Key Features

  • Libraries of electronic and electromechanical components with physical connections, including sensors, semiconductors, and actuators
  • Parameterization options, enabling key parameter values to be entered directly from industry data sheets
  • Semiconductor and motor models with temperature-dependent behavior and configurable thermal ports
  • Ideal and nonideal model variants, enabling adjustment of model fidelity
  • Ability to extend component libraries using the Simscape™ language
  • Access to linearization and steady-state calculation capabilities in Simscape
  • Support for C-code generation

SimElectronics is used to optimize system-level performance and to create plant models for control design. The models you create support your entire development process, including hardware-in-the-loop simulations.

Mechatronics systems model in SimElectronics.
Electromechanical system containing a DC motor, worm gear, Hall effect sensor, speed controller, and a motor servo-amplifier (top), the associated SimElectronics model (left), and a portion of the speed controller model (bottom). The colored blocks in the model correspond to the components in the electromechanical system.
Next: Modeling Mechatronic Systems

Try SimElectronics

Get trial software

Think Big – Anwendung von Model-Based Design für große Simulationsmodelle

View webinar