Course Title
Faculty of Engineering and Computing

Mechatronic Engineering

Bachelor of Engineering (Hons) in Mechatronic Engineering

  • CAO CodeDC193
  • Course Type Undergraduate
  • NFQ Level 8
  • Delivery Modes Full-time
  • Min Points 2019 404
  • Duration 4 Years

Course Fees

  • Student Contribution€3,043
  • EU Status Fee€6,679
  • Non EU Fees€15,000
About fees & requirements

More and more aspects of the world around us are becoming automated, with labour-saving machines, ‘always on’ connected devices and robots able to perform tasks quicker and more accurately than humans. These machines are staggeringly complex, with huge numbers of finely tuned moving parts being precisely controlled in the blink of an eye by state-of-the-art electronics. Just consider the machines you use on a daily basis and how many moving parts are involved.

Such machines are examples of mechatronic engineering, the science of combining mechanical engineering, electronic and computer engineering and software design to create intelligent machines. Mechatronic engineering skills are key in the ever growing presence of a connected world (Internet of Things (IoT))enabling machines to interact with the (electro-mechanical) physical and (software) virtual worlds via the internet. The potential in this area is immense no matter what your interest, from designing safer cars to building labour-saving intelligent robots to interfacing the mechanical and electronic parts of future renewable energy systems.

After completing four years of the course, you’ll achieve a Bachelor of Engineering (Hons) in Mechatronic Engineering. An optional one-year add-on Masters could fast track you to a Masters in Electronic and Computer Engineering.

Why do this course?

  • Develop and work with exciting new technologies.
  • Flexible career opportunities in a range of interesting and socially important areas, such as the health sector, consumer devices, Internet of Things, the smart economy, new energy and automation.
  • Small class sizes, up-to-date industry-relevant modules and lots of practical, hands-on project work.
  • Fully accredited engineering programme.

Student Voice

"The Mechatronic programme in DCU is a perfect balance between mechanical and electronic engineering. It helps students to develope important skills required in the modern industry such as report writing, problem solving and teamwork. Also, the programme involves many computer based modules which are aimed to train students to use common software like SolidWorks, Matlab and C language. Practical classes and laboratories which are scheduled every week allow student to consolidate knowledge obtained during lectures. I was absolutely happy with the programme and staff attitude during all my four years in DCU"

Anton Veselov, B.Eng in Mechatronic Engineering

About the course

The Mechatronic Engineering degree begins with fundamental scientific principles and leads through to a set of modules dealing with design, analysis, manufacture and modelling of electromechanical products and systems.

The undergraduate programme focuses on eight core areas:

  • Basic Science and Mathematics — As the roots of mechatronic engineering are in the sciences and mathematics, you’ll undergo courses in the basic sciences and engineering mathematics.
  • Electronic Circuit and Systems Design—Electronic components and systems are explored through electronics modules as well as modules on analogue and digital circuits and systems.
  • Mechanical Systems Design and Analysis — Materials Engineering, Fundamentals of Mechanics, Strength of Materials and the Mechanics of Machines provide a foundation for design and analysis of mechanical components and systems.
  • Software — Software design and analysis are integral parts of mechatronic engineering. Modules introducing general techniques of software development are given in Years One and Two, with a focus on Embedded Systems in Year Two. You’ll also be introduced to specific software tools through modules and project work.
  • Mechatronic/Electromechanical System Design — A key emphasis of this programme is to unite the disciplines of mechanical engineering and electronic engineering. Modules such as the first-year project, the third-year group project and the Year Four project are designed to develop mechatronic skills and awareness. In addition, another core area of mechatronic engineering is the design of electromechanical systems — systems that consist of both electrical and mechanical elements. A substantial part of the final year of the course is devoted to the design, simulation, analysis and control of such systems. The Mobile Robotics module is entirely project-based and embodies the key principles of mechatronic engineering. It is organised around a specific robotic design challenge and is intended to give you an opportunity to integrate and expand your knowledge in several different core areas: digital and analogue electronics, mechanics, software development and control systems.
  • Automated Manufacture — Another core area of Mechatronic Engineering is the use of electronics, embedded systems and software in the automation of manufacturing and assembly. In the fourth year, a significant emphasis is placed on autonomous technology and manufacturing automation.
  • Project Based Learning — You’ll complete various projects during your four years, culminating in a major individual project in Year Four. Students’ projects normally include elements of research, design, component sourcing, construction, testing and documentation. All projects must be based on at least two of the three core mechatronic elements (namely, mechanical, electronic and software design components).
  • Experiential Learning — In Year Three you’ll undertake an industrial work placement for six months (referred to as INTRA). This is usually with a business in Ireland but opportunities may arise abroad and there are also some research positions within DCU.
View the current course structure →

Course Life

We have a unique and vibrant culture on our modern campus close to Dublin city centre. We provide state-of-the-art study facilities for all our courses and everything else you need for a healthy, fun and active student life.


Exceptional Facilities
DCU students enjoy exceptional teaching and learning facilities across our 3 academic campuses. These include modern learning theatres, research centres, television and sound studios, classrooms, computer suites and advanced laboratories in the areas of languages, engineering, physics, chemistry and biotechnology, as well as a sports performance centre and a virtual hospital ward.


A Vibrant, Dynamic Social Environment
Student facilities include a superb sports complex with a 25 metre pool, two libraries and The Helix, our renowned performing arts centre. In 2016 we announced plans to invest over €230m in developing new, world-class facilities across our three academic campuses. Already building has begun on an exciting, new €14m Student Centre that will be home to the more than one hundred and twenty student clubs and societies. This commitment to student facilities means that our world-class learning experiences are complemented by a vibrant, dynamic social environment.


Mechatronic engineering skills are in demand by both national and international companies looking to ensure that products they manufacture are up-to-date and can be produced economically.

The skills learned in your course can be applied to many areas, including:

  • Medical equipment
  • Transport-related industries (e.g. cars, rail, aircraft)
  • Hydraulic, pneumatic and electrical controls and drives
  • Automated production systems
  • Consumer products
  • Robotics
  • Food processing
  • Petrochemicals
  • Internet of Things (Connected devices)
  • Research and Development Engineer
  • Design Engineer
  • Production Engineer
  • Sales Engineer
  • Management Engineer
  • System design, concentrating on mechanical systems, electronic hardware, software design or combinations thereof.

Alternatively, you could opt for further academic studies in one of our popular taught postgraduate programmes, or perhaps a career in research within one of our internationally respected research groups in DCU.

  • Automation
  • Design Engineer
  • Management
  • Product Design
  • Research and Development Engineer
  • System Design, concentrating on mechanical systems, electronic hardware, software design or combinations thereof
  • Systems Engineer

In these areas


Leaving Certificate

In addition to the general entry requirements for admission to the university the following entry requirements apply

Minimum of H4 Mathematics or H4 Applied Mathematics with H5 Mathematics

GCE A Level

In addition to the general entry requirements for admission to the university the following entry requirements apply

GCE A Level C Mathematics

QQI level 5

No Entry Path

Transfer Applications

The engineering schools consider transfer requests based on the performance of the candidate. The overall

set of guidelines which is in use for HETAC/NCEA equivalent qualifications is as follows:

Qualification Possible Point of Entry

Relevant HETAC/NCEA Higher Certificate/National CertificateFirst year


Relevant HETAC/NCEA Higher Certificate/National CertificateFirst year

(Merit plus Experience)

Relevant HETAC/NCEA Bachelor (Ordinary) Degree/National

Diploma (Merit or Better)Second year

Relevant HETAC/NCEA Bachelor (Ordinary) Degree/National

Diploma (Distinction plus a possible interview)Third year

International Applications

International candidates are expected to have educational qualifications of a standard equivalent to those outlined above. In addition, where such candidates are non-native speakers of the English language they must satisfy the university of their competency in the English language. For further information on international applications click here.

How to Apply and Closing Dates

Applicants presenting EU School Leaving examinations

Apply through the Central Applications Office (CAO) by 1st February or 1st May

Applicants presenting examinations from outside the EU

Candidates should apply directly to DCU. Applications are accepted on an ongoing basis up to 1st July. All Non-EU candidates are advised to apply early, as places are limited.

Mature Applicants

All mature applicants apply through the CAO by 1st February. For further information and for special application procedures for mature students, please click here

EU Transfer Applicants

Apply directly to DCU by the 1st July

Make an Application

Candidates required to apply through the CAO can apply online at
Candidates required to apply directly to DCU can download, print and complete a direct application form by clicking here

Fees & Payments

For information about payment methods & Schedules, download the DCU fees booklet.

Register/Pay Online

Bachelor of Engineering (Hons) in Mechatronic Engineering Course Fees

Course Student Contribution EU Status Fee Non EU Fees
Full Time €3,043 €6,679 €15,000