Course Overview

This fully online course is structured to provide a comprehensive understanding of electrical machines, starting with an introduction to electric machines and moving into more complex topics such as DC machines, transformers, and induction machines. You’ll also explore the principles of magnetic circuits and the theoretical aspects of electrical generation. The course covers the construction, operation, and theoretical functions of these machines, providing you with the theoretical knowledge you need to understand their applications in various industries.

Learning Outcomes

By the end of this course, you will:

Understand the fundamental principles of electrical machines
Learn the theoretical working of DC machines, transformers, and induction machines
Be able to explain the role and application of magnetic circuits in electrical engineering
Understand the construction and function of synchronous and induction machines
Develop a strong theoretical foundation in electrical machine operation

Why Enrol in This Course?

Electrical machines play a critical role in the generation, transmission, and application of electrical power. Understanding the theory behind these machines is essential for anyone pursuing a career in electrical engineering. This CPD-accredited course equips you with the knowledge necessary to understand how electrical machines function, helping to build the foundation for more advanced studies or professional roles in electrical engineering.
What you gain:

A CPD-accredited certificate to enhance your professional qualifications
A detailed understanding of electrical machines, magnetic circuits, and their theoretical operation
Lifetime access to course materials for continued learning

Who is This Course for?

This course is ideal for:

Aspiring electrical engineers looking to understand the theoretical aspects of electrical machines
Students studying electrical engineering or related fields
Professionals in the electrical industry wishing to expand their knowledge of electrical machines
Anyone with an interest in the principles behind electrical machine operation

Prerequisites for This Course

There are no formal prerequisites for the Electrical Machines for Electrical Engineering course. This course is suitable for beginners and professionals seeking to enhance their understanding of electrical machines and their applications.

Certification

Upon completing the course and passing the final exam, you will receive a CPD QS Accredited Certificate from Apex Learning. This certification demonstrates your qualifications and skills. The Digital version of the certificate is available for a discounted price of £9.99 only, and you can order a hard copy of the certificate for a discounted price of £14.99 only.

📍Note: Discounted certificate pricing is available for a limited time only. Secure yours before the offer ends!

Career Path

Upon completing the Electrical Machines for Electrical Engineering course, you will be equipped with the foundational knowledge to pursue roles such as:

Electrical Engineer – £30,000 to £50,000 annually
Design, maintain, and optimise electrical machines used in industrial and commercial applications.
Power Systems Engineer – £35,000 to £60,000 annually
Work with power systems, ensuring electrical machines are correctly integrated for efficient energy distribution.
Electrical Design Engineer – £40,000 to £70,000 annually
Specialise in the design and specification of electrical machines for various applications.
Maintenance Engineer – £28,000 to £45,000 annually
Oversee the operation and maintenance of electrical machinery, ensuring systems operate efficiently.

Electrical Machines for Electrical Engineering | CPD Accredited Course Online – UK

Explore the world of electrical machines with the Electrical Machines for Electrical Engineering course. This CPD-accredited course is designed for anyone interested in understanding the theoretical principles behind electrical machines, including DC machines, transformers, and induction machines. Whether you’re starting a career in electrical engineering or looking to expand your existing knowledge, this course provides the foundational understanding of how electrical machines work and their essential role in the electrical engineering industry.

Course Overview
This fully online course is structured to provide a comprehensive understanding of electrical machines, starting with an introduction to electric machines and moving into more complex topics such as DC machines, transformers, and induction machines. You’ll also explore the principles of magnetic circuits and the theoretical aspects of electrical generation. The course covers the construction, operation, and theoretical functions of these machines, providing you with the theoretical knowledge you need to understand their applications in various industries.

Learning Outcomes

By the end of this course, you will:

Understand the fundamental principles of electrical machines
Learn the theoretical working of DC machines, transformers, and induction machines
Be able to explain the role and application of magnetic circuits in electrical engineering
Understand the construction and function of synchronous and induction machines
Develop a strong theoretical foundation in electrical machine operation

Why Enrol in This Course?

A CPD-accredited certificate to enhance your professional qualifications
A detailed understanding of electrical machines, magnetic circuits, and their theoretical operation
Lifetime access to course materials for continued learning

Who is This Course for?

This course is ideal for:

Aspiring electrical engineers looking to understand the theoretical aspects of electrical machines
Students studying electrical engineering or related fields
Professionals in the electrical industry wishing to expand their knowledge of electrical machines
Anyone with an interest in the principles behind electrical machine operation

Prerequisites

Assessment Method

Assessment for the course is conducted through an automated multiple-choice exam. A score of 60% is required to pass and earn the CPD Accredited Certificate. Reflective assignments are provided to enhance your learning, with expert tutor feedback available.

Certification

📍Note: Discounted certificate pricing is available for a limited time only. Secure yours before the offer ends!

Career Path

Upon completing the Electrical Machines for Electrical Engineering course, you will be equipped with the foundational knowledge to pursue roles such as:

Electrical Engineer – £30,000 to £50,000 annually
Design, maintain, and optimise electrical machines used in industrial and commercial applications.
Power Systems Engineer – £35,000 to £60,000 annually
Work with power systems, ensuring electrical machines are correctly integrated for efficient energy distribution.
Electrical Design Engineer – £40,000 to £70,000 annually
Specialise in the design and specification of electrical machines for various applications.
Maintenance Engineer – £28,000 to £45,000 annually
Oversee the operation and maintenance of electrical machinery, ensuring systems operate efficiently.

Frequestly Asked Questions

Is this course suitable for beginners?

Yes, the course is designed for those new to electrical machines as well as individuals with some basic knowledge of electrical engineering.

Will I receive a certificate upon completion of the course?

Yes, you will receive a CPD-accredited certificate after successfully completing the course.

How long will I have access to the course materials?

You will have lifetime access to all course content, allowing you to revisit the material as needed.

Can I take this course online?

Yes, this course is fully online, providing flexibility to study at your own pace.

Course Curriculum

Expand All

9 sections
18 lectures
00:00:00 total length

Expand all sections

Unit 1: Introduction to Electric Machines

Module 1- Introduction to Electric Machines

00:03:00
Module 2- Types of Electric Machines and Principle of Electrical Generation

00:09:00

Unit 2: DC Machines

Module 1- Importance and Construction of DC Machines

00:26:00
Module 2- Armature Winding and EMF Equation

00:40:00
Module 3-Solved Example 1

00:05:00
Module 4-Solved Example 2

00:04:00
Module 5-Solved Example 3

00:07:00
Module 6-Solved Example 4

00:06:00
Module 7-Separately Excited DC Machine

00:21:00
Module 8-Shunt and Series DC Machines

00:25:00
Module 9-Solved Example 1 on Separately Excited DC Machine

00:07:00
Module 10-Solved Example 2 on Separately Excited DC Machine

00:07:00
Module 11-Solved Example 3 on Shunt Generator

00:04:00
Module 12-Solved Example 4 on Shunt Generator

00:07:00
Module 13-Solved Example 5 on Series DC Generator

00:06:00
Module 14-Types and Applications of Compound DC Motors

00:07:00
Module 15- Torque-Speed Characteristics and Speed Control of Separately Excited DC Motor

00:33:00
Module 16- Torque-Speed Characteristics of Series DC Motor

00:08:00
Module 17-Solved Example 1 on Speed Control

00:08:00
Module 18-Solved Example 2 on Speed Control

00:06:00
Module 19- Starting of DC Machine

00:14:00
Module 20- Armature Reaction in DC Machines

00:10:00
Module 21-Losses in DC Machines

00:04:00

Unit 3: Construction of Transformers

Module 1- What is a Transformer

00:02:00
Module 2- Importance of Transformer

00:04:00
Module 3-Iron Core of Transformer

00:04:00
Module 4- Magnetic Circuit Inside Transformer

00:05:00
Module 5- Windings of Transformer

00:03:00
Module 6- Why are Windings Made of Copper

00:01:00
Module 7- Classification of Windings

00:05:00
Module 8- Insulating Material and Transformer Oil

00:02:00
Module 9- Conservator of Transformer

00:03:00
Module 10- Breather of Transformer

00:04:00
Module 11- Bushings of Transformer

00:04:00
Module 12- Tap Changer of Transformer

00:03:00
Module 13- Cooling Tubes of Transformer

00:01:00
Module 14- Buchholz Relay of Transformer

00:02:00
Module 15- Explosion Vent

00:02:00
Module 16- Methods of Cooling

00:03:00
Module 17-Types of Transformers

00:03:00
Module 18- Power Transformer and Distribution Transformer

00:05:00
Module 19- Single Phase Core Type Transformer

00:04:00
Module 20-Single Phase Shell Type Transformer

00:05:00
Module 21- 3 Phase Core Type

00:02:00
Module 22- 3 Phase Shell Type

00:01:00
Module 23- Comparison between Shell and Core CSA

00:01:00
Module 24- Comparison between Shell and Core Type

00:01:00
Module 25- Notes

00:03:00
Module 26-Video Explaining The Components in 3D and Real Life

00:05:00

Unit 4: Fundamentals of Magnetic Circuits

Module 1- Introduction to Magnetic Circuits

00:02:00
Module 2- Induced Emf and Current

00:04:00
Module 3- Ampere Right Hand Rule

00:04:00
Module 4- Magnetic Circuit and Important Definitions

00:06:00
Module 5- Linear and Non Linear Materials

00:03:00
Module 6-Flux Linkage and Reluctance

00:04:00
Module 7- Analogy between Electric and Magnetic Circuits

00:06:00
Module 8- Fringing Effect

00:02:00
Module 9- Example 1 Magnetic Circuits

00:07:00
Module 10- Example 2

00:03:00
Module 11- Example 3

00:06:00
Module 12- Application on Magnetic Circuit – Transformers

00:04:00

Unit 5: Theoretical Part on Transformers

Module 1- Introduction to Transformers

00:02:00
Module 2- Construction of Transformer

00:02:00
Module 3-Theory of Operation

00:04:00
Module 4- Ideal Transformer

00:05:00
Module 5-Non Ideal Transformer

00:02:00
Module 6- Effect of Loading on Transformer

00:03:00
Module 7- Transformer Regulation

00:03:00
Module 8- Transformer Losses

00:03:00
Module 9- Transformer Efficiency

00:05:00
Module 10- Transformer Rating

00:02:00
Module 11- Question 1

00:01:00
Module 12- Question 2

00:02:00
Module 13- Question 3

00:01:00
Module 14- Example 1

00:01:00
Module 15- Voltage Relation of Transformer

00:04:00
Module 16- Transformer Exact Equivalent Circuit

00:06:00
Module 17- Concept of Refereeing

00:04:00
Module 18- Approximate Equivalent Circuit

00:02:00

Unit 6: Synchronous Machines

Module 1- Construction and Principle of Operation of Synchronous Generator

00:29:00
Module 2- Principle of Operation of Synchronous Motor

00:24:00
Module 3- Equivalent Circuit and Phasor Diagram of Non Salient Synchronous Machine

00:29:00
Module 4-Solved Example 1 on Non Salient Machine

00:05:00
Module 5-Solved Example 2 on Non Salient Machine

00:11:00
Module 6-Solved Example 3 on Non Salient Machine

00:07:00
Module 7- Solved Example 4 on Non Salient Machine

00:04:00
Module 8-Solved Example 5 on Non Salient Machine

00:07:00
Module 9-Solved Example 6 on Non Salient Machine

00:03:00
Module 10- Equivalent Circuit and Phasor Diagram of Salient Synchronous Machine

00:39:00
Module 11-Solved Example 1 on Salient Machine

00:09:00
Module 12- Solved Example 2 on Salient Machine

00:05:00
Module 13-Solved Example 3 on Salient Machine

00:10:00
Module 14- Parallel Operation of Two Generators

00:17:00
Module 15- Synchronization of Machine with Grid

00:10:00