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Mat lab for Power electronics. (S-HT MATPOWER)
MATLAB Introduction What is MATLAB? Getting into MATLAB Demos Help The Basics Fundamentals of Use Building Matrices Matrix and Element-wise Operations Flow Relations Control Selective Indexing Graphics 2-D Graphics Handles Graphics Hardcopy 3-D Line Plots Surface Plots Animation The Session Recording and Retrieving Shell Escapes M-files Script and Data Files Function Files Paths Numerical Formats Further MATLAB Debugging Efficiency Testing, Times and Dates Polynomials Text Sparse Matrices Calculus Differential Equations Numerical Integration Optimizing Symbolic Math SIMULINK Other Features SIMULINK Getting Started Creating a Model Running a Simulation Introduction Running a Simulation Using Menu Commands The Simulation Parameters Dialog Box Improving Simulation Performance and Accuracy Running a Simulation from the Command Line Analyzing Simulation Results Viewing Output Trajectories Linearization Equilibrium Point Determination Linfun trim UsingMasks to Customize Blocks Introduction A Sample Masked Subsystem The Mask Editor: An Overview The Initialization Page The Icon Page The Documentation Page Creating Dynamic Masked Dialogs Conditionally Executed Subsystems Introduction Enabled Subsystems Triggered Subsystems Triggered and Enabled Subsystems Fuzzy Logic Command line functions Graphical or interactive tools Simulink blocks. MATLAB/SIMULINK FOR POWER ELECTRONICS Introduction to power Electronics and systems Definition and concepts Application Power semiconductor Switches Gate/base drivers Losses Snubbers. MATLAB for Power Electronic Introduction Electrical Power and Energy Average Values and Harmonics Root-Mean-Square Values Power Computations, Average Power Nonlinear Circuits with Sinusoidal Sources Linear Circuits with Non-sinusoidal Sources Wave Form Generation Sine Waveform Cosine Waveform Tan Waveform Triangular Waveform Exponential Waveform Parabolic Waveform Operating Analysis Rectifier: AC to DC Converter DC Chopper: DC to DC converter Inverters: Converting DC to AC AC Chopper: AC to AC Converter SIMULINK for Power Electronic Introduction Rectifier: AC to DC Converter Diode Rectifier Circuits Phase Controlled rectifiers DC Chopper: DC to DC converter DC to DC converter technology General Theory of Two-Level DC-DC Converters: Boost and Buck/Boost Converters Dynamic Modeling and Simulation of DC-DC converters Inverters: Converting DC to AC Single Phase Inverter Three Phase Inverter Multilevel Inverter AC Chopper: AC to AC Converter ON/OFF Control Phase Control Cyclo-converter: AC to AC Converter Single Phase Cyclo-converter Three Phase Cyclo-converter Recent trends in modern power electronics Introduction Rectifier: AC to DC Converter Soft-Switching Single-Phase Three-Level Rectifier Vienna Converter 12 pulse Converter DC Chopper: DC to DC converter Six Leg Converter Interleaved Boost Converter Current Fed Resonance Boost DC – AC – DC Converter Inverters: Converting DC to AC Maximum Boost Z – Source Inverter Multi – input inverter Multi – inverter Topology AC Chopper: AC to AC Converter DC Modulated AC – AC Converter Matrix Converters Special Converter Topologies FACTS Resonant Converters Fractional Frequency Transmission 12 pulse Converter for HVDC Transmission
MATLAB
Introduction What is MATLAB? Getting into MATLAB Demos Help The Basics Fundamentals of Use Building Matrices Matrix and Element-wise Operations Flow Relations Control Selective Indexing Graphics 2-D Graphics Handles Graphics Hardcopy 3-D Line Plots Surface Plots Animation The Session Recording and Retrieving Shell Escapes M-files Script and Data Files Function Files Paths Numerical Formats Further MATLAB Debugging Efficiency Testing, Times and Dates Polynomials Text Sparse Matrices Calculus Differential Equations Numerical Integration Optimizing Symbolic Math SIMULINK Other Features
SIMULINK
MATLAB/SIMULINK FOR POWER ELECTRONICS
