Course Highlights
In this comprehensive MATLAB Simulink course, participants will explore into the fancy world of dynamic systems and control engineering using the powerful MATLAB Simulink tool. The course begins by providing a solid foundation in the fundamentals of control systems, ensuring that participants grasp key concepts such as transfer functions, state-space representations, and feedback control. With a distinctly British touch, the course emphasizes a meticulous approach to system analysis and design, aligning with the precision that defines classical control theory.
Participants will harness MATLAB Simulink’s capabilities to model, simulate, and analyze dynamic systems. This MATLAB Simulink course includes a series of interactive sessions and real-world case studies, encouraging participants to apply their skills to authentic control system scenarios. The British English flavour is woven into the instruction, offering a unique linguistic perspective that enhances clarity and understanding.
As participants progress through the course, they will explore advanced topics, including digital control systems, PID controller tuning, and state-space control design. The final section of the course is dedicated to project work, allowing participants to showcase their newfound proficiency by designing and implementing a control system for a complex engineering application. By the course’s conclusion, participants will have sharpened their MATLAB Simulink skills, emerging with a deep understanding of control systems and the ability to tackle real-world engineering challenges with confidence and skills.
Learning outcome
- Gain a solid understanding of matrices applications in MATLAB.
- Master the simulation of power electronics using Simulink in MATLAB.
- Acquire knowledge of solar energy simulation using Simulink in MATLAB.
- Develop skills in DC motor simulation using Simulink in MATLAB.
- Learn the intricacies of induction motor simulation using Simulink in MATLAB.
Course media
Why should I take this course?
- To gain a comprehensive understanding of control system simulations using MATLAB Simulink.
- Acquire valuable knowledge that can be applied in real-life examples.
- Enhance your skillset and become more marketable in the job market.
- To learn from industry experts who have designed the course meticulously.
- To open up a plethora of career opportunities in the field of control systems.
Career Path
- Control Systems Engineer
- Power Electronics Engineer
- Renewable Energy Engineer
- Electrical Engineer
- Systems Analyst
Requirements
- Basic understanding of control systems.
- Prior knowledge of MATLAB is beneficial but not mandatory.
- A computer with MATLAB and Simulink was installed.
Course Curriculum
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Module 1- Solving One Non Linear Equation in MATLAB Using Fzero Function
00:15:00
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Module 2-Example 1 on Solving Multiple Non Linear Equations in MATLAB Using Fsolve Function
00:15:00
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Module 3- Example 2 on Solving Multiple Non Linear Equations in Matlab Using Fsolve
00:13:00
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Module 4-Application Multi Level Inverter Part 1
00:25:00
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Module 5- Application Multi Level Inverter Part 2
00:05:00
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Module 1-Introduction to MATLAB Simulations Using Simulink
00:04:00
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Module 2-Half Wave Uncontrolled Rectifier with R Load Principle of Operation
00:21:00
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Module 3- Half Wave Controlled Rectifier R Load Principle of Operation
00:05:00
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Module 4-Simulation of Half Wave Controlled Rectifier Using Simulink In Matlab
00:26:00
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Module 5- Principle of Operation of Fully Controlled Bridge Rectifier Part 1
00:06:00
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Module 6- Principle of Operation of Fully Controlled Bridge Rectifier Part 2
00:06:00
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Module 7-Simulation of Bridge Controlled Rectifier
00:16:00
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Module 8-AC Chopper with R Load Principle of Operation
00:14:00
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Module 9- Simulation of AC Chopper with R and RL Loads in MATLAB
00:11:00
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Module 10- Buck Regulator Principle of Operation Part 1
00:16:00
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Module 11-Buck Regulator Principle of Operation Part 2
00:17:00
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Module 12-Simulation of Buck Regulator in MATLAB
00:14:00
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Module 13-Boost Regulator Principle of Operation
00:23:00
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Module 14- Simulation of Boost Regulator in MATLAB
00:12:00
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Module 15-Buck-Boost Regulator Principle of Operation
00:17:00
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Module 16- Simulation of Buck-Boost Regulator
00:09:00
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Module 17- Single Phase Half Bridge R-Load
00:15:00
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Module 18- Single Phase Half Bridge RL-Load
00:08:00
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Module 19-Simulation of Single Phase Half Bridge Inverter
00:18:00
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Module 20-Single Phase Bridge Inverter R-Load
00:06:00
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Module 21-Single Phase Bridge Inverter RL-Load
00:07:00
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Module 22-Simulation of Single Phase Bridge Inverter
00:10:00
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Module 23-Three Phase Inverters and Obtaining The Line Voltages
00:15:00
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Module 24-Three Phase Inverters and Obtaining The Phase Voltages
00:17:00
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Module 25-Simulation of Three Phase Inverter
00:17:00
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Module 26-Simulation of Charging and Discharging Capacitor Using Matlab
00:10:00
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Module 1-Separately Excited DC Machine
00:21:00
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Module 2-DC Motor Modelling without Load Using Simulink in MATLAB
00:25:00
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Module 3-DC Motor Modelling with Load Using Simulink in MALTAB
00:23:00
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Module 4-DC Motor Block Simulation Using Power Library in MATLAB
00:16:00
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Module 1-Construction and Principle of Operation of Synchronous Generator
00:29:00
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Module 2-Equivalent Circuit and Phasor Diagram of Non Salient Synchronous Machine
00:29:00
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Module 3-Equivalent Circuit and Phasor Diagram of Salient Synchronous Machine
00:39:00
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Module 4-Simulation of Synchronous Machine Connected to Small Power System
00:38:00
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Module 1-Construction and Theory of Operation of Induction Machines
00:27:00
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Module 2-Equivalent Circuit and Power Flow in Induction Motor
00:23:00
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Module 3-Torque-Speed Characteristics of Induction Motor
00:20:00
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Module 4- Simulation of Induction Motor or Asynchronous Motor Using Simulink
00:33:00
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Module 1- Importing Data from PSCAD Program for Fault Location Detection to MATLAB Program
00:37:00
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Module 1-How to Implement PID Controller in Simulink of MATLAB
00:14:00
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Module 2-Tuning a PID Controller In MATLAB Simulink
00:17:00
14-Day Money-Back Guarantee
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Duration:13 hours, 24 minutes
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Access:1 Year
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Units:46
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