Bachelor of Engineering (Honours) in Electrical & Electronic/Computer & Communications Engineering

At Technological University Dublin, the Bachelor of Engineering (Honours) in Electrical & Electronic/Computer & Communications Engineering is a dynamic, hands-on honours degree where you learn by doing — from building and testing real systems to working with industry-standard hardware and software. This programme integrates electrical principles with electronics, computing, embedded systems and communications technologies. You won’t just study theory — you’ll apply it in modern laboratories, collaborative design studios, and project environments that reflect professional engineering practice. Throughout the degree, you gain practical experience with electrical circuits, digital systems, embedded platforms, wireless and communication systems, and professional software — giving you the technical confidence needed for careers in smart systems, telecommunications, embedded design, power systems, and digital engineering.

Here’s how experiential learning is embedded throughout the degree:

• Modern Electrical & Electronics Laboratories
  You’ll spend substantial time in purpose-built labs working with electrical systems, analogue and digital circuits, sensors and actuators, measuring and analysing their performance using real instruments.

• Embedded & Computer Systems Work
  Practical modules introduce you to embedded controllers, microprocessors, firmware development and real-time system design — giving you the ability to integrate hardware and software in applications such as robotics, automation and intelligent systems.

• Communications & Signal Processing Practice
  In communications-focused labs, you’ll work with modulation, wireless channels, transmission and reception systems, analysing real signals and learning how digital communications operate in practice.

• Industry-Standard Digital Tools & Software
  Throughout the programme you’ll use professional software environments for circuit design, digital system simulation, embedded programming, systems modelling and communications analysis — building skills that match industry practice.

• Design Projects & Team-Oriented Challenges
  Structured design and engineering challenges are embedded in many modules. You’ll work in teams on open-ended problems, develop solutions from concept to testing, and present your results — mirroring what professional engineers do on the job.

• Workshops & Practical Assembly Sessions
  Workshops reinforce hands-on skills such as assembling, wiring, testing and debugging systems — helping you understand how components come together in real engineering projects.

• Industry Exposure & Professional Insight
  The programme includes engagement with industry professionals through guest lectures, employer presentations and practical demonstrations that connect academic learning to current engineering practices.

• Final-Year Integrated Honours Project
  In your final year you’ll undertake a substantial individual honours project that integrates electrical, electronic, computer and communications elements — designing, building and evaluating a complete engineered system that demonstrates your technical breadth and practical ability.

• Research-Led Teaching & Contemporary Themes
  Teaching draws on current developments in fields such as embedded computing, digital communications, intelligent systems and energy-efficient electronics, ensuring your learning reflects contemporary engineering challenges.

• Optional Study Abroad & Global Context
  You may have opportunities to undertake part of your degree overseas, adding an international dimension to your engineering education and expanding your professional outlook.

Facilities & Practical Resources (Official):
Electrical and electronics engineering laboratories, embedded systems labs, communication systems and signal processing workspaces, digital design and simulation environments, workshops for assembly and testing, project and prototyping areas, industry engagement activities, and access to TU Dublin’s engineering library and computing resources — all designed to give you practical experience and professional confidence in electrical, electronic, computer and communications engineering.

The Bachelor of Engineering (Honours) in Electrical & Electronic / Computer & Communications Engineering at Technological University Dublin (TU Dublin) prepares you for in-demand roles at the intersection of electrical systems, embedded computing and communications technology — skills that power today’s connected world. Graduates typically move into careers such as Embedded/Systems Engineer, Communications & Network Engineer, Electronics/Computer Systems Developer and Controls & Automation Engineer across sectors like telecommunications, automation, robotics, IoT, smart systems and digital infrastructure:

• University Services to Support Your Career: TU Dublin’s Careers Service provides personalised career guidance, industry networking events, CV and interview preparation, internship/placement support, and access to employer engagement opportunities — all designed to help you start your engineering career with confidence.
• Employment Outcomes & Salary Prospects: Graduates with combined strengths in electrical, electronic, computing and communications engineering enjoy strong employability and are highly sought by employers because they can work across hardware, embedded systems, software and network platforms. These multidisciplinary skills support competitive starting salaries and clear pathways into technology, communications, automation and systems engineering careers.
• University–Industry Engagement: The programme engages with employers across sectors including embedded systems design, wireless and network communications, automation, consumer electronics and smart technologies, giving you exposure to real-world challenges, project experience and professional networks before you graduate.
• Long-Term Accreditation Value: This honours degree offers a solid academic foundation in engineering and supports progression toward recognised professional credentials such as Chartered Engineer status — a respected qualification that enhances international career mobility and long-term advancement.
• Graduation Outcomes: Graduates are prepared to design, develop, test and optimise integrated electrical, electronic, computing and communications systems. You’ll be ready to work on embedded platforms, networked devices, control systems and digital infrastructure that drive innovation across technology-focused industries.

Typical roles graduates move into include:
• Embedded/Systems Engineer — developing integrated hardware and software solutions.
• Communications & Network Engineer — building and optimising networked systems.
• Electronics & Computer Systems Developer — designing electronic and computing platforms.
• Controls & Automation Engineer — creating and maintaining automated systems.

Further Academic Progression:

After completing the Bachelor of Engineering (Honours) in Electrical & Electronic / Computer & Communications Engineering, you can further enhance your expertise and career prospects through postgraduate study. Many graduates pursue Master’s degrees in areas such as embedded systems, communications engineering, computer engineering, digital systems, automation and intelligent control to deepen specialist technical knowledge. Others choose PhD research in fields like intelligent systems, networked technologies, cyber-physical systems or advanced communications, preparing for careers in innovation, research or academic leadership. Postgraduate study also strengthens professional accreditation prospects and supports long-term advancement into senior engineering and technology roles.