This abundance of academic resources not only enriches the educational experience but equips students, including prospective electrical engineers, with the tools and insights needed to excel in their chosen field.

Live Classes

At AIU, Bachelor’s students in Electronic Engineering benefit from a structured academic schedule that includes two live classes daily, offering a dynamic and interactive learning experience. During these sessions, students delve into diverse topics such as electronic devices, electrical engineering, and electrical systems, guided by experienced faculty members. Through live discussions, demonstrations, and collaborative projects, students gain practical insights and deepen their understanding of critical concepts. 

Additionally, instructors guide navigating appropriate technical literature, empowering students to explore and engage with cutting-edge research. These live classes enhance students’ theoretical knowledge and equip them with the skills to function effectively as electronics engineers in the modern workforce.

Moreover, students can access modern tools and resources during these sessions, enabling them to apply theoretical concepts to real-world scenarios and develop practical solutions to engineering challenges. By actively participating in these live classes, students work towards earning their Bachelor’s degree while honing the skills and expertise necessary to excel as electronics engineers in today’s competitive industry.

Live Classes Examples on Electronic Engineering: Electrical Submersible Pumps Theory Construction and Operation by Syed Hassan | Characteristics Attitudes and Environment for Effective Problem Solving by Antreas Naziris | Problem-Solving Strategies Why Bother by Antreas Naziris

Special Projects, Research Publications, & Co-Authoring

At AIU, Bachelor’s students in Electronic Engineering are encouraged to engage in special projects, research publications, and co-authoring opportunities, enhancing their critical thinking skills and practical expertise in the field. Through these initiatives, students delve into advanced topics such as digital systems, computer science, and electronic systems design, collaborating with peers, faculty, and industry professionals. 

From exploring innovative solutions in embedded systems to tackling complex challenges in control engineering, students gain hands-on experience and contribute to advancing electronic engineering knowledge. Moreover, participation in research publications and co-authoring endeavors provides students with valuable opportunities to showcase their expertise, expand their professional network, and make meaningful contributions to the broader electronic engineering community. These experiences deepen students’ understanding of electronic engineering concepts and prepare them for successful careers in the rapidly evolving technology field.

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Career Center for Bachelors in Electronic Engineering

The Career Center for Bachelor of Science in Electronic Engineering at AIU is a pivotal resource for students seeking to launch successful careers. Equipped with a vast array of technical literature and resources, the center provides guidance and support tailored to the unique needs of students in the engineering technology program. Career advisors offer personalized assistance in navigating job markets, connecting with potential employers, and honing professional development skills crucial for success in technical teams. Through workshops, seminars, and networking events, students gain insights into broadly defined technical roles and industries, preparing them to excel in diverse career paths within electronic engineering. The Career Center is dedicated to empowering students to leverage their skills and knowledge, equipping them with the tools and confidence to thrive in the competitive landscape of the engineering profession.

Job Description

A Bachelor’s in Electronic Engineering equips graduates with the expertise to pursue various rewarding career paths. According to labor statistics, demand for professionals skilled in analog electronics, electric circuits, and technical physics remains robust. While some roles may require a graduate degree for advancement, entry-level positions are accessible to bachelor’s degree holders. Transfer students with a background in electronic engineering can seamlessly transition into roles such as:

  1. Analog Design Engineer
  2. Circuit Design Engineer
  3. Electrical Engineer
  4. Electronics Technician
  5. Systems Engineer
  6. Control Systems Engineer
  7. Test Engineer
  8. Embedded Systems Engineer
  9. Field Application Engineer
  10. Instrumentation Engineer

These job roles offer diverse opportunities for electronic engineering graduates to apply their skills and contribute to innovative projects across various industries.

Tools for Bachelors in Electronic Engineering

Tools are indispensable for Bachelor’s students in Electronic Engineering, facilitating practical learning and project implementation. These tools encompass hardware and software applications, enabling students to design, simulate, and analyze electronic circuits and systems.

From circuit simulation software to hardware prototyping platforms, students utilize various resources to enhance their understanding of theoretical concepts and gain hands-on experience. Additionally, programming languages and development environments are crucial in embedded systems design and digital signal processing. Here are some relevant tools relevant to the program goals, utilized by Bachelor’s students in Electronic Engineering:

  1. Raspberry Pi
  2. Xilinx Vivado
  3. LabVIEW
  4. LTspice
  5. Keil µVision

These tools empower students to explore, experiment, and innovate in electronic engineering, preparing them for successful careers in the industry.

Associations for Bachelors in Electronic Engineering

For Bachelor’s students in Electronic Engineering, joining professional associations offer invaluable networking opportunities, resources, and support for their academic and career endeavors. These associations provide platforms for students to engage with industry professionals, stay updated on the labor courses with the latest electrical power and consumer electronics developments, and enhance their math skills through specialized workshops and seminars.

By participating in association activities, students of our online bachelor’s degree in Electronic Engineering solve technical problems and deepen their understanding of basic concepts, gain exposure to real-world applications, and develop problem-solving skills crucial for tackling technical challenges. Additionally, associations often offer access to resources such as journals, webinars, and job boards, further enriching students’ educational experiences. Here are some notable associations for Bachelor’s students in Electronic Engineering:

  1. Institute of Electrical and Electronics Engineers (IEEE)
  2. Association for Computing Machinery (ACM)
  3. National Society of Professional Engineers (NSPE)
  4. Institute of Electrical and Electronics Engineers – Power and Energy Society (IEEE PES)
  5. Electronic Components Industry Association (ECIA)
  6. Institute of Electrical and Electronics Engineers – Consumer Electronics Society (IEEE CES)

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Bachelors in Electronic Engineering Requirements

For admission to the Bachelor’s program in Electronic Engineering at AIU, applicants must possess a High School Diploma, a GED certificate, or an equivalent qualification from a recognized institution. This requirement ensures that candidates have attained a foundational level of education necessary to succeed in the program. Additionally, applicants may be required to meet specific academic prerequisites or demonstrate proficiency in relevant subjects such as mathematics and science. By upholding these admission standards, AIU ensures that students are adequately prepared to embark on their academic journey in electronic engineering and thrive in the rigorous coursework ahead.

How Can You Apply?

To apply for the Bachelor’s program in Electronic Engineering, follow these steps:

  1. Research and Choose the Course: Research available Bachelor’s programs in Electronic Engineering. Consider factors such as curriculum, faculty expertise, and accreditation. Select a program that aligns with your career goals and interests.
  2. Gather Information: Once you’ve chosen a program, gather information about the admission requirements, including prerequisites and application deadlines. Ensure you meet the minimum eligibility criteria, which may include acquired knowledge in subjects such as semiconductor devices and power supplies.
  3. Search and Complete Application: Locate the application portal or form on the university’s website. Complete all required fields accurately and thoroughly. Provide details about your educational background, relevant experience, and personal information. Upload any necessary documents, such as transcripts or standardized test scores.
  4. Submit Your Application: After completing the application, review it carefully to ensure accuracy and completeness. Submit your application before the specified deadline to be considered for admission to the program.
  5. Await Contact from Academic Advisor: After submitting your application, an academic advisor from the university will review your materials. They may contact you for further clarification or to schedule an admissions interview. Be prepared to discuss your academic and professional goals, as well as your interest in the field of electronic engineering.
  6. Prepare for Continuing Education: Stay engaged in learning and professional development activities while awaiting admission decisions. Explore non-technical environments to broaden your perspectives and enhance your skills. Stay informed about advancements in electronic engineering to remain competitive in your studies and future career.

By following these steps and remaining proactive in your application process, you can increase your chances of gaining admission to a Bachelor’s program in Electronic Engineering and embark on a rewarding educational journey.

Financial Support & Scholarships

At AIU, financial support and scholarships are available to students pursuing a Bachelor’s in Electronic Engineering, aligning with the educational objectives of the program. These resources aim to assist students in achieving their academic goals and advancing their careers in engineering. 

Scholarships may be awarded based on merit, financial need, or specific criteria related to electronic engineering, such as proficiency in circuit analysis or experience in designing systems with bipolar junction transistors. Financial aid options, including grants and loans, help students cover tuition costs for most courses. By providing financial support, AIU ensures that students can focus on their studies and participate fully in academic processes, meeting the rigorous demands of an engineering program.

What’s the Cost Per Year for Pursuing Bachelors in Electronic Engineering at AIU?

For pursuing a Bachelor’s in Electronic Engineering at AIU, the cost per year varies based on factors like enrollment status and financial aid eligibility. As an online program, AIU offers flexibility in payment through installments. The program provides a comprehensive curriculum covering circuit analysis, programming languages, and DC circuits, ensuring students gain a solid foundation in electronic engineering principles. Tuition and fees for the program can be obtained by contacting AIU’s admissions office for detailed information.

FAQs

What practical skills will I gain in a Bachelor's in Electronic Engineering program?

In a Bachelor’s program in Electronic Engineering, you will gain practical skills in designing, analyzing, and troubleshooting electronic circuits and systems. You’ll learn to work with various electronic components, such as resistors, capacitors, and transistors, and gain proficiency in using specialized software tools for circuit simulation and design. Additionally, you’ll develop skills in programming languages relevant to electronic engineering applications and learn to apply theoretical concepts to real-world projects, ensuring you’re well-equipped to tackle challenges in the field.

Are there opportunities for hands-on projects or internships in electronic engineering studies?

Yes, Bachelor’s programs in Electronic Engineering often offer opportunities for hands-on projects and internships. These experiences provide practical application of theoretical knowledge and allow students to gain valuable industry experience, enhancing their skills and employability in the field.

How up-to-date is the curriculum with current trends in electronic engineering?

The curriculum in Bachelor’s programs in Electronic Engineering at AIU is regularly updated to align with current trends and advancements in the field, ensuring students receive relevant and up-to-date education.

What types of industries typically employ graduates with a degree in electronic engineering?

Graduates with a degree in electronic engineering are employed across various industries, including telecommunications, aerospace, automotive, consumer electronics, and renewable energy.