PROGRAM OVERVIEW
Ecole de Ingenieurs SCPU's three year Bachelor of Engineering (Electrical) is designed to train the students to work as Engineers or Engineering Technicians in wide ranges of industries.
It is designed to provide the following competencies.
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To train the students to have a wide range of functions within engineering enterprises and engineering teams.
The training includes feasibility investigation, scoping, establishing criteria/performance measures, assessing and reporting technical and procedural options; design and development; component, resources and materials sourcing and procurement; construction, prototyping, manufacture, testing, installation, commissioning, service provision and de-commissioning; tools, plant, equipment and facilities acquisition, management, maintenance, calibration and upgrades; operations management; procedures documentation; presentation and reporting; maintenance systems design and management; project and facility management; quality assurance, costing and budget management; document control and quality assurance.
The training is designed for the students
· To be closely familiar with standards and codes of practice, and to become expert in their interpretation and application to a wide variety of situations.
· To develop very extensive experience of practical installations, and may well be more knowledgeable than Professional Engineers or Engineering Technologists on detailed aspects of plant and equipment that can contribute very greatly to safety, cost or effectiveness in operation.
· To develop high levels of expertise in aspects of design and development processes. These might include, for example, the use of advanced software to perform detailed design of structures, mechanical components and systems, manufacturing or process plant, electrical and electronic equipment, information and communications systems, and so on.
· To do the construction of experimental or prototype equipment.
· To develop detailed practical knowledge and experience complementing the broader or more theoretical knowledge of others.
The training is also designed to provide a good grounding in engineering science and the principles underlying their field of expertise, to ensure that their knowledge and skills are portable across different applications and situations within the broad field of practice.
Equipment, vendor or context-specific training in a particular job are not sufficient to guarantee generic competency.
Given a good knowledge base, however, the graduates may build further on this through high levels of training in particular contexts and in relation to particular equipment.
The competencies of graduates to equip them to certify the quality of engineering work and the condition of equipment and systems in defined circumstances, laid down in recognised standards and codes of practice.
The training is also designed to lead or manage teams appropriate to these activities. Some may establish their own companies or may move into senior management roles in engineering and related enterprises, employing Professional Engineers, Engineering Technologists, and other specialists where appropriate.
YEAR 1 | ||
SEMESTER (1) | Credits |
|
EE101 | DC Circuit Problems | 1 |
EE102 | Basic Electrical Fitting & Wiring | 1 |
EE103 | Basic Electrical Drafting | 1 |
EE104 | Electrical Equipments Safety Protection | 2 |
EE105 | Electrical Installation Design | 1 |
EE106 | Advanced Electrical Wiring | 1 |
EE107 | Electrical Equipments | 1 |
EE108 | Electrical Fault Finding | 1 |
EE109 | Electrical Control Circuits | 1 |
EE110 | Computer Applications | 1 |
EE111 | Electromagnetism & Basic Electrical Machines | 2 |
EE112 | Alternating Current Principle | 2 |
15 Credits |
||
SEMESTER (2) | ||
EE113 | Electrical Fundamental | 2 |
EE114 | Electrical Power Principle | 1 |
EE115 | Basic Analogue & Digital Electronics | 2 |
EE116 | Process Control System | 3 |
EE117 | Solar Electrical System | 1 |
EE118 | Electrical Energy Supply System | 3 |
EE119 | Electrical Risk Assessment | 1 |
EE120 | Electrical Contracting & Specification | 1 |
EE121 | Electronics Power Control Device | 1 |
15 Credits |
||
Year 2 | ||
SEMESTER (1) | ||
EE201 | Engineering Mathematics | 1 |
EE202 | Electrical Circuits | 1 |
EE203 | Three Phase Power Circuits | 1 |
EE204 | Engineering Physics | 1 |
EE205 | Electrical Power System | 2 |
EE206 | AC Machines | 2 |
EE207 | DC Machine | 1 |
EE208 | Operational Amplifiers | 2 |
EE209 | Analogue Electronics | 1 |
15 Credits |
||
SEMESTER (2) | ||
EE301 | Advanced Electrical Drafting | 1 |
EE302 | Advanced Engineering Mathematics | 2 |
EE303 | Transmission Line | 2 |
EE304 | Power System Protection | 2 |
EE305 | Power Transformer | 2 |
EE306 | Electro-mechanical Control | 2 |
EE307 | Energy Efficient Building Design | 2 |
EE308 | Sustainability | 1 |
EE309 | Project Management | 2 |
EE310 | Engineering Officer Competency Report | 2 |
15 Credits |
||
Total Credits | 60 Credits |
|
Year 3 | ||
SEMESTER (1) | ||
BAE 401 | Advanced Engineering Mathematics | 9 |
BAE 402 | Calculus | 3 |
BAE 404 | Engineering Materials & Thermodynamics | 3 |
15 Credits |
||
SEMESTER (2) | ||
BAE 403 | Engineering Mechanics | 1 |
BAE 405 | Advanced Circuit Analysis | 3 |
BAE 406 | Electro-Mechanics | 2 |
BAE 407 | Advanced Electro-Mmagnetics Field & Materials | 1 |
BAE 408 | Analogue & Digital Electronics | 2 |
BAE 501 | Advanced Power Systems & Power Transmission Networks | 2 |
15 Credits |
||
Year 4 | ||
SEMESTER (1) | ||
BAE 502 | Linear System | 1 |
BAE 503 | Control System | 4 |
BAE 504 | Power System Analysis | 1 |
BAE 505 | Power System Optimization | 1 |
BAE 506 | Power System Stability & Protection | 2 |
BAE 507 | Electro-mechanical Energy Conversion | 2 |
BAE 508 | Industrial Engineering & Industrial Management | 1 |
BAE 601 | Computer Programming | 3 |
15 Credits |
||
SEMESTER (2) | ||
BAE 602 | Computer Network | 1 |
BAE 603 | Software Engineering | 3 |
BAE 604 | Telecommunication Engineering | 2 |
BAE 605 | Engineering Management | 5 |
BAE 606 | Building Service Electrical & Mechanical Engineering | 2 |
BAE 607 | Advanced Power Systems & Power Transmission Networks | 2 |
15 Credits |
||
Total Credits | 120 Credits |
Progression Pathways
Students wishing to continue their studies can enrol directly into the Master of Professional Engineering program