Simulation and Analysis
Analyze, tabulate, and plot harmonic data using analysis functions and Simscape™ logging variables. Simulate thermal losses due to switching events and conduction losses in semiconductors. Perform a load-flow analysis and use the results to initialize AC steady state simulation.
|Calculate flux partial derivatives for FEM-Parameterized PMSM block|
|Compute the total harmonic distortion (THD) percentage|
|Read and extract values from COMTRADE record|
|Generate report for current model and all subsystems|
|Calculate efficiency as function of dissipated power losses|
|Generate tabulated flux linkage data for ideal PMSM|
|Return harmonic orders, magnitudes, and fundamental frequency|
|Calculate maximum absolute values of terminal voltage time derivatives (dv/dt) based on logged simulation data|
|Calculate rates-of-change of voltage variables|
|Calculate dissipated power losses and switching losses|
|Calculate dissipated power losses and switching losses, and return time series data|
|Import device parameters from XML file to SimscapeTM IGBT (Ideal, Switching) block|
|Plot percentage of fundamental magnitude versus harmonic order|
|Load-Flow Analyzer||Determine the steady-state voltage magnitudes and angles and real and reactive power flows for a three-phase AC network|
Determine if data logging is enabled for your model.
Explore the capabilities of Simscape Electrical™ harmonic analysis functions.
Learn how to analyze harmonic distortion using the Spectrum Analyzer block.
Calculate power losses for Simscape Electrical semiconductor blocks.
Learn how to perform a power-flow, or load-flow, analysis for a three-phase Simscape Electrical network using the Simscape three-phase electrical domain.
Avoid simulation errors by configuring models for simulation with the specific solvers by using the
Configure your model to use frequency-time equation formulation.