Lab Electromechanical Systems
The LMS Imagine. Lab Electromechanical Systems
solutions help engineers throughout the design process of electrical or
electromechanical systems. Mechatronic system engineering has become a key
development concern through the increased use of electrical and electronic
systems in automotive, aerospace and other mechanical applications. The LMS
Imagine.Lab Electromechanical Systems solutions simulate electromechanical
components like linear actuators and electric motors, from the specification
to the design and validation of control strategies. In addition, the
solutions allow different level of analysis of electrical systems such as
power consumption estimation, accurate transient response evaluation or
thermal effects.
Electrical Systems
The Electrical Systems solution enables the simulation of mechatronic
systems for the specification of components, the interaction with the
mechanical structure and the design and validation of control strategies.
The solution offers a unique capability to simulate the interaction of the
electrical network with a large diversity of electricity consumers, from
electrical components to complex sub-systems ...
Electromechanical Components
The Electromechanical solution simulates the functional behaviour of complex
electromechanical actuators.
Designers of electromechanical and electro-fluid components get access to a
dedicated integrated platform to simulate the overall system response and to
take into account a combination of electrical, magnetic, mechanical, thermal
and fluid phenomena which accurately described within the AMESim components.
Features
Magnetic lump parameter approach or import of look-up tables coming from any
type of 2D/3D magnetic Finite Element simulation packages
Piezoelectric stack modeling
Strong coupling between electric/magnetic/thermal/mechanic
Modeling of energy losses: hysteretic and eddy currents
Benefits
Simulate and analyze the response time of the magnetic actuator
Real transient analysis of electromechanical and electro-fluid components
Impact of the temperature of the component on the transient behaviour
Short computation times leading to better analysis and optimization