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.

Simulink

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

FACTS:-

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 TRAINING

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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