The Electrical Machines for Electrical Engineering course teaches you everything on the topic thoroughly from scratch so you can achieve a professional certificate for free to showcase your achievement in professional life. This Electrical Machines for Electrical Engineering training is a comprehensive, instructor-guided course, designed to provide a detailed understanding of the nature of the related sector and your key roles within it.
To become successful in your profession, you must have a specific set of skills to succeed in today’s competitive world. In this in-depth training course, you will develop the most in-demand skills to kickstart your career, as well as upgrade your existing knowledge & skills.
The training materials of this This Electrical Machines for Electrical Engineering course are available online for you to learn at your own pace and fast-track your career with ease.
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Who Should Take The Electrical Machines for Electrical Engineering Course
Anyone with a knack for learning new skills can take this Electrical Machines for Electrical Engineering training. While this comprehensive training is popular for preparing people for job opportunities in the relevant fields, it also helps to advance your career for promotions.Certification
Once you’ve successfully completed your Electrical Machines for Electrical Engineering course, you will immediately be sent a digital certificate. Our certifications have no expiry dates, although we do recommend that you renew them every 12 months.Accreditation
All of our courses, including this Electrical Machines for Electrical Engineering training course, are fully accredited, providing you with up-to-date skills and knowledge and helping you to become more competent and effective in your chosen field.Assessment
At the end of the course, there will be an online assessment, which you will need to pass to complete the course. Answers are marked instantly and automatically, allowing you to know straight away whether you have passed. If you haven’t, there’s no limit on the number of times you can take the final exam. All this is included in the one-time fee you paid for the course itself.Course Curriculum
Unit 1: Introduction to Electric Machines Unit 2: DC Machines Unit 3: Construction of Transformers Unit 4: Fundamentals of Magnetic Circuits Unit 5: Theoretical Part on Transformers Unit 6: Synchronous Machines Unit 7: Induction Machines
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Course Curriculum
| Unit 1: Introduction to Electric Machines | |||
| Module 1- Introduction to Electric Machines | |||
| Module 2- Types of Electric Machines and Principle of Electrical Generation | |||
| Unit 2: DC Machines | |||
| Module 1- Importance and Construction of DC Machines | |||
| Module 2- Armature Winding and EMF Equation | |||
| Module 3-Solved Example 1 | |||
| Module 4-Solved Example 2 | |||
| Module 5-Solved Example 3 | |||
| Module 6-Solved Example 4 | |||
| Module 7-Separately Excited DC Machine | |||
| Module 8-Shunt and Series DC Machines | |||
| Module 9-Solved Example 1 on Separately Excited DC Machine | |||
| Module 10-Solved Example 2 on Separately Excited DC Machine | |||
| Module 11-Solved Example 3 on Shunt Generator | |||
| Module 12-Solved Example 4 on Shunt Generator | |||
| Module 13-Solved Example 5 on Series DC Generator | |||
| Module 14-Types and Applications of Compound DC Motors | |||
| Module 15- Torque-Speed Characteristics and Speed Control of Separately Excited DC Motor | |||
| Module 16- Torque-Speed Characteristics of Series DC Motor | |||
| Module 17-Solved Example 1 on Speed Control | |||
| Module 18-Solved Example 2 on Speed Control | |||
| Module 19- Starting of DC Machine | |||
| Module 20- Armature Reaction in DC Machines | |||
| Module 21-Losses in DC Machines | |||
| Unit 3: Construction of Transformers | |||
| Module 1- Introduction to Transformers | |||
| Module 2- Importance of Transformer | |||
| Module 3-Iron Core of Transformer | |||
| Module 4- Magnetic Circuit Inside Transformer | |||
| Module 5- Windings of Transformer | |||
| Module 6- Why are Windings Made of Copper | |||
| Module 7- Classification of Windings | |||
| Module 8- Insulating Material and Transformer Oil | |||
| Module 9- Conservator of Transformer | |||
| Module 10- Breather of Transformer | |||
| Module 11- Bushings of Transformer | |||
| Module 12- Tap Changer of Transformer | |||
| Module 13- Cooling Tubes of Transformer | |||
| Module 14- Buchholz Relay of Transformer | |||
| Module 15- Explosion Vent | |||
| Module 16- Methods of Cooling | |||
| Module 17-Types of Transformers | |||
| Module 18- Power Transformer and Distribution Transformer | |||
| Module 19- Single Phase Core Type Transformer | |||
| Module 20-Single Phase Shell Type Transformer | |||
| Module 21- 3 Phase Core Type | |||
| Module 22- 3 Phase Shell Type | |||
| Module 23- Comparison between Shell and Core CSA | |||
| Module 24- Comparison between Shell and Core Type | |||
| Module 25- Notes | |||
| Module 26-Video Explaining The Components in 3D and Real Life | |||
| Unit 4: Fundamentals of Magnetic Circuits | |||
| Module 1- Introduction to Magnetic Circuits | |||
| Module 2- Induced Emf and Current | |||
| Module 3- Ampere Right Hand Rule | |||
| Module 4- Magnetic Circuit and Important Definitions | |||
| Module 5- Linear and Non Linear Materials | |||
| Module 6-Flux Linkage and Reluctance | |||
| Module 7- Analogy between Electric and Magnetic Circuits | |||
| Module 8- Fringing Effect | |||
| Module 9- Example 1 Magnetic Circuits | |||
| Module 10- Example 2 | |||
| Module 11- Example 3 | |||
| Module 12- Application on Magnetic Circuit – Transformers | |||
| Unit 5: Theoretical Part on Transformers | |||
| Module 1- Introduction to Transformers | |||
| Module 2- Construction of Transformer | |||
| Module 3-Theory of Operation | |||
| Module 4- Ideal Transformer | |||
| Module 5-Non Ideal Transformer | |||
| Module 6- Effect of Loading on Transformer | |||
| Module 7- Transformer Regulation | |||
| Module 8- Transformer Losses | |||
| Module 9- Transformer Efficiency | |||
| Module 10- Transformer Rating | |||
| Module 11- Question 1 | |||
| Module 12- Question 2 | |||
| Module 13- Question 3 | |||
| Module 14- Example 1 | |||
| Module 15- Voltage Relation of Transformer | |||
| Module 16- Transformer Exact Equivalent Circuit | |||
| Module 17- Concept of Refereeing | |||
| Module 18- Approximate Equivalent Circuit | |||
| Unit 6: Synchronous Machines | |||
| Module 1- Construction and Principle of Operation of Synchronous Generator | |||
| Module 2- Principle of Operation of Synchronous Motor | |||
| Module 3- Equivalent Circuit and Phasor Diagram of Non Salient Synchronous Machine | |||
| Module 4-Solved Example 1 on Non Salient Machine | |||
| Module 5-Solved Example 2 on Non Salient Machine | |||
| Module 6-Solved Example 3 on Non Salient Machine | |||
| Module 7- Solved Example 4 on Non Salient Machine | |||
| Module 8-Solved Example 5 on Non Salient Machine | |||
| Module 9-Solved Example 6 on Non Salient Machine | |||
| Module 10- Equivalent Circuit and Phasor Diagram of Salient Synchronous Machine | |||
| Module 11-Solved Example 1 on Salient Machine | |||
| Module 12- Solved Example 2 on Salient Machine | |||
| Module 13-Solved Example 3 on Salient Machine | |||
| Module 14- Parallel Operation of Two Generators | |||
| Module 15- Synchronization of Machine with Grid | |||
| Unit 7: Induction Machines | |||
| Module 1- Construction and Theory of Operation of Induction Machines | |||
| Module 2- Equivalent Circuit and Power Flow in Induction Motor | |||
| Module 3- Torque-Speed Characteristics of Induction Motor | |||
| Module 4- Solved Example 1 on Induction Motor | |||
| Module 5-Solved Example 2 on Induction Motor | |||
| Module 6-Solved Example 3 on Induction Motor | |||
| Module 7-Solved Example 4 on Induction Motor | |||
| Module 8-Solved Example 5 on Induction Motor | |||
| Module 9- Methods of Speed Control of Induction Motor | |||
| Module 10- Methods of Starting of Induction Motor | |||
| Module 11-Solved Example on Motor Starter | |||
| Module 12- Principle of Operation of Doubly Fed Induction Generator | |||
| Module 13-Self Excited Induction Generator | |||