Electrical Aircraft

Design solutions for aircraft electrical systems that help you face the challenges of the “more electric aircraft”

The LMS Imagine.Lab Electrical Aircraft simulation solution helps you design the electrical network of any aircraft. Utilizing the solution’s electrical libraries – including electric motors and drives, electromechanical, electric basics and converters, and aircraft electrics – the Electrical Aircraft simulation solution helps you succeed in facing the new challenges of the “more electric aircraft.”

An energy balance approach to modeling ensures that you can analyze the electrical systems and their components in complex networks, as well as account for the thermal integration within the complete aircraft from the very beginning of the design process.

The Electrical Aircraft simulation solution helps you design safer, more reliable actuators such as steering and braking systems, and enables you to better analyze the impact of network reconfiguration in case of failure. With its Simulink® co-simulation capability, you can also integrate generator controls and ensure proper and efficient energy transmission to the network. Postprocessing tools (such as the fast Fourier transform and linear analysis) allow you to validate aircraft electrical systems long before the first flight to ensure that certification tests will be successful.

Electrical Aircraft Capabilities

The Electrical Aircraft solution provides you with these features

Electrical Aircraft Capabilities
  • Three levels of modeling for aircraft electrical systems and components
  • Full integration within the multi-domain libraries from LMS Imagine.Lab Amesim
  • Dedicated components for electrical analysis
  • Standard models for static converters
  • Power budgeting and load shedding definitions
  • Functionality suitable for various vehicle architectures and technologies

Electrical Aircraft Benefits

The Electrical Aircraft solution helps you:

Electrical Aircraft Benefits
  • Validate the design and sizing of variable frequency generators, auxiliary power units and ram air turbines
  • Easily verify and validate reconfiguration strategies
  • Significantly optimize overall energy consumption
  • Study transient flight conditions
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