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BTEC Level 4/5 HNC/D Diploma Electrical & Electronic Engineering – Online

Course Summary
Price  £3300 – £6600
Payment Options Pay by Credit/Debit card or Bank transfer or equal monthly installments by Direct Debit
Study method Online
Duration 24 months to 48 months (up to 5 years is allowed)
Qualification

BTEC Level 4 HNC Electrical/Electronic Engineering (QCF) [500/8831/2]

BTEC Level 4 HND Electrical/Electronic  Engineering (QCF) [500/8834/8]

Awarded by Pearson (Edexcel)
Additional Info Tutor support during normal business hours

What is an HNC or HND?
The HNC in Electrical/Electronic Engineering is for those students who already have a grasp of engineering concepts and have possibly already worked at technician level. The HNC is designed to give you a higher level of knowledge which could allow you to step up the career ladder or count towards a full degree. The HND progresses on from the HNC and is a further 120 credits

What does the course consist of?

The HNC course needs 120 credits to complete and ideally will be studied in 2 years part time. The HND is a further 120 credits and can be studied directly after the HNC. There are a number of mandatory units, 2 of which will be delivered in the first year. You will have a choice of specialist optional units, but you don’t need to choose them right away as the mandatory units will be delivered and assessed first.

 

Mandatory Units: (Click tab for more information)

Analytical Methods for Engineers – Credit Value 15 QCF Level 4

This unit will provide the analytical knowledge and techniques needed to carry out a range of engineering tasks and will provide a base for further study of engineering mathematics.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to analyse and model engineering situations and solve problems using algebraic methods
  2. Be able to analyse and model engineering situations and solve problems using trigonometric methods
  3. Be able to analyse and model engineering situations and solve problems using calculus
  4. Be able to analyse and model engineering situations and solve problems using statistics and probability
Engineering Science  – Credit Value 15 QCF Level 4

This unit aims to provide learners with an understanding of the mechanical and electrical principles that underpin mechanical and electrically focused engineering systems.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to determine the behavioural characteristics of elements of static engineering systems
  2. Be able to determine the behavioural characteristics of elements of dynamic engineering systems
  3. Be able to apply DC theory to solve electrical and electronic engineering problems
  4. Be able to apply single phase AC theory to solve electrical and electronic engineering problems
Project Design, Implementation and Evaluation – Credit Value 20 QCF Level 5

This unit provides opportunities 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.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to formulate a project
  2. Be able to implement the project within agreed procedures and to specification
  3. Be able to evaluate the project outcomes
  4. Be able to present the project outcomes

 

Specialist Optional Units: (Click tab for more information)

Electrical and Electronic Principles – Credit Value 15 QCF Level 5

This unit provides an understanding of electrical and electronic principles used in a range of engineering careers and provides the basis for further study of more specialist areas of electrical/electronic engineering.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to apply electrical and electronic circuit theory
  2. Be able to apply two-port network models
  3. Understand the use of complex waves
  4. Be able to apply transients in R-L-C circuits.
Health, Safety and Risk Assessment in Engineering – Credit Value 15 QCF Level 4

This unit aims to provide learners with an understanding of health and safety planning, implementation and legislation within an engineering environment.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to select and apply safe working procedures to engineering operations
  2. Understand the nature and use of current health and safety legislation
  3. Be able to analyse engineering activities for the assessment of risk
  4. Be able to manage and minimise risk to life, property and engineering activities within an industrial environment.
Business Management Techniques for Engineers – Credit Value 15 QCF Level 4

This unit investigates the functions, structures and inter-relationships of an engineering business. Learners will apply the skills of costing, financial planning and control associated with engineered products or services.

Learning outcomes

On successful completion of this unit a learner will:

  1. Know how to manage work activities to achieve organisational objectives
  2. Be able to select and apply costing systems and techniques
  3. Understand the key functions of financial planning and control
  4. Be able to apply project planning and scheduling methods to an engineering project.
Engineering Design – Credit Value 15 QCF Level 4

This unit will enable learners to prepare an engineering design specification that meets customer requirements and produce a final design report.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to prepare a design specification to meet customer requirements
  2. Be able to analyse and evaluate possible design solutions and prepare a final design report
  3. Understand how computer-based technology is used in the engineering design process.
Employability Skills – Credit Value 15 QCF Level 4

This unit provides learners with the opportunity to acquire honed employability skills required for effective employment.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to determine own responsibilities and performance
  2. Be able to develop interpersonal and transferable skills
  3. Understand the dynamics of working with others
  4. Be able to develop strategies for problem solving.
Personal and Professional Development – Credit Value 15 QCF Level 4

This unit aims to help the learner become an effective and confident self-directed employee. This helps the learner become confident in managing own personal and professional skills to achieve personal and career goals.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand how self-managed learning can enhance lifelong development
  2. Be able to take responsibility for own personal and professional development
  3. Be able to implement and continually review own personal and professional development plan
  4. Be able to demonstrate acquired interpersonal and transferable skills.
Research Project – Credit Value 20 QCF Level 5 To develop learners’ skills of independent enquiry and critical analysis by undertaking a sustained research investigation of direct relevance to their Higher Education programme and professional development.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand how to formulate a research specification
  2. Be able to implement the research project within agreed procedures and to specification
  3. Be able to evaluate the research outcomes
  4. Be able to present the research outcomes.
Quality Assurance & Management – Credit Value 20 QCF Level 5 This unit will develop learners’ knowledge and understanding of the principles and applications of quality management.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand how total quality management (TQM) systems operate
  2. Know the key factors of quality assurance (QA) techniques
  3. Be able to apply quality control (QC) techniques.
Management of Projects – Credit Value 15 QCF Level 4

This unit provides an understanding and experience of project management principles, methodologies, tools and techniques that may be used in industry and the public sector.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand the principles of project management
  2. Be able to plan a project in terms of organisation and people
  3. Be able to manage project processes and procedures.
Managing People in Engineering – Credit Value 15 QCF Level 4 This unit will develop learners’ understanding of the methods, processes and procedures used when managing people in engineering.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand the processes and procedures involved in people management
  2. Understand working relationships within an engineering context
  3. Understand methods of managing and developing human resources
  4. Understand industrial relations and legislation within an employment relationship.
Microprocessor Systems – Credit Value 15 QCF Level 4

This unit will develop learners’ understanding of microprocessor-based systems and their use in instrumentation, control or communication systems.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand microprocessor-based systems
  2. Be able to design software, write and test programs for a microprocessor-based system
  3. Be able to design and build programmable interface devices.
Electrical, Electronic and Digital Principles – Credit Value 15 QCF Level 4

This unit aims to develop learners’ understanding of the electrical, electronic and digital principles needed for further study of electro-mechanical systems.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to apply complex notation in the analysis of single phase circuits
  2. Be able to apply circuit theory to the solution of circuit problems
  3. Understand the operation of electronic amplifier circuits used in electro-mechanical systems
  4. Be able to design and test digital electronic circuits used in electro-mechanical systems.
Advanced Computer-aided Design Techniques – Credit Value 15 QCF Level 4

The aim of this unit is to enhance learners’ skills in the use of computer-aided design (CAD) and 3D modelling systems to solve a design problem.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to modify and update an existing design
  2. Be able to generate a surface model
  3. Be able to generate a solid model.
Managing the work of Individuals and Teams – Credit Value 15 QCF Level 4

This unit develops learners’ understanding and skills associated with managing the work of individuals and teams. It enhances the ability to motivate individuals and to maximise the contribution of teams to achieve outcomes.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to establish the objectives of individuals
  2. Be able to evaluate the performance of individuals
  3. Be able to establish the roles and responsibilities of teams
  4. Be able to review the performance of teams.
Electrical and Electronic Principles – Credit Value 10 QCF Level 3

This unit aims to give learners an understanding of the underlying physical principles on which electrical and electronic devices and circuits depend.

The modern world relies on electrical and electronic devices — from mobile telephones to jet aeroplanes, these devices have had an enormous impact on the way we live today. Without early engineers, such as Faraday and Lenz, who studied the then new concept of electricity, many of the inventions we now take for granted would not have been made.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to use circuit theory to determine voltage, current and resistance in direct current (DC) circuits
  2. Understand the concepts of capacitance and determine capacitance values in DC circuits
  3. Know the principles and properties of magnetism
  4. Be able to use single-phase alternating current (AC) theory
Further Mathematics for Technicians – Credit Value 10 QCF Level 3

Mathematics is an essential tool for any electrical or mechanical engineering technician. This unit has been designed to further enhance learners’ knowledge of mathematical principles, particularly for those considering progressing to a higher education qualification in engineering. With this in mind, the learning outcomes offer greater emphasis to the engineering application of mathematics. For example, learners could use an integral calculus method to obtain the root mean square (RMS) value of a sine wave over a half cycle.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to use advanced graphical techniques
  2. Be able to apply algebraic techniques
  3. Be able to manipulate trigonometric expressions and apply trigonometric techniques
  4. Be able to apply calculus.
Further Electrical Principles – Credit Value 10 QCF Level 3

This unit gives learners the opportunity to apply practical and theoretical principles of electrical engineering to the development, manufacture and servicing of complex electrical and electronic systems.

The unit will extend learners’ understanding of simple direct current (DC) circuits that can be solved by Ohm’s law and Kirchhoff’s laws. This will require learners to apply advanced circuit analysis theorems such as Thévenin’s, Norton’s and the maximum power transfer theorems for DC networks.

Learning outcomes

On successful completion of this unit a learner will:

  1. Be able to apply direct current (DC) circuit analysis methods and consider the types, construction and characteristics of a DC motor and generator
  2. Understand the transient behaviour of resistor-capacitor (RC) and resistor-inductor (RL) DC circuits
  3. Be able to apply single-phase alternating current (AC) theory
  4. Be able to apply three-phase alternating current (AC) theory
Telecommunication Principles – Credit Value 15 QCF Level 5

This unit aims to develop learners’ understanding of the principles and characteristics of telecommunications systems.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand the requirements of communication systems
  2. Understand communication channels and their characteristics
  3. Understand modulation and multiplexing techniques used for analogue and digital signals
  4. Understand the characteristics of communications traffic.
Data Communications and Networks – Credit Value 15 QCF Level 4

The aim of this unit is to develop an understanding of the architecture, operation and major design issues relating to data networks.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand data communication networks and the requirement for open systems
  2. Understand the methods employed for data communication
  3. Know the function and methods of control used for local area networks
  4. Understand wide area networks and internet working.
Radio Communication Engineering – Credit Value 15 QCF Level 4

This unit aims to develop learners’ understanding of the systems and sub-systems involved in communication by radio.

Learning outcomes

On successful completion of this unit a learner will:

  1. Understand amplitude and angle modulation
  2. Understand the principles of radiation and propagation of transverse electromagnetic waves in the bands very low frequency (VLF) to extremely high frequency (EHF)
  3. Understand the operation of radio transmitters
  4. Understand the operation of radio receivers.

 

Who is the Course aimed at?

This course is for those who would like CPD credits, or start a Higher Education. It can lead to an HND, in fact the HNC is nestled inside an HND (240 Cr). It could also count towards a full Bachelors degree as more and more Universities accept HNC’s as the 1st year and HND as the 1st and 2nd year.

This course is ideal if you are unable to attend a college or university, due to work or family commitments. If you are looking to further your career or you need the qualifications for a promotion or career change, this course deals with materials around Engineering,

What are the entry requirements?

A level 3 qualification, such as BTEC Diploma in Engineering or A levels, however if you don’t have these but do have experience in the workplace, then contact us and we can discuss your needs. Typically 80 UCAS points is needed.

The content is heavy on Science and as such there is a high content of maths. We can assess your maths ability using our BKSB Advanced Maths assessment tool, to see if you are at the right level, free of charge.

Non-native English speakers and those students who have not had their final two years of schooling in English will need to demonstrate one of the following upon entry:

  • Common European Framework of Reference (CEFR) B2
  • IELTS 5.5 (including 5.5 for reading and writing)
  • PTE 51
  • or equivalent,

Who is this Course for?

For those working as technicians, who would like to take the next step, or those who would like a career change.

As this is level 4, once complete you may be eligible for Professional Recognition with institutes such as the Institute of Engineering & Technology

How much does it cost?

  • Credits – 15-20
  • Level – 4/5
  • Registration – £35
  • Cost per credit – £35
  • Total Cost – £525 – 700
  • Credits – 120
  • Level – 4
  • Registration – £168.30
  • Cost per credit – £27.50
  • Total Cost – £3300.00
  • Credits – 240
  • Level – 5
  • Registration – £205.20
  • Cost per credit – £27.50
  • Total Cost – £6600.00
  • Credits – 120
  • Level – 5
  • Registration – £205.20
  • Cost per credit – £29.17
  • Total Cost – £3500.00

Click to contact us!

Click to Apply Online!

Or call us on +44 (0) 1792 732001

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