LMS Imagine.Lab Braking System

With LMS Imagine.Lab Braking System, users can design and optimize braking systems and components early in the process as well as test control strategies using hardware-in-the-loop. It facilitates the development of ABS and ESP systems and gives an understanding of the noise and vibration behavior and control of the braking system. The solution handles both hydraulic and pneumatic systems.

Vehicle System Dynamics_Braking system_1_Low.jpg

With LMS Imagine.Lab Braking System, users can design and optimize braking systems and components (booster, master cylinder and valves) early in the process as well as test control strategies using hardware-in-the-loop. It facilitates the development of ABS and ESP systems, as well as other active control systems. It further gives an understanding of the noise and vibration behavior and control of the braking system.

LMS Imagine.Lab Braking System gives access to braking circuit dynamics and helps to analyze and compare different hydraulic architectures (X, H, I) to evaluate braking distance or vehicle stability if connected to a vehicle model. Moreover, the solution seamlessly handles both hydraulic and/or pneumatic systems.

In more detailed studies, LMS Imagine.Lab Braking System has the capability to perform global system sizing and handle behavior analyses of typical braking circuit components (both for low and high frequency). It has the ability to study pressure valves stability of ABS and ESP systems, run analyses of the ABS and ESP complete hydraulic circuit and cavitation (noise) in the master cylinder when releasing pressure. The complete braking circuit including booster, master cylinder and valves can be assessed in a detailed or in a more basic way that is able to run in real-time.

Features

State-of-the-art hydraulic & pneumatic component design of ABS, ESP and standard braking systems
Real-time possibilities with semi-automatic model reduction features
Seamless integration with the chassis through through the Vehicle Dynamics library models

Benefits

Accurately analyze specific issues posed by braking systems such as noise, vibrations and architecture impacts
Benefit of a comprehensive platform for studying multiple technologies:
-     ABS, ESP, TCS, Antiskid circuit analysis
-     Booster, master cylinder, caliper and circuits
-     Electro-hydraulic braking systems
-     Pneumatic systems for trucks and buses
Evaluation of the braking system performances on the entire virtual vehicle model

Covering a range of industries, LMS application cases let you discover how LMS solutions help our customers solve their real-life engineering challenges.

diesel engines modeling design software 3.gif Delphi cuts next-generation diesel engines ECU development time with LMS Imagine.Lab AMESim

Working together with LMS Imagine.Lab engineering services, Delphi engineers use LMS Imagine.Lab AMESim multi-domain system modeling software to efficiently develop advanced HiL simulators to design and test electronic control units for tomorrow’s fuel-efficient, clean-running diesel engines.

Messier-Bugatti optimized the A380 nosewheel steering and braking system with LMS Imagine.Lab AMESim

To save weight on the A380 superjumbo aircraft, Messier-Bugatti used LMS Imagine.Lab AMESim and the Ground Loads solution to design an innovative decentralized hydraulic generation system with lightweight micro-pumps delivering power locally to emergency braking and landing gear steering systems.

Renault applies AMESim to streamline its cooling and air-conditioning systems development process

To comply with the multiple constraints relative to vehicle designs that affect the thermal management of underhood systems, and to ensure high-quality passenger comfort, Renault decided to rely more on simulation to engineer the underhood thermal environment. The French car maker deployed the AMESim solution as a collaborative system simulation platform.

More cases:

Brochures

Download the LMS Imagine.Lab Overview Brochure

Download the LMS Imagine.Lab AMESim Vehicle System Dynamics Brochure


	A detailed technological model of the booster, which helps to evaluate its performance in function of the geometry and material characteristics.		LMS Imagine.Lab Braking System facilitates the development of ESP systems, from valve design to control strategies validation.		AMESim sketches can be simplified using supercomponents of detailed models of the systems.

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