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Hi my friend.

This course is designed to provide a complete step by step MATLAB simulations for various electrical engineering disciplines in ONE course so that it will be a comprehensive guide for you to build and design your own models.

  • In this course, you are going to learn MATLAB/Simulink for:

                                    <<<< Power Electronics Simulations >>>>

Read more

Hi my friend.

This course is designed to provide a complete step by step MATLAB simulations for various electrical engineering disciplines in ONE course so that it will be a comprehensive guide for you to build and design your own models.

  • In this course, you are going to learn MATLAB/Simulink for:

                                    <<<< Power Electronics Simulations >>>>

  1. Simulations of 1-phase rectifiers (controlled, uncontrolled, HWR and FWR)

  2. Simulations of 3-phase rectifiers

  3. Complete Simulations of AC voltage controllers ( 1-ph & 3-ph)

  4. How to apply closed loop control of AC voltage controllers in MATLABl/Simulink

  5. Complete MATLAB simulations of DC-DC converters

  6. Apply PID controller to DC-DC converters in MATLAB/Simulink

  7. Apply Hysteresis controller to DC-DC converters in MATLAB/Simulink

  8. Design different DC Regulators in MATLAB/Simulink

  9. Simulations of 1-ph inverter circuits (half bridge and full bridge)

  10. Apply pulse width modulation (PWM) techniques in MATLAB/Simulink

  11. Simulations of 3-ph inverter circuits

                                  <<<< Electrical Circuits Simulations >>>>

  1. Simulations of DC transient circuits

  2. Simulations of R-L , R-C , R-L-C circuits

  3. Applying forced and free response in transient circuits in Simulink

  4. Simulations of  the Electric Resonance in MATLAB/Simulink

                                   <<<< Electrical Machines Simulations >>>>

  1. Complete MATLAB Simulations of DC motors (shunt, series and separately excited)

  2. Speed control of DC motors in MATLAB/Simulink

  3. Starting of  DC motors using starters in MATLAB/Simulink

  4. Simulations of DC generators

  5. Complete simulations of Induction motors

  6. Speed control and starting of induction motors in MATLAB/Simulink

  7. Apply VFD with induction motors in  MATLAB/Simulink

  8. Perform different induction motor tests in MATLAB/Simulink

  9. Complete simulations of Induction generators

  10. Complete MATLAB simulations of synchronous machines

  11. Apply voltage and frequency control of synchronous generator in Simulink

  12. Simulations of  synchronous generator connected with grid

  13. Simulation of permanent magnet synchronous motors (PMSM)

  14. Simulations of transformers (1-ph & 3-ph) in MATLAB/Simulink

  15. Efficiency, losses and voltage regulation of transformer in Simulink

  16. Open circuit and short circuit tests of transformers in MATLAB/Simulink

                            <<<< Power Systems Simulations >>>>

  1. Modelling and design of  transmission lines in MATLAB/Simulink

  2. load flow analysis in MATLAB/Simulink

  3. Symmetrical and unsymmetrical fault analysis in MATLAB/Simulink

  4. Logic design of overcurrent relay in MATLAB/Simulink

  5. Apply overcurrent protection against power system faults in MATLAB/Simulink

                           <<<< Solar Energy Simulations >>>>

  1. Step by step modelling and design of solar panels in Simulink

  2. Obtain I-V and P-V characteristics of solar panel in MATLAB

  3. Effect of irradiation and temperature on PV cell characteristics in MATLAB

  4. How to simulate solar panel using MATLAB Simscape library

                          <<<< Wind Energy Simulations >>>>

  1. Step by step Wind turbine modelling and design in MATLAB/Simulink

  2. Design of 5KW wind turbine in MATLAB/Simulink

  3. Effect of wind turbine parameters on turbine power in MATLAB/Simulink

               By the end of this course, you will be specialized in dealing with MATLAB/Simulink related to various

               electrical engineering branches.

I thank you very much for taking the time to check the course content.

                See you in the course .

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Develops professional skills and deep expertise in MATLAB/Simulink related to various electrical engineering branches
Teaches skills, knowledge, and/or tools that are highly relevant to industry
Examines topics in depth, including closed-loop control of AC voltage controllers, DC-DC converters, and PWM techniques
Covers multiple subdisciplines of electrical engineering in a comprehensive way
Requires learners to come in with extensive background knowledge first
Taught by an instructor who is not recognized for their work in the topic that the course teaches

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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 MATLAB-Simulink for Electrical Engineering with these activities:
Organize and review course materials
Improve retention and understanding by organizing and reviewing course materials.
Show steps
  • Gather and organize lecture notes, assignments, and quizzes.
  • Review the materials regularly to reinforce understanding.
Review 'MATLAB for Engineers' by Holly Moore
Strengthen foundational understanding of MATLAB concepts and applications.
View MATLAB for Engineers on Amazon
Show steps
  • Read and understand the book.
  • Solve practice problems from the book.
Explore MATLAB tutorials and documentation
Enhance your understanding of MATLAB by following guided tutorials and exploring the official documentation.
Show steps
  • Visit the official MATLAB website and browse the tutorial library.
  • Identify specific topics or functions you need to learn.
  • Follow the step-by-step instructions and examples provided in the tutorials.
  • Refer to the MATLAB documentation for detailed explanations and reference information.
Eight other activities
Expand to see all activities and additional details
Show all 11 activities
Discuss MATLAB/Simulink modeling techniques with peers
Enhance understanding and problem-solving skills through collaborative learning.
Browse courses on MATLAB/Simulink
Show steps
  • Find a study partner or group.
  • Identify a MATLAB/Simulink modeling problem.
  • Discuss and work together to solve the problem.
Practice MATLAB exercises
Gain proficiency and confidence in using MATLAB by working through practice problems.
Show steps
  • Find online resources or textbooks with MATLAB exercises.
  • Set aside dedicated time each day for practicing MATLAB.
  • Break down complex problems into smaller steps.
  • Seek help from online forums or the course instructor when needed.
Simulate electrical circuits using MATLAB/Simulink
Reinforce foundational knowledge of electrical circuits through hands-on simulation.
Browse courses on Simulink
Show steps
  • Identify the electrical circuit to be simulated.
  • Create a MATLAB/Simulink model of the circuit.
  • Run the simulation and analyze the results.
Learn about power electronics simulation techniques
Develop specialized knowledge in power electronics simulation for advanced applications.
Browse courses on Power Electronics
Show steps
  • Identify online tutorials on power electronics simulation.
  • Follow the tutorials and practice the techniques.
  • Apply the techniques to simulate power electronics circuits.
Build a MATLAB simulation project
Apply your MATLAB skills to a practical project, simulating real-world electrical engineering scenarios.
Show steps
  • Identify a specific electrical engineering problem or system to simulate.
  • Design the MATLAB simulation model, including the system components and their interactions.
  • Implement the simulation code in MATLAB.
  • Run the simulation and analyze the results.
  • Document your project, including the problem statement, simulation setup, results, and conclusions.
Contribute to the MATLAB/Simulink community
Enhance understanding and practical skills by contributing to the MATLAB/Simulink community.
Browse courses on MATLAB/Simulink
Show steps
  • Identify opportunities to contribute to open-source MATLAB/Simulink projects.
  • Collaborate with other developers and contribute code or documentation.
  • Share knowledge and learn from others in the community.
Design and simulate a solar energy system
Demonstrate comprehensive understanding of solar energy principles and simulation methods.
Browse courses on Solar Energy
Show steps
  • Determine the specifications of the solar energy system.
  • Design the system using MATLAB/Simulink.
  • Simulate the system and analyze the performance.
  • Create a report summarizing the design and simulation results.
Develop a MATLAB/Simulink model for a specific electrical engineering application
Apply MATLAB/Simulink skills to solve real-world electrical engineering problems.
Browse courses on MATLAB/Simulink
Show steps
  • Identify a specific electrical engineering problem or application.
  • Design a MATLAB/Simulink model to address the problem.
  • Develop the model and run simulations.
  • Analyze the results and refine the model.

Career center

Learners who complete Ultimate MATLAB-Simulink for Electrical Engineering will develop knowledge and skills that may be useful to these careers:
Electrical Engineer
An Electrical Engineer plans, develops, tests, and supervises the manufacture of electrical equipment. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical engineers. The course covers a wide range of topics relevant to electrical engineering, including power electronics simulations, electrical circuits simulations, electrical machines simulations, power systems simulations, solar energy simulations, and wind energy simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Power Systems Engineer
A Power Systems Engineer designs, develops, and tests power systems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for power systems engineers. The course covers a wide range of topics relevant to power systems, including power systems simulations, electrical machines simulations, and power electronics simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Design Engineer
An Electrical Design Engineer designs, develops, and tests electrical systems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical design engineers. The course covers a wide range of topics relevant to electrical design, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Power Electronics Engineer
A Power Electronics Engineer designs, develops, and tests power electronic systems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for power electronics engineers. The course covers a wide range of topics relevant to power electronics, including power electronics simulations, electrical circuits simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Wind Energy Engineer
A Wind Energy Engineer designs, develops, and tests wind energy systems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for wind energy engineers. The course covers a wide range of topics relevant to wind energy, including wind energy simulations, power electronics simulations, and electrical machines simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Safety Engineer
An Electrical Safety Engineer ensures that electrical systems are safe for human use. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical safety engineers. The course covers a wide range of topics relevant to electrical safety, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Solar Energy Engineer
A Solar Energy Engineer designs, develops, and tests solar energy systems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for solar energy engineers. The course covers a wide range of topics relevant to solar energy, including solar energy simulations, power electronics simulations, and electrical circuits simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Test Engineer
An Electrical Test Engineer tests and evaluates electrical equipment. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical test engineers. The course covers a wide range of topics relevant to electrical testing, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Consultant
An Electrical Consultant provides consulting services to clients in the field of electrical engineering. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical consultants. The course covers a wide range of topics relevant to electrical consulting, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Project Engineer
An Electrical Project Engineer plans, organizes, and manages electrical engineering projects. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical project engineers. The course covers a wide range of topics relevant to electrical project management, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Maintenance Engineer
An Electrical Maintenance Engineer maintains and repairs electrical systems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical maintenance engineers. The course covers a wide range of topics relevant to electrical maintenance, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Research Engineer
An Electrical Research Engineer conducts research in the field of electrical engineering. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical research engineers. The course covers a wide range of topics relevant to electrical research, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Systems Analyst
An Electrical Systems Analyst analyzes electrical systems to identify potential problems. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical systems analysts. The course covers a wide range of topics relevant to electrical systems analysis, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Instructor
An Electrical Instructor teaches courses in the field of electrical engineering. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical instructors. The course covers a wide range of topics relevant to electrical instruction, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.
Electrical Writer
An Electrical Writer writes technical documents in the field of electrical engineering. This course provides a comprehensive overview of MATLAB/Simulink, which is essential software for electrical writers. The course covers a wide range of topics relevant to electrical writing, including electrical circuits simulations, electrical machines simulations, and power systems simulations. By taking this course, you will gain the skills and knowledge you need to be successful in this field.

Reading list

We've selected nine books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Ultimate MATLAB-Simulink for Electrical Engineering.
Provides a comprehensive introduction to solar cells, covering the fundamentals of solar cell physics, design, and applications.
Practical guide to the MATLAB programming language for students and professionals. It provides a comprehensive introduction to the fundamentals of MATLAB, including data types, control flow, functions, and object-oriented programming.
Provides a comprehensive introduction to power electronics, covering the fundamentals of power semiconductor devices, power converters, and power system applications.
Provides a comprehensive introduction to electrical machines, covering the fundamentals of transformers, motors, and generators.
Provides a comprehensive introduction to power system analysis and design, covering the fundamentals of power flow, stability, and protection.
Provides a comprehensive introduction to MATLAB programming for engineers, covering the fundamentals of MATLAB, as well as how to use MATLAB to solve engineering problems.
Provides a comprehensive introduction to electric machinery and transformers, covering the fundamentals of transformers, motors, and generators.
Provides a broad overview of numerical techniques used in computational electromagnetics and will prove valuable for as additional reading or reference for some of the more mathematically challenging models in the course.

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