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Electrical Engineering Level 5 Training
Course Line On Demand

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Summary

Price
£19 inc VAT
Study method
Online, On Demand
Duration
2.6 hours · Self-paced
Qualification
No formal qualification
Certificates
  • Reed Courses Certificate of Completion - Free
Assessment details
  • Final Exam (included in price)
Additional info
  • Tutor is available to students

Overview

The Electrical Engineering Level 5 Training course is designed for learners seeking an advanced and structured understanding of electrical engineering principles from an academic, analytical, and applied-knowledge perspective. Electrical engineering is explored as a broad engineering discipline underpinning power systems, electronics, control systems, automation, and renewable energy technologies.

This course provides in-depth exposure to circuit theory, power systems, electronics, control engineering, industrial automation, and project management, while also addressing professional practice, ethics, safety awareness, and sustainability. Learners develop the ability to interpret electrical systems, analyse engineering problems, and understand how theoretical principles are applied in real-world engineering contexts.

Electrical engineering is presented as a professional and academic discipline rather than a licensing pathway. The course focuses on conceptual mastery, systems thinking, and analytical reasoning rather than hands-on certification or statutory authorisation.

By engaging with advanced topics such as renewable energy integration, industrial automation, and a capstone project, learners gain a comprehensive foundation suitable for further academic progression, engineering support roles, or professional development within electrical engineering–related fields.

Certificates

Reed Courses Certificate of Completion

Digital certificate - Included

Will be downloadable when all lectures have been completed.

Assessment details

Final Exam

Included in course price

Curriculum

12
sections
52
lectures
2h 34m
total

    • 1: Disclaimer 01:00

    • 2: Lesson-1 Introduction to Electrical Engineering 03:00
    • 3: Lesson-2 Basic Electrical Circuits and Components 03:00
    • 4: Lesson-3 Ohm's Law and Kirchhoff's Laws 02:00
    • 5: Lesson-4 Electrical Power and Energy 02:00
    • 6: Lesson-5 Introduction to Electrical Safety 03:00

    • 7: Lesson-1 AC Circuit Analysis 03:00
    • 8: Lesson-2 Three-Phase Systems 02:00
    • 9: Lesson-3 Power Factor Correction 02:00
    • 10: Lesson-4 Resonant Circuits 03:00
    • 11: Lesson-5 Laplace Transform in Circuit Analysis 02:00

    • 12: Lesson-1 Introduction to Power Systems 03:00
    • 13: Lesson-2 Power Generation and Distribution 03:00
    • 14: Lesson-3 Transformers and Induction Machines 03:00
    • 15: Lesson-4 Transmission Lines and Cable Systems 03:00
    • 16: Lesson-5 Power System Protection and Control 03:00

    • 17: Lesson-1 Introduction to Control Systems 03:00
    • 18: Lesson-2 Transfer Functions and Block Diagrams 02:00
    • 19: Lesson-3 Feedback Control Systems 03:00
    • 20: Lesson-4 Stability Analysis 03:00
    • 21: Lesson-5 PID Controllers and Tuning 03:00

    • 22: Lesson-1 Semiconductor Basics 03:00
    • 23: Lesson-2 Diodes, Transistors, and Thyristors 03:00
    • 24: Lesson-3 Amplifiers and Oscillators 03:00
    • 25: Lesson-4 Digital Electronics 03:00
    • 26: Lesson-5 Microcontroller Applications 02:00

    • 27: Lesson-1 Overview of Renewable Energy Sources 03:00
    • 28: Lesson-2 Solar Photovoltaic Systems 03:00
    • 29: Lesson-3 Wind Energy Systems 03:00
    • 30: Lesson-4 Hydroelectric Power 03:00
    • 31: Lesson-5 Integration of Renewable Energy into Power Grids 03:00

    • 32: Lesson-1 Introduction to Industrial Automation 03:00
    • 33: Lesson-2 Programmable Logic Controllers (PLCs) 03:00
    • 34: Lesson-3 Human-Machine Interface (HMI) 03:00
    • 35: Lesson-4 Industrial Communication Protocols 02:00
    • 36: Lesson-5 Industrial Robotics 03:00

    • 37: Lesson-1 Project Planning and Scheduling 03:00
    • 38: Lesson-2 Budgeting and Resource Allocation 03:00
    • 39: Lesson-3 Risk Management 03:00
    • 40: Lesson-4 Project Execution and Monitoring 03:00
    • 41: Lesson-5 Project Closure and Evaluation 03:00

    • 42: Lesson-1 Engineering Ethics and Responsibilities 03:00
    • 43: Lesson-2 Health and Safety Regulations 03:00
    • 44: Lesson-3 Professional Development and Continuing Education 03:00
    • 45: Lesson-4 Codes and Standards in Electrical Engineering 03:00
    • 46: Lesson-5 Environmental Sustainability in Engineering 03:00

    • 47: Lesson-1 Research Proposal Development 04:00
    • 48: Lesson-2 Literature Review 03:00
    • 49: Lesson-3 Data Collection and Analysis 03:00
    • 50: Lesson-4 Report Writing and Presentation 03:00
    • 51: Lesson-5 Dissertation Defense or Project Presentation 03:00

    • 52: Final Exam 10:00

Course media

Description

This Electrical Engineering Level 5 Training course consists of ten structured lectures, followed by an assessment, each designed to progressively develop advanced engineering knowledge and professional awareness.

The course begins with the fundamentals of electrical engineering, introducing core concepts such as electrical circuits, components, Ohm’s Law, Kirchhoff’s Laws, power, energy, and electrical safety awareness.

Advanced circuit analysis explores AC circuits, three-phase systems, power factor correction, resonant circuits, and the use of Laplace transforms in circuit analysis.

Power systems examine electricity generation, transmission, distribution, transformers, induction machines, transmission lines, and power system protection and control.

Control systems introduce transfer functions, block diagrams, feedback systems, stability analysis, and PID controller concepts and tuning approaches.

Electronics and microelectronics explore semiconductor fundamentals, diodes, transistors, thyristors, amplifiers, oscillators, digital electronics, and microcontroller applications.

Renewable energy systems examine solar photovoltaic systems, wind energy, hydroelectric power, and the integration of renewable energy into modern power grids.

Industrial automation focuses on automation principles, programmable logic controllers, human–machine interfaces, industrial communication protocols, and industrial robotics.

Project management in electrical engineering introduces planning, scheduling, budgeting, risk management, execution, monitoring, and project evaluation.

Professional practice and ethics examine engineering ethics, health and safety awareness, professional development, engineering codes and standards, and environmental sustainability.

The dissertation or capstone project guides learners through research proposal development, literature review, data collection and analysis, report writing, and formal project presentation.

Certification

Upon successful completion of the Electrical Engineering Level 5 Training course, learners receive a free digital certificate from Reed confirming course completion. A provider-issued certificate is also available following verification, with optional premium certificates and academic transcripts available separately.

Who is this course for?

This electrical engineering course is suitable for learners with prior technical knowledge or experience who wish to develop advanced understanding of electrical systems and engineering principles. It is ideal for engineering students, technical professionals, engineering assistants, supervisors, or individuals preparing for further academic study in electrical engineering or related disciplines.

Requirements

No formal qualifications are required to enrol on this electrical engineering course, although prior technical or engineering knowledge is recommended. Learners should have a good standard of English, access to the internet, and a computer, tablet, or smartphone. Completion of the assessment is required to successfully finish the Electrical Engineering Level 5 Training course.

Career path

This electrical engineering course can support progression into engineering support roles, technical consultancy assistance, project coordination, industrial systems support, renewable energy roles, or further academic study in electrical and electronic engineering.

Questions and answers

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Legal information

This course is advertised on Reed.co.uk by the Course Provider, whose terms and conditions apply. Purchases are made directly from the Course Provider, and as such, content and materials are supplied by the Course Provider directly. Reed is acting as agent and not reseller in relation to this course. Reed's only responsibility is to facilitate your payment for the course. It is your responsibility to review and agree to the Course Provider's terms and conditions and satisfy yourself as to the suitability of the course you intend to purchase. Reed will not have any responsibility for the content of the course and/or associated materials.

FAQs

Study method describes the format in which the course will be delivered. At Reed Courses, courses are delivered in a number of ways, including online courses, where the course content can be accessed online remotely, and classroom courses, where courses are delivered in person at a classroom venue.

CPD stands for Continuing Professional Development. If you work in certain professions or for certain companies, your employer may require you to complete a number of CPD hours or points, per year. You can find a range of CPD courses on Reed Courses, many of which can be completed online.

A regulated qualification is delivered by a learning institution which is regulated by a government body. In England, the government body which regulates courses is Ofqual. Ofqual regulated qualifications sit on the Regulated Qualifications Framework (RQF), which can help students understand how different qualifications in different fields compare to each other. The framework also helps students to understand what qualifications they need to progress towards a higher learning goal, such as a university degree or equivalent higher education award.

An endorsed course is a skills based course which has been checked over and approved by an independent awarding body. Endorsed courses are not regulated so do not result in a qualification - however, the student can usually purchase a certificate showing the awarding body's logo if they wish. Certain awarding bodies - such as Quality Licence Scheme and TQUK - have developed endorsement schemes as a way to help students select the best skills based courses for them.
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