Electrical Engineering

MATLAB Training course

MATLAB programming

Matrices and Arrays:-

Creating and Concatenating Matrices-Matrix Indexing-Getting Information About a Matrix-Resizing and Reshaping Matrices-Shifting and Sorting Matrices-Operating on Diagonal Matrices-Empty Matrices, Scalars, and Vectors-Full and Sparse Matrices-Multidimensional Arrays. programming Fundamentals: Classes (Data Types)-Basic Program Components-Functions and Scripts-Types of Functions-Using Objects-Error Handling-Program Scheduling-Performance-Memory Usage-Programming Tips.


Introduction to Simulink:-

Starting Simulink Software-Opening a Model-Loading a Model-Saving a Model-Using the Model Editor-Undoing a Command-Zooming Block Diagrams-Panning Block Diagrams-Viewing Command History-Updating a Block Diagram-Printing a Block Diagram-Ending a Simulink Session-Summary of Mouse and Keyboard Actions.

Modeling Dynamic Systems:-

Working with Sample Times- Referencing a Model-Creating Conditional Subsystems- Modeling Variant Systems- Exploring, Searching, and Browsing Models-Managing configuration Sets-Modeling Best Practices.

Modeling Of Industrial Power electronics and drives

Power Converters:-

Buck Boost converters, Multi level inverters, Matrix converters,z source inverters, THD anlaysis

Control Techniques:-

Pulse Width modulation, space vector modulation, , Zero voltage switching and Zero current switching

Machine Drives:-

Brush less DC (BLDC)Motor, Permanent Magnet Synchronous Machine (PMSM),stepper motor, Switched Reluctance Motor (SRM),direct Torque and indirect flux control, Speed control

Power system and protection


Basic reactive power compensation devices, Static VAR compensator, Static compensator (STATCOM),Static synchronous series compensator (SSSC) ,unified power flow controller (UPFC), Distributed FACTS(D-FACTS),Active Power filters(APF).

Renewable energy sources

  • Mathematical modeling of Solar panel
  • Wind power generation
  • Dynamic Fuel cell modeling
  • Hydro power generation
  • Tidal power generation

Control systems

  • P,PI,PID controllers
  • Servo mechanism
  • Lead –Lag compensation Techniques
  • Fuzzy controllers
  • Neural networks


ETAP Over View

  • ETAP Introduction
  • Project settings
  • Components description
  • Libraries

AC Modeling

  • Load Flow Analysis
  • Unbalanced Load Flow Analysis
  • Short circuit analysis
  • Arc Flash analysis
  • Harmonic analysis
  • Motor acceleration analysis
  • Transient stability analysis
  • Optimal capacitor placement
  • Optimal power flow analysis
  • Reliability anlaysis

DC Modeling

  • Load flow analysis
  • Short circuit analysis
  • Battery sizing and discharge

Ground grid system

Underground raceway system

Cable pulling system

Protective Device Coordination


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