Ultimate Electrical Machines for Electrical Engineering from Udemy

Master electrical machines with the most comprehensive course available, packed with over 50 hours of expert instruction, 250 lectures, and step-by-step lessons that make even the most complex topics simple to understand. Each section is loaded with real-world solved examples, ensuring you can apply these concepts in practice, not just theory.

Whether you're a beginner or experienced engineer, this course breaks down essential concepts in magnetic circuits, transformers, DC machines, and more. From basic magnetic permeability to advanced synchronous machine simulations, everything is explained in clear, everyday language, making even the toughest topics accessible.
With 50+ solved examples, you’ll see how to tackle real-life electrical machine problems, from calculating transformer efficiency to analyzing the torque-speed characteristics of motors. Every example is designed to reinforce your learning and ensure you have the practical skills to excel.
Explore single-phase and three-phase transformers from construction to advanced circuit analysis, or dive into the world of DC machines, covering every aspect from armature reaction to motor speed control. Our detailed explanations and practical examples will make you confident in handling both ideal and practical machine problems.
Master MATLAB Simulink and ETAP with hands-on projects that include electrical transformers simulations, DC motor modeling, induction motor simulation, and power system analysis. You’ll learn how to perform load flow studies, arc flash analysis, and much more, giving you the simulation skills needed in today’s industry.
Learn how to protect electrical systems effectively by diving into NEC standards for motor overcurrent protection. You’ll cover everything from selecting disconnect switches to designing motor protection systems, with practical examples that ensure you know how to meet regulatory standards.

Bonus Gift: Ultimate Electrical Machines Course Bundle Slides

As a special bonus, you’ll receive the full Ultimate Electrical Machines Course Bundle slides—perfect for revision or as a quick reference guide. These slides break down complex subjects with simple, concise explanations:

45 Pages on Magnetic Circuits
161 Pages on Electrical Transformers
180 Pages on DC Machines
62 Pages on Induction Machines
57 Pages on Synchronous Machines
73 Pages on NEC Sizing for Conductors, Overcurrent, and Overload
72 Pages on Disconnect Switches
36 Pages on Breakers, Fuses, and Power Factor.
39 Pages on PLC Programming Using LogixPro.

These slides give you everything you need for a quick refresh or detailed study, making your learning even more efficient.

Why Choose This Course?

Comprehensive and Practical: Covers the essential theory and provides real-world examples, simulations, and applications.
Interactive Simulations: Hands-on learning with MATLAB Simulink and ETAP, preparing you for real-life challenges.
Step-by-Step Instruction: Clear, easy-to-follow guidance ensures you never feel lost.
Bonus Material: Instant access to course slides for revision and deeper insight.

Take the Ultimate Course Bundle for Complete Mastery

This is more than just a course—it's your complete learning package for electrical machines. Whether you're preparing for exams, upskilling for work, or simply passionate about electrical machines, this course gives you the tools and confidence to succeed.

Start learning today and become an expert in electrical machines.

What's inside

Syllabus

Course Content

Magnetic Circuits

Magnetic Flux, Flux Density, and MMF

Magnetic Permeability, Magnetic Intensity, and Reluctance

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers magnetic circuits, transformers, and DC machines, which are fundamental topics for electrical engineering students and practicing engineers

Includes hands-on projects using MATLAB Simulink and ETAP, which are industry-standard software tools for electrical system simulation and analysis

Explores NEC standards for motor overcurrent protection, which is essential knowledge for electrical engineers involved in designing and maintaining electrical systems

Provides a comprehensive set of slides covering magnetic circuits, transformers, DC machines, induction machines, synchronous machines, and NEC sizing, which can serve as a valuable reference for electrical engineers

Requires learners to use MATLAB Simulink and ETAP, which may require a license or subscription fee to use the software

Reviews summary

Comprehensive practical electrical machines guide

According to learners, this course offers a highly comprehensive and practical guide to electrical machines. Many appreciate the step-by-step explanations and the inclusion of numerous real-world solved examples, which help solidify theoretical concepts. The sections on MATLAB Simulink and ETAP simulations are frequently highlighted as particularly valuable, providing essential hands-on experience. While the course is extensive, covering everything from magnetic circuits to DC machines, transformers, and even NEC standards, some note its significant length (over 50 hours) and suggest it might be intense for absolute beginners, requiring dedication. Overall, students find it an excellent resource for building a strong foundation and gaining practical skills in electrical engineering.

May be challenging for those without background.

"While described as suitable for beginners, some parts felt quite advanced if you don't have a prior electrical background."

"I needed to supplement some lectures with additional reading as a beginner."

Requires significant time investment.

"This is a very long course, which is great for depth but requires a significant time commitment."

"While comprehensive, the sheer volume of lectures can be overwhelming at times."

"It takes a lot of effort to get through all 50+ hours, but the content justifies it."

Useful reference material.

"The bonus slides are a fantastic resource for quick review and reference."

"I found the downloadable slides helpful for studying offline."

Concepts are broken down clearly.

"The instructor explains the topics in a clear, step-by-step manner, making complex ideas easy to follow."

"I appreciated the systematic approach to teaching each concept before moving on."

"This course breaks down topics into manageable lessons, which helped me understand them better."

Strong focus on real-world applications.

"The solved examples were extremely helpful in understanding how to apply the concepts."

"The simulations using MATLAB Simulink and ETAP added a crucial practical dimension to the learning."

"I found the real-world examples and case studies very useful for practical application."

"Learning simulations has been a significant benefit for my practical skills."

Covers a wide range of essential topics.

"This course is very comprehensive, covering everything from magnetic circuits to different types of electrical machines."

"I appreciate how this course covers both theoretical concepts and practical applications, including simulations."

"The breadth of topics covered, from transformers to DC machines and protection standards, is impressive."

"I gained a solid understanding of various electrical machines thanks to the detailed content provided."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Ultimate Electrical Machines for Electrical Engineering with these activities:

Review Basic Circuit Analysis

Show steps

Reinforce your understanding of fundamental circuit analysis techniques. This will provide a solid foundation for understanding the behavior of electrical machines.

Browse courses on Kirchhoff's Laws

Show steps

Review key concepts like Ohm's Law and Kirchhoff's Laws.
Practice solving simple series and parallel circuit problems.
Work through nodal and mesh analysis examples.

Review 'Electrical Machines, Drives, and Power Systems' by Theodore Wildi

Show steps

Gain a broader and deeper understanding of electrical machines and their applications. This book serves as a valuable reference throughout the course.

View Electrical Machines, Drives, and Power Systems on Amazon

Show steps

Read the chapters related to transformers and DC machines.
Work through the example problems in the book.
Compare the book's explanations with the course material.

Transformer Parameter Calculations

Show steps

Sharpen your skills in calculating transformer parameters from open-circuit and short-circuit test data. This will improve your ability to analyze transformer performance.

Show steps

Gather open-circuit and short-circuit test data for various transformers.
Calculate the equivalent circuit parameters (resistance, reactance).
Compare your calculated values with manufacturer specifications.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Delve into 'Electric Machinery and Power System Fundamentals' by Stephen Chapman

Show steps

Solidify your understanding of electric machinery fundamentals and their connection to power systems. This book provides a broader context for the course material.

View Electric Machinery Fundamentals on Amazon

Show steps

Focus on the chapters covering synchronous and induction machines.
Solve the end-of-chapter problems to test your understanding.
Relate the book's content to the course's simulation exercises.

Simulate a DC Motor Speed Control System

Show steps

Apply your knowledge of DC machines and control systems to simulate a speed control system. This will enhance your understanding of motor control techniques.

Show steps

Model a DC motor in Simulink or a similar simulation environment.
Implement a closed-loop speed control system using a PID controller.
Tune the controller parameters to achieve desired performance.
Analyze the system's response to different load conditions.

Create a Presentation on Motor Protection

Show steps

Deepen your knowledge of motor protection techniques and NEC standards. This will improve your ability to design and implement effective protection systems.

Show steps

Research different motor protection methods (overload, overcurrent, etc.).
Study the relevant sections of the National Electrical Code (NEC).
Prepare a presentation summarizing your findings and recommendations.
Present your findings to peers for feedback.

Explore Advanced Simulink Techniques for Machine Modeling

Show steps

Enhance your Simulink skills for more accurate and efficient machine modeling. This will allow you to perform more complex simulations and analyses.

Show steps

Search for online tutorials on advanced Simulink features.
Practice implementing these techniques in your machine models.
Compare the results with simpler modeling approaches.

Career center

Learners who complete Ultimate Electrical Machines for Electrical Engineering will develop knowledge and skills that may be useful to these careers:

Electrical Engineer

An electrical engineer designs, develops, tests, and supervises the manufacturing of electrical equipment. This equipment includes electric motors, machinery controls, lighting, and wiring in buildings, cars, aircraft, and other products. This course helps build a foundation in electrical machines, covering magnetic circuits, transformers, and DC machines. The step-by-step lessons and real-world solved examples in the course ensure you can apply concepts in practice, essential for an electrical engineer working with complex systems. This course may be useful for understanding the practical applications of electrical machines and their simulations, as well as for mastering the components of electrical systems.

See salaries and explore the career path for Electrical Engineer

Design Engineer

A design engineer is responsible for creating and developing new electrical products or improving existing ones. This course helps people in design roles by providing them with a comprehensive understanding of electrical machines. The course covers essential theory and provides real-world examples, simulations, and applications. In particular, the sections on magnetic circuits, transformers, DC machines, induction machines, and synchronous machines may be quite helpful. This is a great course for understanding how to apply electrical machine principles in design.

See salaries and explore the career path for Design Engineer

Power Engineer

A power engineer is responsible for the design, development, maintenance, and testing of power systems and equipment. This includes power generation, transmission, and distribution systems. This course helps build a foundation in electrical machines, which is essential for power engineers. With its coverage of topics such as transformers, DC machines, and synchronous machines, this course provides a broad understanding of the equipment used in power systems. Hands-on projects with MATLAB Simulink and ETAP, including electrical transformer simulations and power system analysis, may be especially helpful. The simulations can give you the skills needed in today's industry.

See salaries and explore the career path for Power Engineer

Control Systems Engineer

A control systems engineer designs and develops systems that control machines, processes, and other equipment. These engineers need a strong understanding of electrical machines and how they are controlled. This course may be particularly helpful, as it explores DC machines and induction machines, and covers topics such as motor speed control. Further, the course emphasizes applying concepts in practice. Simulations with MATLAB Simulink and ETAP, may give you the skills to model and analyze electrical systems, so this course is great for understanding the practical implications of control system design.

See salaries and explore the career path for Control Systems Engineer

Test Engineer

A test engineer develops and implements testing plans and procedures for electrical and electronic systems. Test engineers need a solid understanding of electrical machines to ensure the equipment functions correctly and safely. This course may be useful for anyone in a test engineering role, and provides a detailed look at electrical machines and their components. With topics ranging from magnetic circuits to transformer efficiency and motor characteristics, the course helps build the knowledge needed to design effective tests. The practical examples and simulations also provide a good understanding of real-world applications.

See salaries and explore the career path for Test Engineer

Power Systems Analyst

A power systems analyst is responsible for analyzing the performance and reliability of electrical power systems. People in this role use software tools to model power grids and simulate different operating conditions. This course can help build a foundation in electrical machines. With a strong understanding of how key components like transformers and generators work you can better evaluate overall system performance. The course incorporates simulations with MATLAB Simulink and ETAP that may be helpful for modeling electrical systems.

See salaries and explore the career path for Power Systems Analyst

Maintenance Engineer

A maintenance engineer is responsible for ensuring that industrial machinery and equipment runs smoothly and reliably. They plan and execute maintenance schedules, troubleshoot equipment issues, and implement repairs or improvements. This course helps build a foundation in electrical machines, which is essential for maintenance engineers who work with electric motors, transformers, and other electrical equipment. The course's practical examples and simulations may be useful for diagnosing and fixing real-world problems. This can result in more efficient and effective maintenance procedures.

See salaries and explore the career path for Maintenance Engineer

Application Engineer

An application engineer works with customers to understand their technical needs and then recommends or designs solutions using a company's products. If you want to be an applications engineer, this course helps build a foundation in electrical machines. Key topics include magnetic circuits, transformers, and DC machines. The real-world solved examples show you how to apply these concepts in practice, not just theory. This course goes over simulations with MATLAB Simulink and ETAP, which may give you the skills to model and analyze electrical systems.

See salaries and explore the career path for Application Engineer

Electrical Technician

An electrical technician installs, maintains, and repairs electrical systems and equipment. They work with wiring diagrams, test equipment, and a variety of hand and power tools. This role requires a practical understanding of electrical machines. This course helps build a foundation in essential electrical machine concepts, like magnetic circuits, transformers, and DC machines. The step-by-step lessons and real-world solved examples in the course ensure they can apply concepts in practice. This course may be useful for anyone seeking to solidify their skills in diagnosing and troubleshooting electrical machine issues.

See salaries and explore the career path for Electrical Technician

Energy Engineer

An energy engineer develops and implements strategies to improve energy efficiency, reduce costs, and promote sustainable energy practices. They may work on projects involving renewable energy sources, energy storage systems, and smart grids. This course helps build a foundation in electrical machines, which is essential for understanding how energy is generated, transmitted, and used. The course may be particularly useful for energy engineers working with electric motors, generators, or transformers. The practical examples and simulations may be helpful for analyzing the performance of electrical systems and identifying opportunities for improvement.

See salaries and explore the career path for Energy Engineer

Project Engineer

Project engineers oversee the planning, implementation, and tracking of specific projects, often in the electrical or manufacturing industries. This course may be helpful for building knowledge of electrical machines, with topics such as magnetic circuits, transformers, and DC machines. The course also incorporates simulations with MATLAB Simulink and ETAP, which can be useful for understanding how electrical systems are modeled and analyzed. The real-world solved examples may be especially helpful for understanding the practical implications of electrical engineering principles.

See salaries and explore the career path for Project Engineer

System Integrator

A system integrator is responsible for bringing together different components or subsystems to form a complete functioning system. This job requires a good understanding of electrical machines and how they interact with other components. This course may be useful, as it covers a wide range of topics, including magnetic circuits, transformers, and DC machines. The course emphasizes applying concepts in practice through real-world solved examples and hands-on simulations. These simulations may give you the skills to design and troubleshoot integrated systems.

See salaries and explore the career path for System Integrator

Robotics Engineer

A robotics engineer designs, builds, tests, and maintains robots and robotic systems. This role requires a solid understanding of electrical machines, especially motors and control systems, to ensure robots function efficiently and effectively. This course helps build a foundation in the principles of electrical machines, covering essential topics such as DC machines, induction machines, and motor control. Further, the hands-on projects with MATLAB Simulink and ETAP may be helpful for modeling and simulating robotic systems. With this course, you can learn to integrate electrical machines into robotic designs, optimizing performance and reliability.

See salaries and explore the career path for Robotics Engineer

Automation Engineer

Automation engineers design, develop, and implement automated systems and processes to improve efficiency, reliability, and safety in various industries. This role often involves working with electrical machines like motors, actuators, and control systems. This course may be helpful in building automation systems, as it covers a broad range of electrical machine topics, with a focus on transformers, DC machines, and induction motors. The hands-on simulations using MATLAB Simulink and ETAP may be useful for designing and testing automated systems, and may help in optimizing the integration of electrical machines.

See salaries and explore the career path for Automation Engineer

Instrumentation Engineer

Instrumentation engineers design, develop, and manage systems used to measure and control industrial processes. These systems often involve electrical machines and components. This course may be useful, as it provides a comprehensive overview of electrical machines, including topics such as magnetic circuits, transformers, and DC machines. The hands-on simulations with MATLAB Simulink and ETAP may be especially helpful, as they may give you the skills to model and analyze the behavior of electrical systems. The course also covers techniques for protecting electrical systems, an important aspect of instrumentation engineering.

See salaries and explore the career path for Instrumentation Engineer

Ultimate Electrical Machines for Electrical Engineering

What's inside

Syllabus

Traffic lights

Save this course

Reviews summary

Comprehensive practical electrical machines guide

Activities

Career center

Reading list

Share

Similar courses