Ultimate MATLAB-Simulink for Electrical Engineering

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:

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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

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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

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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

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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

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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

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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 !

Who this course is for:

• Electrical Engineering Students
• Researchers and practicing engineers
• Anyone who wants to learn electrical engineering simulations
• Anybody with an interest in learning about MATLAB/Simulink