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Mastering Electrical Machines: Theory, Design, Applications - Panter - 13.10.2024
![[Bild: 63da3a8b61a097ffc17209b7f8e9418e.jpg]](https://i124.fastpic.org/big/2024/1009/8e/63da3a8b61a097ffc17209b7f8e9418e.jpg)
Mastering Electrical Machines: Theory, Design, Applications
Published 10/2024
Created by Amr Saleh
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 307 Lectures ( 49h 33m ) | Size: 20.8 GB
[b]What you'll learn:[/b]
DC machines principles
DC generators types, features, and applications
Performance of DC generators
DC motors types, features, and applications
Speed control of DC motors
DC machine testing
Practical projects on DC machine in MATLAB
Principles of synchronous machines
Synchronous generators types, models, and characteristics
Manufacturing of alternator windings
Factors affecting the alternator voltage
Role of governor control (ALFC) in alternators
Role of excitation control (AVR) in alternators
Types of exciters used in alternators
Synchronous generator testing
Performance and characteristics of stand alone generator
Behavior of alternator operating with large power system
Synchronization process of alternators with grid
Parallel operation of alternators
House diagram of alternators
Synchronous generator ratings
Learn how to read the nameplate of alternator
Capability diagram and P-Q chart of alternators
Complete analysis of salient pole alternators
Synchronous motors principles, working, model, and analysis
Starting of synchronous motors
Complete design of synchronous machines
Stator and rotor design with several design problems
Practical projects on synchronous machines in MATLAB
Three phase induction motors overview
Induction motors construction, types, model, and characteristics
Starting methods of induction motors
Speed control of induction motors (Speed drives)
Learn how variable frequency drives ( VFD) work
Complete study of single phase induction motors
Realize different methods to start single phase induction motors
Induction motors testing
Induction generators (Types, applications, features )
Practical projects on induction machines in MATLAB.
Requirements:
Electrical engineering fundamentals
Passion to learn about DC machines from A to Z
Passion to learn about synchronous machines from begineer to expert
Passion to learn about induction machines from A to Z
Description:
Hi and welcome everyone to our course " Mastering Electrical Machines: Theory, Design, Applications"This comprehensive 50-hour course is designed to provide in-depth knowledge and hands-on understanding of three fundamental types of electrical machines: DC machines, Synchronous machines, and Induction machines.Whether you are an electrical engineering student, a professional in the field, or someone seeking to enhance your expertise in electrical machines, this course will equip you with both theoretical foundations and practical applications crucial for mastering these machines.Course Structure:The course is divided into three comprehensive courses, each focusing on a specific type of machine:Course # 1 : DC MachinesThe following topics are discussed in details:Introduction to DC machine principlesConstruction and operating principles.Armature reaction, commutation, and armature windings.DC generators types, features, and applicationsPerformance characteristics and efficiency analysis of DC generatorsDC motors types, features, and applicationsStarting methods of DC motorsControl methods, including speed control and torque regulation in DC motorsDC machine testing Practical projects and applications on DC machine in MATLAB.Course # 2 : Synchronous MachinesThe following topics are discussed in details:Principles of synchronous machinesSynchronous generators types, models, and characteristicsManufacturing of alternator windingsFactors affecting the alternator voltageRole of governor control (ALFC) in alternatorsRole of excitation control (AVR) in alternatorsTypes of exciters used in alternatorsSynchronous generator testingPerformance and characteristics of stand alone generatorBehavior of alternator operating with large power systemSynchronization process of alternators with gridParallel operation of alternatorsHouse diagram of alternatorsSynchronous generator ratingsLearn how to read the nameplate of alternatorCapability diagram and P-Q chart of alternatorsComplete analysis of salient pole alternatorsReluctance motorsSynchronous motors principles, working, model, and analysisSynchronous condenserStarting of synchronous motorsComplete design of synchronous machinesStator and rotor design with several design problemsPractical projects on synchronous machines in MATLAB.Course # 3 : Induction MachinesThree phase induction motors overviewInduction motors construction, types, model, and characteristics.Starting methods of induction motorsDirect online, Start-delta starter, auto-transformer starter, soft starter, Rotor resistance starterSpeed control of induction motors (Speed drives)V- control, F- control , V/F control, rotor resistance control, slip energy recovery controlVariable frequency drives (VFD)Complete study of single phase induction motorsRealize different methods to start single phase induction motorsInduction motors testingInduction generators (Types, applications, features)Practical projects on induction machines in MATLAB.Course Materials and Resources:Detailed lecture notes and reference material .900 lecture slides provided for you !!Interactive quizzes and assignments for each course to reinforce learning.High quality video tutorials and demonstrations for simple understanding.Practical projects on MATLAB to model machine performance in electric systemMATLAB Simulink files related to electrical machines provided for you !! By the end of this course, you will be able to cover all the principles of operation, design, and performance analysis of these machines through realizing real-world examples, industrial applications, and troubleshooting techniques.Thank you very much for you time.See you in the course !
Who this course is for:
Electrical Engineering Students (Undergraduate and graduate students).
Professional engineers in power generation, motors, and industrial machinery.
Technicians and Electricians seeking to improve practical skills on electrical machines.
Educators and Trainers updating their knowledge or teaching resources.
Researchers and Academics focused on electrical machines and systems.
Industry Professionals in renewable energy, automation, or manufacturing.
Maintenance Engineers for the maintenance of electrical machines in industrial factories.
Power Plant Operators working in power generation facilities.
Any one having passion to learn everything about electrical machines from scratch.
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