Pearson BTEC LEVEL 4 HNC Diploma in Electrical Engineering (QCF) AEC College
Price: 3000 SGD

    Course details

    PEARSON BTEC Level 4 HNC Diploma in Electrical Engineering (QCF) prepares students for a professional career as an Electrical Engineer. The programme encompasses a wide range of topics designed to advance both technical knowledge and communication skills. Students will be equipped with practical applications of electrical engineering with a strong theoretical foundation from instructors with many years of industry experience.

    MODULE STRUCTURE / DESCRIPTION

    Analytical Methods for Engineers
    This unit enables learners to develop previous mathematical knowledge obtained at school or college and use fundamental algebra, trigonometry, calculus, statistics and probability for the analysis, modelling and solution of realistic engineering problems.

    Engineering Science
    This unit will develop learners' understanding of the key mechanical and electrical concepts that relate to all aspects of engineering.

    In particular, learners will study elements of engineering statics including the analysis of beams, columns and shafts. They will then be introduced to elements of engineering dynamics, including the behavioural analysis of mechanical systems subject to uniform acceleration, the effects of energy transfer in systems and to natural and forced oscillatory motion.

    Project Design, Implementation and Evaluation
    This unit provides opportunities for learners to develop skills in decision making, problem solving and communication, integrated with the skills and knowledge developed in many of the other units within the programme to complete a realistic project.

    It requires learners to select, plan, implement and evaluate a project and finally present the outcomes, in terms of the process and the product of the project. It also allows learners to develop the ability to work individually and/or with others, within a defined timescale and given constraints, to produce an acceptable and viable solution to an agreed brief.

    Electrical and Electronic Principles
    Circuits and their characteristics are fundamental to any study of electrical and electronic engineering and therefore a good understanding is important to any engineer.

    The engineer must be able to take complex electrical circuit problems, break them down into acceptable elements and apply techniques to solve or analyse the characteristics. Additionally, fine tuning of the circuits can be performed to obtain required output dynamics.

    This unit draws together a logical appreciation of the topic and offers a structured approach to the development of the broad learning required at this level. Learners will begin by investigating circuit theory and the related theorems to develop solutions to electrical networks.

    Mechatronic Systems
    The material and topics covered in this unit will be broad-based to reflect the fact that mechatronics is, by its nature, multi-disciplinary and not confined to a single specialised area.

    The unit will encompass small, single component systems as well as larger systems integrating components from different engineering disciplines. It will develop a methodology that will allow learners to apply mechatronic design philosophy throughout the development cycle of a systems and products. The intention is to encourage the learner to recognise a system not as an interconnection of different parts but as an integrated module.

    Learners will investigate the applications of mechatronics, considering the need for integration and the nature of mechatronic systems and products. Typical mechatronics components are examined by before learners look at the design steps and processes for mechatronic systems and mechatronic products.

    Employability Skills
    All learners at all levels of education and experience require honed employability skills as a prerequisite to entering the job market. This unit gives learners an opportunity to assess and develop an understanding of their own responsibilities and performance in, or when entering, the workplace.

    It considers the skills required for general employment, such as interpersonal and transferable skills, and the dynamics of working with others in teams or groups including leadership and communication skills.

    It also deals with the everyday working requirement of problem solving which includes the identification or specification of the 'problem', strategies for its solution and then evaluation of the results through reflective practices.

    Engineering Design
    This unit will enable the learner to appreciate that design involves synthesising parameters that will affect the design solution. The learner will prepare a design specification against a customer's specific requirements. They will then prepare a design report that provides an analysis of possible design solutions, an evaluation of costs and an indication of how the proposed design meets the customer's specification. It is expected that the learner will, during the design processes, make full use of appropriate information and communication technology (ICT).

    Electrical Power
    Our modern world increasingly relies upon electrical power to supply our industries, commercial centres and homes with a convenient, flexible and reliable source of energy.

    To meet the client's expectations, electrical energy must be provided at a reasonable cost and transmitted to the point of need, at the appropriate voltage and current levels. The client's utilisation of the energy source needs to be appropriate, without undue complexity, to facilitate energy generation and transmission.

    DELIVERY METHOD

    Lessons will be conducted face-to-face. Lecturers, on top of teaching the modules, will share with the students their wealth of industry experience.

    TEACHER TO STUDENT RATIO

    1:40

    ENTRY REQUIREMENT

    Pearson/Edexcel BTEC Level 3 diploma in an Engineering Field (or)
    3 'O' level (or) Equivalent including English language and 2 science subject with related working experience (or)
    3 'A' Level (or) equivalent including English language & 2 science subject
    Matured students, who have obtained other qualification (eg: Workplace Literacy Certificate) with relevant work experience will be considered on a case to case basis (or)
    Relevant Certificate with other institution are considered case to case basis
    English Proficiency:

    IELTS 5.5; or
    Paper-based TOEFL score of at least 400; or
    Internet-based TOEFL score of 61; or
    Computer-based TOEFL score of 173; or
    Pass in GCE 'O' Level English;
    ASSESSMENT AND GRADING

    This programme will be assessed through a combination of attendance and module assignments. The credits will be based on project assignment on every individual module.

    GRADUATION CRITERIA

    For a student to successfully graduate from this course, the student must achieve at least a pass in all module assignments. This will allow the student to obtain at least 120 credits from this course.

    AWARD

    The Higher Nationals are awarded by Pearson International, UK's largest awarding body offering academic and vocational qualifications and testing to schools, colleges, employers and other places of learning in the UK and internationally.
    (Formerly known as EDEXCEL BTEC)

    PROGRESSION PATHWAYS

    Graduates of this program are eligible for unit exemptions when they sign-up for the PEARSON BTEC Level 5 HND Diploma in Electrical Engineering (QCF).

    PROFESSIONAL BODY RECOGNITION

    The PEARSON BTEC Higher Nationals in Electrical and Electronic Engineering, Electrical Engineering and Electronic Engineering have been developed with career progression and recognition by professional bodies in mind. It is essential that learners gain the maximum benefit from their programme of study.

    The development of this qualification has been informed by discussions/relevant publications from the Engineering Council UK (EC (UK)) and the Science, Engineering and Manufacturing Technologies Alliance (SEMTA).
    Further details of professional body recognition and exemptions for PEARSON BTEC Higher Nationals are given in the BTEC Higher Nationals Professional Recognition and Progression Directory 2008 available from our website:

    www.edexcel.com/quals/hn/Pages/Keydocuments.aspx.

    INTAKE DATES

    8 intakes a year (Monthly Intakes)

    Module Title
    Intake Dates

    Engineering Science
    25-Jan-15

    Engineering Design
    22-Feb-15

    Mechatronic Systems
    22-Mar-15

    Electrical And Electronic Principles
    14-Jun-15

    Electrical Power
    12-Jul-15

    CLASS TIMES

    Part Time : Each unit is conducted face to face over 4 Sundays from 10am to 5pm.

    Updated on 08 November, 2015

    About AEC College

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