AMESim Libraries

AMESim Libraries

Engineers can benefit from a large range of component libraries provided with AMESim for multi-domain system design involving fluid, mechanical, thermal, electromechanical or control components for the automotive, off-highway, aerospace or heavy equipment industries.

Air Conditioning

Based on a transient heat transfer approach, this Library is fully dedicated to the sizing, design, test, control and the evaluation of the efficiency of Air-Conditioning systems.

Cooling System

Based on a transient heat transfer approach, this library is used to model thermal phenomena in the coolant (energy transport, convection), heat transfer through exchangers and study the thermal evolution in the cooling network.

Electromechanical

The ideal tool for engineering applications where interaction between electrical, magnetic and mechanical domains takes place.

Electric Motors & Drives

Can be used in most engineering applications where conversion between electrical and mechanical domains takes place. Very useful for car manufacturers having to replace mechanical and hydraulic actuation with electrical devices.

Hydraulic

Fully dedicated to the design of complex hydraulic systems, made of over 120 models of various complexity levels.

Hydraulic Resistance

Flow resistance has a great influence on the design of fluid circuits in which pressures are relatively low but flow rates are high. This type of system calls for the AMESim Hydraulic Resistance library.

Hydraulic Component Design

An incredibly powerful and unique tool including the basic building blocks of any hydro-mechanical system.

IFP Drive

This library is dedicated to the simulation and analysis of the fuel consumption, pollutant emissions and performances of conventional and hybrid vehicles.

IFP Engine

This library allows you to design complete engines and to study the general engine sizing, performance and drive cycle parameters to advanced transmission design and engine control applications.

Mechanical

Contains components enabling to model 1-dimensional (1D) translational and rotational mechanical systems.

Planar Mechanical

Contains components that enable to model 2-dimensional (2D) translational and rotational mechanical systems.

Pneumatic

Over 100 models of various complexity levels for the design of complex pneumatic systems.

Pneumatic Component Design

An incredibly powerful and unique tool including the basic building blocks of any pneumatic system.

Powertrain

Includes components for modeling powertrain, transmissions and driveline systems. Enables the engineer to address the various physical phenomena involved in powertrain system simulation.

Signal, Control & Observers

Contains all required components to control, measure and observe a multi-domain system model. Ideal to both build control systems and implement equation-based models quickly.

Thermal

This library dealing with solid materials, is based on a transient heat transfer approach and used to model heat transfer modes.

Thermal Hydraulic

Dedicated to the design of hydraulic systems in which variations of fluid temperature have a great influence on the overall behavior.

Thermal Hydraulic Component Design

An incredibly powerful and unique tool including the basic building blocks of any thermal hydro-mechanical system.

Thermal Pneumatic

Includes a set of components which allows you to easily model and analyze the evolution of temperatures, pressures and mass flow rates in pneumatic networks.

Two-Phase Flow

This library based on a lumped transient heat transfer enables you to model complex system networks in which the fluid, at some stage, is submitted to phase changes.