Electrical Engineering (BEng) (Level 7)
Field of Study
Type of Course:
Type of Qualification:
Type of Study:
Application Closing Date:
3 Years (6 Semesters)
For admission to a programme, standard applicants must
- score the necessary CAO points and
- meet the minimum entry requirements
Leaving Certificate examination in five subjects i.e. Grade O6 or H7 in five subjects. The five subjects must include Mathematics, and either English or Irish.
Info re CIT Mathematics Exam only
Some students who apply to CIT courses may not achieve the required entry standard in Mathematics through the Leaving Certificate. For such applicants, CIT offers a second chance to reach the required entry standard through a CIT Mathematics Exam. This second chance facility allows applicants (depending on their results in the CIT Mathematics Examination) to gain entry to courses with an Ordinary Leaving Certificate Mathematics entry standard, and (with a higher level of performance) courses with a Higher Leaving Certificate entry standard. Please click here for more information.
At present, there is no direct work placement period in the course, however, students are encouraged to work in the area during their summer vacations.
Leaving Cert Subjects:
Helpful subjects are Engineering, and Physics.
The course aims to provide broad-based power electrical engineering associate engineers to meet the needs of industry. The general fields of study are Renewable Generation, Transmission and Distribution, Plant Automation, Motor Control, Power Systems Planning, and Industrial Management and Services. The syllabus is designed to prepare graduates for work in electrical power and automation systems. The high academic standard of the course is complemented by a strong emphasis on applications and project work. State-of-the-art lab equipment and software prepares graduates for the work environment. Class work is supplemented by field trips to major employers within the greater locality.
Bachelor Degree holders who achieve the specified level of academic performance may apply for entry to the Bachelor of Engineering (Honours) Degree in Electrical Engineering at CIT.
Electrical & Electronic Engineering
For information on Fees/Student Grants/Scholarships and Financial Assistance, please click here.
What is Electrical Engineering?
Providing electrical power in a modern economy is about generation, distribution and usage in a safe, economic and sustainable way. Fossil fuel energy now combines with solar, wind and tidal energy to create “embedded” generation which needs a “smart grid” to automatically switch users and suppliers in and out while maintaining the quality of the supply. CIT’s Electrical Engineering course is designed to equip technologists for this environment.
The aim of Electrical Engineering is to generate, distribute and apply electrical energy safely and economically, and in a sustainable way for future generations to come. This includes the design of renewable generation distribution systems and combined heat and power systems for domestic, commercial, medical, leisure and industrial places of living and working.
CR062 Course Location: CIT Bishopstown Campus
For details, see http://e-eng.cit.ie
Suitably qualified graduates are eligible to apply for entry to Year 4 (final) of
What is the difference between Electronic Engineering and Electrical Engineering?
Electronic Engineering is small scale, low voltage, component level, microchips and programming.
Electrical Engineering is high power, mains electricity, generation, power lines, transformers, motor/generators and automation.
Has the course professional accreditation?
The Level 7 in Electrical Engineering is accredited by Engineers Ireland for Associate membership.
Can I become an electrician?
No. An electrician is a well-established and reputable trade which has its own development programme and its own target job market. Third level programmes are designed to equip graduates to deal with projects at design/development level and when approved/agreed, the work is implemented by skilled trades.
What elements of renewable energy are covered in the course?
Modules dealing with current renewable areas are dealt with on a mandatory basis because of their relevance. There is also an opportunity to explore these areas further through elective modules.
What level of Mathematics is required?
Grade O6/H7 in Leaving Certificate examination is the minimum requirement, however, a higher grade is recommended.
Is it possible to obtain a Higher Certificate award after two years?
Yes. Students who successfully complete Year 2 of this programme and do not wish to progress to Year 3 will receive the Higher Certificate in Electrical Engineering.
“I completed my Level 7 in 2009 and Level 8 in 2010. I then joined Energy Services Ltd. in Cork who are energy consultants specialising in energy procurement, supply/demand side management internationally.
My projects so far include embedded generation, power transmission/ distribution, including wind farms, and consumption monitoring and assessment at home, in Europe and as far away as Central Asia. My training as an electrician plus my undergraduate programmes have prepared me well for this work. Power/electrical engineering is an excellent career and there is significant demand for it.”
CIT has developed a website which gives full details of all modules for all courses. The website also has information on recommended textbooks, average weekly workload, assessments and exams.
Full details of the modules on these programme of study are available by clicking the following links:
Graduates will have acquired both the knowledge and the competence to work in generation and distribution of electrical energy, in the control of automated production systems with particular emphasis on power drives and aspects of robotic control, in the maintenance of Combined Heat and Power (CHP) and in embedded generation systems. Graduates will also have acquired the competence to work in the application and maintenance of renewable sources of electrical energy such as wind energy and fuel cells. Graduates can expect to find employment in the energy generation, transmission and grid control section of the market plus in the area of automation as utilised in modern processes.
Growth in the fields of Electrical Engineering has produced a variety of rewarding careers for technicians, associate engineers and professional engineers for both females and males. Besides the direct engineering careers, holders of Electrical Engineering Degrees also apply their knowledge to the marketing and technical support of specialised electrical, control and automation equipment.
At Bachelor Degree Level
The course educates and trains students for employment as electrical associate engineers in the design, planning and maintenance of large-scale industrial and commercial complexes, or as sales/marketing executives or technical support personnel with major suppliers of electrical, control and automation equipment. Besides the main topics of the course, students are prepared for the computing needs of modern industry through the use and application of computer aided drawing (CAD) and computer aided engineering (CAE) packages.
An applications orientated industry-related approach results in associate engineers capable of making an early contribution in the working environment across a wide range of employment positions.
Graduates can expect to find employment in the energy generation, transmission and grid control section of the market plus in the area of automation as utilised in modern processes. Having acquired suitable work experience the graduates may expect to progress quickly to positions of responsibility where independent technical judgement will be exercised and will work with a significant level of autonomy. Salary scales are generally at the upper end in their field.
Potential Areas of Employment
- Energy Generation/Transmission
- Building Supply/Installation/Services/Maintenance
- Process/Automation Industry
CAO 1st Round:
Entry 2020: 300
CAO Cut off: