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Powertrain Design & Engineering

Powertrain Design & Engineering

Stricter fuel economy and emissions regulations are driving automakers and suppliers to develop more efficient powertrains and vehicles. Vehicle teams must collaborate closely with powertrain engineers to reduce energy demands throughout the vehicle. These efforts include lightweighting, improving aerodynamics and other elements. 

Our powertrain design solution provides a state-of-the-art modeling environment to help your powertrain teams quickly create design studies to evaluate powertrains using digital mockups of the vehicle compartment, subsystems and components.

Stricter fuel economy and emissions regulations are driving automakers and suppliers to develop more efficient powertrains and vehicles. Vehicle teams must collaborate closely with powertrain engineers to reduce energy demands throughout the vehicle. These efforts include lightweighting, improving aerodynamics and other elements. 

Our powertrain design solution provides a state-of-the-art modeling environment to help your powertrain teams quickly create design studies to evaluate powertrains using digital mockups of the vehicle compartment, subsystems and components.

Powertrain Design & Engineering

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Stricter fuel economy and emissions regulations are driving automakers and suppliers to develop more efficient powertrains and vehicles at an unprecedented rate. Companies are pursuing new propulsion technologies such as hybrid electric and electric vehicle with different configurations – from mild hybrid implementations, to range extender, to full hybrid architectures and electrification programs.

Efforts to improve the internal combustion engine and transmission continue, as well as other improvements in drivelines, driveline components and engine controls. Vehicle teams must collaborate closely with powertrain engineers to reduce energy demands throughout the vehicle, including lightweighting, improving aerodynamics and other elements.

Our solutions provide a state-of-the-art modeling environment to help you achieve key powertrain design objectives for performance, fuel economy, durability and responsiveness, all while meeting ever-tightening emissions standards. Our automotive powertrain design solutions include best-in-class, integrated functionality for systems modeling, computer-aided design (CAD), computer-aided manufacturing (CAM), computer-aided engineering (CAE) and product data management (PDM) for all of your powertrain initiatives.

Powertrain Design & Engineering

Возможности решения

Explore the key areas of this solution.

CAE Simulation

Leverage best-in-class model-based engineering solutions to develop safe reliable and secure powertrain controls applications simultaneously optimizing mechanics, electronics and software while continuously integrating simulation and test.

Design for Additive Manufacture

Аддитивное производство меняет методы проектирования и изготовления изделий. Теперь компании могут разрабатывать оптимизированные конструкции, которые раньше было либо невозможно, либо слишком дорого создавать. Разрабатывайте, оптимизируйте и изготавливайте металлические и пластиковые компоненты с помощью новейших методов аддитивного производства.

Design Interoperability

Не секрет, что в наше время сложность изделий постоянно растет, и почти везде используется встроенная электроника. Вот почему так важно, чтобы разработчики электрической и механической части могли взаимодействовать в процессе работы, обеспечивая согласованность систем в течение всей работы над проектом.

Design Validation

Achieve superior first time quality of powertrain designs by simulating casting, machining, fabrication and assembly operations in the design, prior to purchasing expensive tooling.

Digital Mockup

Leverage collaboration among multiple engineering teams using different mechanical design tools while providing confident visualization and design review capabilities, especially for large, complex powertrain assemblies

Integrated BOM Management

Consolidate and coordinate design, manufacturing, and service views of bills of material for powertrain designs. Enable powerful configuration tools, building sophisticated product variants based on customer and global design requirements.

Knowledge Reuse

Optimize liquid flow and thermal transfer in lubrication and fuel systems, as well as combustion gas simulation, and mixed gas/liquid interaction to increase power transmission system durability and power output.

Mechatronic Concept Design

Leverage system-driven approach to embedded software design bridging software modeling to coding, ensuring robustness with hardware-software co-simulation, compressing delivery time while insuring safety compliance and promoting reliable functional reuse.

Model Based Definition

Определение на базе модели позволяет получить полное цифровое определение изделия в рамках 3D модели, которое заменяет традиционный чертеж.

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