Hydrogen fuel cells are becoming increasingly important for vehicle propulsion and energy storage in electric vehicles – especially in trains and commercial vehicles but also in an ever-increasing number of passenger cars. With our solutions, we offer manufacturers all over the world comprehensive support for developing and testing state-of-the-art fuel cell technologies.
Hydrogen Fuel Cells for Stationary Energy Storage Systems
With the transition to renewable energies, the market for stationary energy storage systems is constantly growing. Of course, you can rely on our full support when developing and testing hydrogen fuel cells for stationary applications.
A typical fuel cell system consists of an air supply path (cathode), a hydrogen supply path (anode), and a cooling circuit. To control the operation of the complete fuel cell system, fuel cell vehicles require an electronic control unit (ECU), which has to pass extensive tests before being introduced to the market.
The ECU uses various control algorithms to actuate the components related to the fuel cell system, including hydrogen injection, valves, pumps, and compressors. During ECU tests, the test system must appropriately process the actuation controls. At the same time, the sensor values from the fuel cell system, such as pressure and temperature, must be provided continuously to the ECU. Apart from the testing hardware, this requires mathematical descriptions of the fuel cell system and optionally of the system’s environment. These plant models have to fulfill various requirements, including strong computation performance (real-time capability), scalability, and model accuracy.
Our Solutions for Hydrogen Fuel Cells
We offer the right tools to help you improve your development process of fuel cells and related technologies. Our industry-proven HIL test systems, e.g., based on SCALEXIO technology, include simulators that perform all relevant functions for fuel cell ECU operation. Our ASM portfolio offers suitable fuel cell system models and test environments (e.g., full truck simulation) that can be extended in engineering projects to ensure that you meet all challenges related to the required plant models.
Mathematical models for testing and validating control algorithms by means of simulation
Simulation is an industry-proven method for testing and validating control algorithms and control software. dSPACE offers simulation models that support all stages of development, from function design to ECU testing.
TargetLink – production code generation for the highest demands
dSPACE TargetLink generates production code automatically for graphically specified functions straight from MathWorks® Simulink®/Stateflow®. This shortens coding and development times drastically and contributes to a considerable improvement in the quality of the production code.
One-stop solution for hardware-in-the-loop simulation
As the international market leader for hardware-in-the-loop testing, dSPACE provides the most comprehensive range of tools, solutions, and technology. The dSPACE products and services cover all test phases from function testing to ECU testing to network testing.
Simulation and analysis for a wide range of bus systems
dSPACE provides a comprehensive and complete tool chain for simulating, analyzing, and validating networks. In addition to real-time simulation tools and hardware for in-vehicle and in-laboratory use, the dSPACE portfolio includes completely software-based simulation for buses.
시작부터 끝까지 개발 지원
특히 자율 주행 시스템 영역에서 더욱 안전에 중요한 기능을 갖춘 복잡한 E/E 시스템 및 소프트웨어를 개발하면 기능 신뢰성 보장에 대한 문제가 제기됩니다. 그렇기 때문에 dSPACE는 초기 프로젝트 단계부터 승인에 이르기까지 고객을 지원하기 위해 복잡한 E/E 프로세스에서 기능 안전, 테스트 전략 개발, 검증 및 인증에 대한 엔드 투 엔드 전문 지식을 제공합니다.
dSPACE 시스템은 시작과 실행이 쉽습니다. 그러나 프로젝트가 더 복잡하거나 개별 솔루션이 필요하거나 시간 압박이 심한 경우에는 dSPACE의 빠르고 유능하며 신뢰성 높은 엔지니어링 서비스를 믿어 보시기 바랍니다.