Videos

  • Model and simulate electrical power systems.
  • Model power networks with AC bus, DC bus, breakers, and a battery using SimPowerSystems™. Determine power requirements and analyze system interactions.
  • Choose simulation mode (continuous, discrete, or phasor) using SimPowerSystems™. Analyze transient effects and magnitudes of circuit voltages.
  • Explore options for converting variable frequency AC power to fixed frequency AC power using SimPowerSystems™. Power electronics are used to implement a cycloconverter and a DC link.
  • Create a bidirectional link between a SimPowerSystems™ model and the requirements document. Integrate the requirements document into the development process.
  • Test power network modeled in SimPowerSystems™ under wide range of conditions with loads at rated power and power factor to refine power requirements for generator and power lines.
  • Run simulations in parallel on a multicore desktop. An aircraft network modeled in SimPowerSystems™ is tested under various flight cycles in multiple simulations executed simultaneously.
  • Tune abstract SimPowerSystems™ models to produce simulation results that match results from detailed simulation. Use optimization algorithms to automate tuning process.
  • Evaluate power quality within networks under various conditions using SimPowerSystems™. Automate calculation of total harmonic distortion (THD).
  • Automatically run tests and generate a report documenting simulation results of an aircraft power network tested under various flight cycles using SimPowerSystems™.