The Complete MATLAB Simulink for Electrical Power Engineering – Level 3 is step by step exercises in numerical computing. If you wish to understand the basics of MATLAB and move onto the advance level, this is an excellent course. The course is extensive and will explore numerical and symbolic computing, apply MATLAB in elementary mathematical problems, create and manipulate matrices and use MATLAB to build algorithms in your own programming. You will learn to design a power system and simulate it in MATLAB. The course will equip you with the tools to build and run a power system.
The Complete MATLAB Simulink for Electrical Power Engineering – Level 3 course will demonstrate how to import and analyse data, understand symbolic capabilities, learn to use the Simulink tool circuits and simulate power systems through MATLAB. Key modules will be fully explored in this course ensuring learners gain a complete understanding of the subject.
Complete MATLAB Simulink for Electrical Power Engineering – Level 3 will begin at the fundamentals and teach you how power systems operate. It is a comprehensive training on how to operate power system studies using MATLAB. There is an ever-increasing need for qualified individuals who wish to further their career in electrical and power engineering! This is a IAP certified course that will demonstrate to leading employers you are continually developing yourself, and will make you a desirable candidate across leading industries.
Study365 is a leading online provider for several accrediting bodies, and provides learners the opportunity to take this exclusive IAP course. At Study365, we give our fullest attention to our learners’ needs and ensure they have the necessary information required to proceed with the training.
Learners who register will be given excellent learning support, discounts for future purchases and be eligible for a TOTUM Discount card and Student ID card with amazing offers and access to retail stores, the library, cinemas, gym memberships and their favourite restaurants.
Ahmed Mahdy is an Electrical Power Engineer and the founder of Khadija Academy in 2019. He’s from Cairo, Egypt and is an online instructor for 9 years. He offers electrical engineering courses and regularly posts YouTube videos on electrical engineering. Ahmed has authored 6 books on electrical engineering and has taught close to 40,000 students living in 170 countries. The purpose of his Academy is to teach the fundamentals of electrical engineering from fundamentals to advance levels. He is a highly recognised and successful instructor and often receives 5-star reviews from his students. He has an engaging teaching style and will walk students step by step through complex information.
This course is recommended for,
This is a knowledge-based course, and thus, will contain no method of assessment.
Upon the successful completion of the course, learners will be awarded an accredited ‘Certificate of Completion’ For 'Certificate in MATLAB Simulink for Electrical Power Engineering – Level 3’ by IAP.
The International Awards for Professionals iAP is an awarding body established in 1999 that aims to promote a high educational standard. They hope to create online education that is trustworthy and credible. They are focused on raising the standards of online education, and ensuring it is accessible to all. The iAP provides accreditation for a range of educational establishments, and monitors and continually develops the educational standards of such institutions. Their globally recognised certifications give learners the opportunity to acquire the skills and knowledge needed to gain employment in the chosen fields.
The Certificate in Complete MATLAB Simulink for Electrical Power Engineering - Level 3 will improve your candidature for a number of jobs in the electrical and engineering sectors. You can study further related courses that will open the door to new and exciting opportunities and enhance your expertise in this subject, and add this as a skillset on your resume. Your skills will be recognised by leading employers and top organisations, and for engineering students who wish to pursue this field, this certificate will prove to be highly effective.
|Complete MATLAB Simulink for Electrical Power Engineering – Promo||FREE||00:05:00|
|1. Applications on Matrices in MATLAB|
|1.1 Lesson 1: Solving One Non Linear Equation in MATLAB Using Fzero Function||FREE||00:16:00|
|1.2 Lesson 2: Example 1 on Solving Multiple Non Linear Equations in MATLAB Using Fsolve Function||FREE||00:15:00|
|1.3. Lesson 3: Example 2 on Solving Multiple Non Linear Equations in Matlab Using Fsolve||FREE||00:13:00|
|1.4. Lesson 4: Application Multi Level Inverter Part 1||FREE||00:25:00|
|1.5. Lesson 5: Application Multi Level Inverter Part 2||FREE||00:05:00|
|2. Power Electronics Simulations Using Simulink in MATLAB|
|2.1. Lesson 1: Introduction to MATLAB Simulations Using Simulink||00:04:00|
|2.2. Lesson 2: Half Wave Uncontrolled Rectifier with R Load Principle of Operation||00:21:00|
|2.3. Lesson 3: Half Wave Controlled Rectifier R Load Principle of Operation||00:05:00|
|2.4. Lesson 4: Simulation of Half Wave Controlled Rectifier Using Simulink In Matlab||00:25:00|
|2.5. Lesson 5: Principle of Operation of Fully Controlled Bridge Rectifier Part 1||00:06:00|
|2.6 Lesson 6: Principle of Operation of Fully Controlled Bridge Rectifier Part 2||00:06:00|
|2.7. Lesson 7: Simulation of Bridge Controlled Rectifier||00:17:00|
|2.8. Lesson 8: AC Chopper with R Load Principle of Operation||00:14:00|
|2.9. Lesson 9: Simulation of AC Chopper with R and RL Loads in MATLAB||00:11:00|
|2.10 Lesson 10: Buck Regulator Principle of Operation Part 1||00:16:00|
|2.11. Lesson 11: Buck Regulator Principle of Operation Part 2||00:16:00|
|2.12. Lesson 12: Simulation of Buck Regulator in MATLAB||00:16:00|
|2.13. Lesson 13: Boost Regulator Principle of Operation||00:23:00|
|2.14. Lesson 14: Simulation of Boost Regulator in MATLAB||00:12:00|
|2.15. Lesson 15: Buck-Boost Regulator Principle of Operation||00:18:00|
|2.16. Lesson 16: Simulation of Buck-Boost Regulator||00:10:00|
|2.17. Lesson 17: Single Phase Half Bridge R-Load||00:16:00|
|2.18. Lesson 18: Single Phase Half Bridge RL-Load||00:08:00|
|2.19. Lesson 19: Simulation of Single Phase Half Bridge Inverter||00:18:00|
|2.20. Lesson 20: Single Phase Bridge Inverter R-Load||00:06:00|
|2.21. Lesson 21: Single Phase Bridge Inverter RL-Load||00:07:00|
|2.22. Lesson 22: Simulation of Single Phase Bridge Inverter||00:10:00|
|2.23. Lesson 23: Three Phase Inverters and Obtaining The Line Voltages||00:15:00|
|2.24. Lesson 24: Three Phase Inverters and Obtaining The Phase Voltages||00:17:00|
|2.25. Lesson 25: Simulation of Three Phase Inverter||00:17:00|
|2.26. Lesson 26:Simulation of Charging and Discharging Capacitor Using Matlab||00:11:00|
|3. Solar Energy Simulation Using Simulink in MATLAB|
|3.1. Lesson 1: Simulation of PV Cell in MATLAB and Obtaining V-I Characteristics||00:28:00|
|4. DC Motor Simulation Using Simulink in MATLAB|
|4.1. Lesson 1: Separately Excited DC Machine||00:21:00|
|4.2. Lesson 2: DC Motor Modelling without Load Using Simulink in MATLAB||00:25:00|
|4.3. Lesson 3: DC Motor Modelling with Load Using Simulink in MALTAB||00:24:00|
|4.4. Lesson 4: DC Motor Block Simulation Using Power Library in MATLAB||00:16:00|
|5. Induction Motor Simulation Using Simulink in MATLAB|
|5.1. Lesson 1: Construction and Theory of Operation of Induction Machines||00:27:00|
|5.2. Lesson 2: Equivalent Circuit and Power Flow in Induction Motor||00:24:00|
|5.3. Lesson 3: Torque-Speed Characteristics of Induction Motor||00:20:00|
|5.4. Lesson 4: Simulation of Induction Motor or Asynchronous Motor Using Simulink||00:33:00|
|6. Synchronous Generator Simulation in Simulink of MATLAB|
|6.1. Lesson 1: Construction and Principle of Operation of Synchronous Generator||00:30:00|
|6.2. Lesson 2: Equivalent Circuit and Phasor Diagram of Non Salient Synchronous Machine||00:30:00|
|6.3. Lesson 3: Equivalent Circuit and Phasor Diagram of Salient Synchronous Machine||00:38:00|
|6.4. Lesson 4: Simulation of Synchronous Machine Connected to Small Power System||00:38:00|
|7. Power System Simulations|
|7.1. Lesson 1: Importing Data from PSCAD Program for Fault Location Detection to MATLAB Program||00:37:00|
|8. PID Controller in MATLAB|
|8.1. Lesson 1: How to Implement PID Controller in Simulink of MATLAB||00:14:00|
|8.2. Lesson 2: Tuning a PID Controller In MATLAB Simulink||00:17:00|
|Completion Certificate Request|
|Completion Certificate Request|