Drivability is at the center of attention of automotive OEMs when developing xEVs. Electric motors, generators, and power electronics strongly impact energy-efficiency and performance of the vehicle.
Siemens Digital Industries Software offers an integrated, multi-scale, and multi-physics electric motor modeling and testing platform together with engineering and consulting services to support the development of reliable and energy-efficient electric machines.
Drivability is at the center of attention of automotive OEMs when developing xEVs. Electric motors, generators, and power electronics strongly impact energy-efficiency and performance of the vehicle.
Siemens Digital Industries Software offers an integrated, multi-scale, and multi-physics electric motor modeling and testing platform together with engineering and consulting services to support the development of reliable and energy-efficient electric machines.
Developing competitive xEVs for mass markets is ranked highly on the agenda of automotive OEMs. The choice of technology, topology, material, control strategy, and cooling system have a significant impact on the performance, drivability and noise & vibration levels of e-machines. Being able to model different electric machine topologies and simulate their performances from the system to their highest fidelity levels in an integrated environment can reduce development time considerably and provide opportunities for innovation to meet market expectations.
Siemens Digital Industries Software offers electric motor design simulation and testing solutions together with engineering and consulting services to accelerate the design and engineering of e-motors by virtually exploring design variants and assessing multi-level performance. Our solutions range from analytical to high fidelity electromagnetics simulation, system-level simulation, and design optimization. Using our tools engineers can leverage fast magnetic circuits-based models as well as FEA-based simulations. That synergy can also be automated to develop a design workflow for rapid but accurate analysis of all-electric machine types including motors, generators, and their drives. Our solutions also enable the designer to consider the effects of power electronic component losses, control strategy, coupled EMAG-CFD based thermal management, and the noise, vibration, and harshness analysis of e-motors.
Take simulation to the next level by quickly predicting the outcome of design changes on your vehicle performance.
Avalie virtualmente o impacto de subsistemas elétricos no desempenho global de seu produto aplicando uma abordagem de modelagem multinível avançada. O Simcenter Amesim o ajuda a maximizar o desempenho de seus sistemas elétricos desde o projeto de conceitos até a validação de controle.
Benefit from efficient modeling workflows to support your engineering effort from architecture creation to integration, including detailed design.
Expand your insight into the performance of electromechanical components, energy conversion, design and siting of antennas, electromagnetic compatibility (EMC), and electromagnetic interference (EMI).
Get support in addressing complex engineering challenges thanks to our engineering experts from around the globe who will transfer their technical knowledge.
Optimize rotating machinery NVH performance by acquiring and analyzing the impact of design on sound quality, (torsional) vibrations, and energy efficiency.
Understand thermal characteristics and behavior and heat transfers between components, and tailor your electric device thermal management systems and their control for optimal performance.
Design efficient and reliable systems by keeping the temperature of components within the optimal operating range, evacuating excess heat or reusing it to improve performance and efficiency
Avalie virtualmente o impacto de subsistemas elétricos no desempenho global de seu produto aplicando uma abordagem de modelagem multinível avançada. O Simcenter Amesim o ajuda a maximizar o desempenho de seus sistemas elétricos desde o projeto de conceitos até a validação de controle.
Prof. Boulet of McGill University explains how integrating Simcenter MAGNET and Simcenter Motorsolve allowed them to design the entire power train.
Professor Pillay from Concordia University explains how they use Simcenter MAGNET and Motorsolve for electrical machine design for renewable energy...
High stress on modern electrical machines, the need for compact powertrain structure and high performance requirements are driving increased usage ...
The content and complexity of E/E systems are experiencing another step change due to vehicle electrification. Due to falling battery prices, elect...
