Leading technology company makes LMS Imagine.Lab Amesim its preferred simulation tool for hydraulics applications
Bosch boosts the quality of fuel injection and braking systems with LMS Imagine.Lab
Trendsetter for the car industry
Today, it would be difficult to find a car without at least one component produced by Bosch. Headquartered near Stuttgart in Germany, Bosch is one of the world’s largest automotive suppliers. At the cutting edge of research and development (R&D), the company is recognized as a trendsetter for the global car industry and significantly contributes to making driving increasingly safer, cleaner and more economical.
Developing state-of-the-art automotive components, Bosch’s Mobility Solutions business sector is the largest one at Bosch. The Diesel Systems, Gasoline Systems and Chassis Systems Control divisions of the Mobility Solutions business sector started working on model-based systems engineering (MBSE) processes about 20 years ago, and have now achieved a highly-advanced level of simulation technologies.
“The quality, performance and price expectations of our customers are constantly increasing,” says Sebastian Kanne, Simulation Group manager at Bosch in charge of diesel system development. “Since original equipment manufacturers’ development cycles have been drastically reduced over the last years, auto suppliers must be able to rapidly solve design issues despite the increased complexity of systems and their controls.”
“It’s difficult to figure out the financial benefit from simulation, but we believe it allows Bosch to design much better products,” says Andreas Klein, senior expert for Hydraulic System Simulation in the Corporate Sector Research and Advance Engineering at Bosch. “Before implementing the simulation approach, we didn’t have a good enough understanding of the dynamic behavior of our components and systems. I saw so many cases when we gained a better insight into the source of a problem, which enabled us to find a solution at early design phases.”
LMS Imagine.Lab Amesim™ software, a simulation solution of product lifecycle management (PLM) specialist Siemens PLM Software, accompanied the evolution of the design process at Bosch from the very beginning of the MBSE journey. The collaboration with the LMS Amesim development team started in 1997.
“We have developed a very strong and intensive cooperation with Siemens PLM Software over the past years,” says Kanne. “Siemens PLM Software has proved to be an excellent partner, one that listens closely to Bosch’s requirements and takes them into account in the LMS Imagine.Lab roadmap.”
“Bosch and Siemens PLM Software teams worked together on several topics,” says Klein. “We collaborated on the discrete partitioning technique, enabling users to reduce central processing unit (CPU) time while retaining result accuracy when analyzing complex hydraulic systems. Bosch was also involved in the development of the LMS Amesim functionality that allows users to develop their own components, gas transport feature and electromechanical library.
“Since 2012, we regularly participate in early visibility tests of each new release of LMS Imagine.Lab. This allows us to test new functionalities on our computers with our models and configurations that cannot be shared externally, before a release goes to market.”
Today, Bosch uses LMS Amesim in the design process of all diesel and gasoline injection systems, as well as braking systems of both passenger and commercial vehicles. More than 300 Bosch engineers use LMS Amesim in different locations globally to create specific components, build up and validate simulation models, and perform multiple simulation studies.
In 2009, Bosch Diesel Systems implemented LMS Imagine.LabTM Sysdm in its European R&D centers to share, manage and re-use multiple models built not only with LMS Amesim but also with other simulation tools. LMS Sysdm enabled the company to efficiently split the simulation work between multiple R&D centers while maintaining full traceability. LMS Sysdm was critical to enabling workflow control by defining role-based access rights for each user. Moreover, LMS Sysdm helped Bosch to improve the quality of its simulation studies by enabling knowledge capitalization and proper organization of validated component and subsystem representations.
Designing outstanding diesel injection systems
Diesel engines are widely used for commercial and passenger cars. The fuel injection system is the heart of diesel engines; it is critical for torque generation. The way the injection system delivers diesel fuel into the combustion chamber enables a clear advantage in terms of engine performance, noise characteristics and emissions. Modern diesel injection systems are highly sophisticated technology. They generate extremely high pressure, which is comparable to the force of a rhinoceros balancing on a fingertip. Additionally, the precision of modern Bosch diesel systems is unbeaten: during the blink of an eye, the system injects a small amount of fuel approximately 25 times.
When developing diesel injection systems consisting of interacting hydraulic, mechanical, signal and electrical subsystems, it is essential to use the MBSE approach in the early design phases in order to effectively reduce costs and time-to-market.
Bosch uses the mechanical, thermal, hydraulic and electromechanical libraries of LMS Amesim to model multi-domain components of the injector, rail and pump. LMS Amesim helps specialists to study the dynamic subsystem and system behavior depending on the injection rate, pressure and injected fuel quantity. Using LMS Amesim, they also validate the control strategies of components, such as a pressure regulator.
Not only can engineers take full advantage of the user-friendly interface, detailed documentation and validated components of LMS Amesim, advanced users can build up their own submodels and customize fluid properties. Moreover, to analyze the interactions between multi-domain components and optimize the design, open simulation tools are critical to avoiding what otherwise is likely to become a time consuming and error-prone process.
“Today, we interface LMS Amesim with 3D multi-body software as well as other tools for controls, design optimization, electronic circuit simulation, finite element analysis and embedded control system design,” says Klein. “The goal is to build a unique process from CAD design to system integration, whereas there was a time that I could not even imagine we would be able to couple LMS Amesim with a CFD tool.
“Another very important advantage of LMS Amesim is its strong focus on numerical performance and robustness. At the end of our working day, we launch about 1,000 simulations, with LMS Amesim performing the analysis at night. I have never seen such a powerful tool.”
Coupling system and multi-body simulation approaches
Among the examples of Siemens PLM Software helping Bosch improve its simulation process is the coupling of LMS Amesim with a multi-body simulation (MBS) tool to design pumps. Previously, engineers struggled with a cumbersome, iterative process without direct dynamic coupling between two simulation environments. For each load case, boundary conditions, such as the pressure, were generated with LMS Amesim and had to be manually updated for use by the MBS tool, which resulted in high simulation costs and a long development cycle.
Bosch specialists can now model the hydraulic pump system with LMS Amesim and then directly couple the hydraulics model exported as a Functional Mock-up Unit for cosimulation with the 3D multibody mechanism to precisely investigate possible interactions between system dynamics and hydraulics. The Functional Mock-up Interface (FMI) of LMS Amesim made it possible to easily plug the powerful modeling and solving technology of LMS Amesim directly into the MBS tool and, thus, benefit from the capabilities of both tools.
“By coupling LMS Amesim with the multibody simulation tool via FMI, we gained in efficiency of our process, improved the quality of simulation results, reduced the effort necessary for design analysis and accelerated the simulation process,” says Eric Quetel, Diesel Systems development engineer in the Engineering Center of Competence Simulation at Bosch. “Before, we had to restart the dynamic simulation for each load case, and we were not able to properly identify problems involving the system hydraulics since the input of the hydraulics models was load-case-specific. Now, only a few simulations are needed to investigate all operating conditions.”
Taking advantage of Modelica and LMS Amesim
In addition to diesel injection system modeling, Bosch uses LMS Amesim to design gasoline injection systems. For this, the hydraulic and mechanical parts of the gasoline injection system are built with native LMS Amesim libraries. The power stage circuit, however, is built using the Modelica® language. Using the Modelica development environment of LMS Amesim, engineers are now able to create Modelicabased libraries for their electronics models.
Because Modelica supports acausal, objectoriented modeling, Bosch can easily create customized component models with the specific behavior of interest, then assemble them into complex networks. The Modelica-based power stage circuit can then be coupled with the hydraulic and mechanical subsystems from native LMS Amesim libraries to create a heterogeneous system model. The robust LMS Amesim solvers simulate the coupled system directly, without the need for cosimulation, allowing engineers to use the most suitable modeling language for their specific needs.
“The Modelica development environment of LMS Amesim enables Bosch to take advantage of both worlds; we are now able to use Modelica-based and LMS Amesim models while benefitting from the full range of powerful platform features available within LMS Amesim,” says Annette Geng, Gasoline Systems development engineer in the Engineering Center of Competence Simulation at Bosch. “This approach allows for stable simulation and seamless system optimization using LMS Amesim tools for visualization, linear analysis and design exploration.”
Frontloading the design of increasingly complex braking systems
In addition to the Diesel and Gasoline Systems divisions, LMS Amesim has found several applications in the Chassis Systems Control division, where it helps frontload the design of increasingly complex braking systems while bridging mechanical and control engineering.
The division uses LMS Amesim to analyze the dynamic behavior of hydraulic, pneumatic and mechanical parts of the braking system. LMS Amesim is used for pre-design of the overall braking system, from the pedal to the caliper, as well as for the detailed study of components such as the master cylinder, the booster and the antilock braking system/electronic stability program (ABS/ESP) hydraulic modulator including the pump.
Using LMS Amesim, engineers design the valves of the hydraulic modulator and carry out stability analysis. In this case, the coupling between hydraulics, mechanical parts and the solenoid is critical to managing different phenomena influencing valve stability.
Boosting product quality
Boosting product quality “LMS Amesim is our preferred simulation tool for hydraulics applications, not only in Bosch’s Mobility Solutions but also in the Industrial Technology business sectors,” says Kanne.
“The major benefit that we see in using LMS Amesim is that it helps us improve the quality and performance of our products,” says Klein. “Compared to 1997, we carry out more and more tests in the development process based on virtual prototyping. This leads to a better design and shorter development cycles.”
“After 18 years of the move towards simulation, today no Bosch product is developed without simulation,” says Kanne. “LMS Imagine.Lab enables us to perform more and more simulations, analyze more configurations for a higher variety of our products and ensure smooth collaboration between different development teams worldwide.”