Field Oriented Control of an Induction Motor Drive Simulink

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1. Fundamentals of Controller Design Techniques

1. PI Controller Design.mp4

06:24

2.1 Design a PI controller.pdf

2. Desired Closed-loop behaviour design.mp4

06:46

3. PID Controller Design.mp4

07:32

2. Pulse-Width Modulation of Power Electronic DCAC Converter

1. Two-Level IGBT based Voltage Source Inverter.mp4

06:20

2.1 vsi third harmonic injection pwm.zip

2. PWM Modulation Strategies.mp4

07:23

3. Space Vector PWM Overview (SVPWM).mp4

04:27

4.1 vsi space vector pwm.zip

4. Space Vector PWM Principles and Simulink Simulation.mp4

07:24

3. Basic Concepts Space-Vector Analysis

1. Overview of Vector Control and Space Vector for High Performance Electric Motors.mp4

02:29

2. Introduction to Induction Machine Modeling using Space Vectors.mp4

06:52

4. Control Oriented Modelling of Induction Machines

1. Induction Machine Model in Stationary Reference Frame.mp4

03:01

2. Induction Machine Model in Synchronous Rotating Reference Frame.mp4

03:29

3.1 simulink simulation reference frame transformations.zip

3. Park, Inverse Park and Clarke, Inverse Clarke Transformations (Simulink).mp4

03:14

4. Model of Induction Machine.mp4

04:21

5.1 Induction Motor Simulation Setup.zip

5. Mini Project Simulink Experimental Testing of Induction Machine Model.mp4

04:34

5. Control Design and Simulink Simulation of Induction Motor Drives

1. Vector Control Strategy of Induction Motor Drives.mp4

04:16

2. Sytem Overview of Speed Control of Induction Motors.mp4

05:32

3.1 PI controller Block Diagrams for simulink simulation model.pdf

3. Controller Design for Torque Control of Induction Motors.mp4

02:33

4.1 speed PI controller parameters.pdf

4. Controller Design for Speed Control of Induction Motors.mp4

04:39

5. Mini Project Induction Motor Control System with Simulink Simulation Validations.mp4

03:21

6.1 exercice Speed FOC Torque d ctrl Ind Squirrelcage mot.zip

6. Induction Motor Closed-loop performance with Simulink experimental evaluations.mp4

03:26

Description

Master Field Oriented Control of Induction Machines: Vector control (FOC) Design und Simulations with Matlab Simulink

What You'll Learn?

Students will be able to design efficient controller strategies for induction motor drives.
They will gain proficiency in working with PI and PID Controllers.
They'll have an understanding of Pulse-Width Modulation and its implementation.
Students will understand Space Vector PWM and its application in induction motor drives.
They will be capable of simulating control systems in Simulink.
They will know how to implement real-time control for induction motor drives.

Who is this for?

Ideal for students in Electrical, Computer, Mechanical, or Aerospace Engineering.

Perfect fit for control systems or dynamic systems designers.

Tailored for anyone seeking mastery in real-time vector control of induction motor drives.

What You Need to Know?

Basic knowledge of electrical and control engineering is a must.

Familiarity with electric machines and electronics is helpful.

Prior experience with Matlab Simulink is necessary.

Understanding of control system simulation will aid your learning.

More details

Description
Dive into the fascinating world of induction motor control with our comprehensive course, "Advanced Practical Real-time Vector Control of Induction Motor Drives." Starting from controller design techniques, progressing through PI and PID Controller design, and moving to intricate details of Pulse-Width Modulation of Power Electronic DC-AC Converter, the course is a complete guide to the advanced control techniques used in today's industry.
You will also explore Two-Level IGBT based Voltage Source Inverter, PWM Modulation Strategies, and the intricacies of Space Vector PWM. The course guides you to understand and model Induction Machines using Space Vectors, unraveling Control Oriented Modelling of Induction Machines, along with transformations like Park, Inverse Park, Clarke, and Inverse Clarke.
This course offers an exhaustive understanding of Induction Machine models in both Stationary and Synchronous Rotating Reference Frame, guiding you through the process of designing controllers for Torque, Speed, and Position Control of Induction Motors. You will gain hands-on experience with real-time control systems, reinforced through Simulink Simulation Validations.
The course combines theory and practice, focusing on developing practical skills to design, simulate, and control induction motor drives efficiently. As a result, you will be well-prepared to deal with real-world challenges and implement efficient control strategies in your projects or workplace.
Enroll today to deepen your understanding, sharpen your skills, and elevate your career to new heights with "Advanced Practical Real-time Vector Control of Induction Motor Drives."
Who this course is for:
Ideal for students in Electrical, Computer, Mechanical, or Aerospace Engineering.
Perfect fit for control systems or dynamic systems designers.
Tailored for anyone seeking mastery in real-time vector control of induction motor drives.

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Instructor's Courses

Automotive Electronics Senior Hardware Design Engineer:14 years of professional experience in the sector of vehicle electrics/electronics/power electronics.Design and development of HW-Modules for automotive applications/HW Architecture design.Design & production relevant documents including schematic, requirement management, and technical design documents. Robust design (WCCA, DFMEA, CAD simulations): all projects to fulfill 100% of Design Robustness Analysis Audit checklist.Design performance / reliability / EMC validation and verification trouble shooting of premium automotive electronic control units.Safety Analysis, Failure analysis and review (Experience in Automotive domain, module design, functional safety standard - ISO 26262 & FMEA/FMEDA).Support & cooperate with software/system/calibration team, work closely with PCB layout engineers to be sure the board is compliant to Design constraints.Hands on experience in automotive validations and standards (automotive hardware lifecycle and its quality process,Very good knowledge in handling OEM).BMW qualification Electrician for Set Tasks on Hybrid/ electric Vehicles.Tools (Matlab-Simulink-Simscape, Altium Designer, Ltspice, Mathcad, Plecs, Powersim, Simplis,Vissim, Simplorer, AMESim, PTC Integrity, Jira)

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